This document summarizes a pilot study that tested the biofermentation of water hyacinths and gizzard shad using Agron Corporation's technology. Four biofermentation trials were conducted using different mixtures of water hyacinths, gizzard shad, manures, and scallop offal. The results showed that water hyacinths alone do not ferment well but fermentation is improved when combined with other materials. A mixture of water hyacinths and gizzard shad resulted in odor and fly problems. The document recommends further studies to evaluate using the biofermentation products as fertilizers.
Assessment of nutritive values of some waterweedsAlexander Decker
This document summarizes a study that evaluated the nutritive values and phytochemical constituents of 10 common waterweeds in Nigeria. The study found that the waterweeds contained 13.67-32.67% crude protein, 4-26% crude fiber, and 7.33-26% ash. The waterweeds also had adequate levels of other nutrients. Though high in moisture, the waterweeds could provide a source of nutrients, especially protein, for livestock during dry seasons. Qualitative analysis found that most waterweeds contained steroids, while four contained saponins and some contained phenols or tannins. Nymphaea lotus was found to have the lowest levels of anti-
This document summarizes a study on the uptake of pharmaceuticals by vegetable crops during irrigation with recycled water. Key findings include:
- Crops were found to uptake selected pharmaceuticals (atenolol, ofloxacin, diclofenac) from soil into edible parts at low ng/g levels.
- Uptake depended on soil moisture levels, with higher uptake at field capacity. Ofloxacin showed the highest uptake levels.
- Higher input concentrations of pharmaceuticals in irrigation water led to higher residues in plant tissues.
- Experiments were conducted in Hawaii and Arizona on various crops like basil, lettuce, peppers under different soil moisture and pharmaceutical concentration conditions.
- Further work is needed
Kate Scow and colleagues assessed phosphorus cycling in agricultural soils using oxygen isotope analysis of phosphate. They took soil cores from organic and conventional crop rotation plots at Russell Ranch that received either organic or mineral fertilizer. Phosphate was extracted from soils using different methods and the oxygen isotopic composition was measured. Results showed higher phosphorus concentrations in the organic treatment soils. Isotopic signatures suggested more recycled phosphorus in the mineral treatment compared to the organic treatment. This study demonstrated the utility of oxygen isotopes of phosphate in distinguishing phosphorus sources and cycling pathways in agricultural soils under different management practices.
Evalution the changes of some biomolecules of two grapevine cultivars against...Innspub Net
Salinity is one of the limiting factor for grape growing in arid and semi-arid areas. Hence he effect of salinity on some physiological and biochemical characteristics of two seedless cultivars of grape namely Flame Seedless and Perlette under salinity stress were investigated. The design of the experiment was factorial arrangement in a complete randomized design with four replications. Five levels of salinity (0, 25, 50,75 and 100 m molar of NaCl) in irrigation water were surveyed on rooted cuttings of both cultivars. Results indicated that with increasing salinity levels photosynthesis, amount of soluble proteins and relative leaf water content was decreased and amount of proline and soluble sugars were increased. Ion leakage of cell membrane and malondialdehyde were increased with increased salinity. Withoute salinity application Perlette cultivar produced the best values for physiological and morphological indices. In general, Perlette cultivar proved more tolerance against salinity than Flame Seedless cultivar did. Get the full articles at: http://www.innspub.net/volume-6-number-5-may-2015-jbes/
This document summarizes research on the biological and abiotic transformation of contaminants of emerging concern (CECs) in anaerobic soils. The research has three main objectives: 1) study the biodegradation of the anticonvulsant drug carbamazepine (CBZ) in soils, 2) examine abiotic factors influencing CEC degradation, and 3) investigate mineral-catalyzed degradation of organophosphate flame retardants. For CBZ, results show removal only under aerobic conditions in one soil, and enrichment of phylotypes like Sphingomonadaceae linked to degradation. Screening of CEC reactivity with abiotic soil components found reactions with reduced sulfur, iron, and
This document summarizes research on characterizing the fate and transport of bioactive chemicals of emerging concern (CECs) from animal manure during waste-to-energy processes. The researchers tested various treatment processes including biological treatment with mixed algal-bacterial bioreactors and conventional activated sludge, as well as hydrothermal liquefaction and gasification. They found that over 98% of CECs like hormones could be removed by the biological treatment, and over 99.9% removal is possible with the integrated multi-step system. Hydrothermal processes broke down antibiotics sufficiently to eliminate antibiotic resistance development. The integrated treatment approach effectively cleans up manure for improved water quality and potential reuse.
Impact of structural amendment of Paper mill wastes with different organic ma...Premier Publishers
Solid wastes of Waste Paper based Emami Paper Mill at Balasore was collected from dumping ground by the side of Swapna nala (effluent releasing channel) and vermicomposted after mixing separately with different organic materials like cabbage leaves, water hyacinth, paddy straw and sawdust in different ratio either alone or in combination with cowdung. It was found that Paper Mill Wastes (PMW) alone was not palatable to Eisenia fetida, many of them either died or moved away from the tray. Amendment of PMW with cabbage leaves was also not promising. However, the amendment of PMW with cowdung and sawdust in 1:0.5:0.5 produced good quantity vermicompost in comparatively less time with better survival of earthworms. Vermicompost of this treatment was also recorded comparatively higher nutrient contents and performed better growth of paddy seedlings
Physico-Chemical and Microbial Analysis of Drinking Water of Four Springs of ...IJEAB
Drinking water of good quality is essential for human physiology whose continual existence depends on the availability of water and any sort of contamination in water which is above the standard limits set by international water regulating agencies can lead to water related diseases. So, the present investigation was conducted to determine the physico-chemical and bacteriological contents of four springs i.e.Heshi spring 1, Heshi spring 2, Kitaab Roong, and Kooti spring and its distribution system such as water reservoir inlet, outlet, mid and end point of distribution systems, junction where it merge with glacier water. The temperature was in a range of 13oC - 22oC. The turbidity of water samples fluctuate from 0.02NTU-1.99NTU. The pH value was in a range of 6.2-7.1. Electrical conductivity range of minimum 122µS/cm to a maximum of 600µS/cm. The TDS of all water samples ranging from minimum of 164-513mg/l. The amount of reactive ortho phosphate was in a range of 26mg/l to 59mg/L. The amount of total phosphorous was in a range of minimum 23m/L to maximum of 120mg/L. The total bacterial count was in a range of 11CFU/100ml to 83 CFU/100ml.The findings showed there should be comprehensive standardization of drinking water of Danyore village according to guidelines of WHO water quality standards and make it safe for human consumption.
Assessment of nutritive values of some waterweedsAlexander Decker
This document summarizes a study that evaluated the nutritive values and phytochemical constituents of 10 common waterweeds in Nigeria. The study found that the waterweeds contained 13.67-32.67% crude protein, 4-26% crude fiber, and 7.33-26% ash. The waterweeds also had adequate levels of other nutrients. Though high in moisture, the waterweeds could provide a source of nutrients, especially protein, for livestock during dry seasons. Qualitative analysis found that most waterweeds contained steroids, while four contained saponins and some contained phenols or tannins. Nymphaea lotus was found to have the lowest levels of anti-
This document summarizes a study on the uptake of pharmaceuticals by vegetable crops during irrigation with recycled water. Key findings include:
- Crops were found to uptake selected pharmaceuticals (atenolol, ofloxacin, diclofenac) from soil into edible parts at low ng/g levels.
- Uptake depended on soil moisture levels, with higher uptake at field capacity. Ofloxacin showed the highest uptake levels.
- Higher input concentrations of pharmaceuticals in irrigation water led to higher residues in plant tissues.
- Experiments were conducted in Hawaii and Arizona on various crops like basil, lettuce, peppers under different soil moisture and pharmaceutical concentration conditions.
- Further work is needed
Kate Scow and colleagues assessed phosphorus cycling in agricultural soils using oxygen isotope analysis of phosphate. They took soil cores from organic and conventional crop rotation plots at Russell Ranch that received either organic or mineral fertilizer. Phosphate was extracted from soils using different methods and the oxygen isotopic composition was measured. Results showed higher phosphorus concentrations in the organic treatment soils. Isotopic signatures suggested more recycled phosphorus in the mineral treatment compared to the organic treatment. This study demonstrated the utility of oxygen isotopes of phosphate in distinguishing phosphorus sources and cycling pathways in agricultural soils under different management practices.
Evalution the changes of some biomolecules of two grapevine cultivars against...Innspub Net
Salinity is one of the limiting factor for grape growing in arid and semi-arid areas. Hence he effect of salinity on some physiological and biochemical characteristics of two seedless cultivars of grape namely Flame Seedless and Perlette under salinity stress were investigated. The design of the experiment was factorial arrangement in a complete randomized design with four replications. Five levels of salinity (0, 25, 50,75 and 100 m molar of NaCl) in irrigation water were surveyed on rooted cuttings of both cultivars. Results indicated that with increasing salinity levels photosynthesis, amount of soluble proteins and relative leaf water content was decreased and amount of proline and soluble sugars were increased. Ion leakage of cell membrane and malondialdehyde were increased with increased salinity. Withoute salinity application Perlette cultivar produced the best values for physiological and morphological indices. In general, Perlette cultivar proved more tolerance against salinity than Flame Seedless cultivar did. Get the full articles at: http://www.innspub.net/volume-6-number-5-may-2015-jbes/
This document summarizes research on the biological and abiotic transformation of contaminants of emerging concern (CECs) in anaerobic soils. The research has three main objectives: 1) study the biodegradation of the anticonvulsant drug carbamazepine (CBZ) in soils, 2) examine abiotic factors influencing CEC degradation, and 3) investigate mineral-catalyzed degradation of organophosphate flame retardants. For CBZ, results show removal only under aerobic conditions in one soil, and enrichment of phylotypes like Sphingomonadaceae linked to degradation. Screening of CEC reactivity with abiotic soil components found reactions with reduced sulfur, iron, and
This document summarizes research on characterizing the fate and transport of bioactive chemicals of emerging concern (CECs) from animal manure during waste-to-energy processes. The researchers tested various treatment processes including biological treatment with mixed algal-bacterial bioreactors and conventional activated sludge, as well as hydrothermal liquefaction and gasification. They found that over 98% of CECs like hormones could be removed by the biological treatment, and over 99.9% removal is possible with the integrated multi-step system. Hydrothermal processes broke down antibiotics sufficiently to eliminate antibiotic resistance development. The integrated treatment approach effectively cleans up manure for improved water quality and potential reuse.
Impact of structural amendment of Paper mill wastes with different organic ma...Premier Publishers
Solid wastes of Waste Paper based Emami Paper Mill at Balasore was collected from dumping ground by the side of Swapna nala (effluent releasing channel) and vermicomposted after mixing separately with different organic materials like cabbage leaves, water hyacinth, paddy straw and sawdust in different ratio either alone or in combination with cowdung. It was found that Paper Mill Wastes (PMW) alone was not palatable to Eisenia fetida, many of them either died or moved away from the tray. Amendment of PMW with cabbage leaves was also not promising. However, the amendment of PMW with cowdung and sawdust in 1:0.5:0.5 produced good quantity vermicompost in comparatively less time with better survival of earthworms. Vermicompost of this treatment was also recorded comparatively higher nutrient contents and performed better growth of paddy seedlings
Physico-Chemical and Microbial Analysis of Drinking Water of Four Springs of ...IJEAB
Drinking water of good quality is essential for human physiology whose continual existence depends on the availability of water and any sort of contamination in water which is above the standard limits set by international water regulating agencies can lead to water related diseases. So, the present investigation was conducted to determine the physico-chemical and bacteriological contents of four springs i.e.Heshi spring 1, Heshi spring 2, Kitaab Roong, and Kooti spring and its distribution system such as water reservoir inlet, outlet, mid and end point of distribution systems, junction where it merge with glacier water. The temperature was in a range of 13oC - 22oC. The turbidity of water samples fluctuate from 0.02NTU-1.99NTU. The pH value was in a range of 6.2-7.1. Electrical conductivity range of minimum 122µS/cm to a maximum of 600µS/cm. The TDS of all water samples ranging from minimum of 164-513mg/l. The amount of reactive ortho phosphate was in a range of 26mg/l to 59mg/L. The amount of total phosphorous was in a range of minimum 23m/L to maximum of 120mg/L. The total bacterial count was in a range of 11CFU/100ml to 83 CFU/100ml.The findings showed there should be comprehensive standardization of drinking water of Danyore village according to guidelines of WHO water quality standards and make it safe for human consumption.
Mycological flora of Clarias gariepinus exposed to an oilfield wastewater in ...Innspub Net
The Mycological flora of Clarias gariepinus exposed to sub-lethal concentrations of an oilfield wastewater were investigated. The concentrations included 0% (control), 10, 20, 30, 40, 50 and 60% respectively. Physico-chemistry and mycoflora of wastewater and tissues of Clarias gariepinus were
determined using standard methods. Mean values obtained were; temperature 25.93±6.7oC, pH 7.73±0.31, turbidity 40.33±1.53 NTU, salinity 6584±137mg/l, conductivity 15200±1058.68μs/cm, total dissolved solids 8436.33±501.68 mg/l, total suspended solids 4.67±0.58mg/l, alkalinity
1296.33±2168mg/l, dissolved oxygen 1.83±0.38mg/l, biochemical oxygen demand 1.3±0.7mg/l and Total hydrocarbon 40.54±50mg/l. Temperature, DO, BOD and THC were below allowable FEPA limits while all other components were higher. Mean counts of total fungi and petroleum degraders in the oilfield wastewater were 4.7±0.46x106 sfu/ml and 59.7±25.7% respectively. Fungal counts in the
tissues of Clarias ranged from 0.20±0.00 x 104sfu/g to 3.00±0.00 x 104sfu/g (skin), 0.48±0.05 x 104sfu/g to 7.25±0.96 x 104sfu/g (gills), and 1.13±0.15 x 104sfu/g to 5.75±0.50 x 104sfu/g (intestine). The intestine had higher fungal counts, but the gills recorded the highest at 10%
concentration. Fungi isolated included; Aspergillus fumigatus (46.43%), Aspergillus niger (100%), Fusarium spp. (100%), Mucor spp. (24.99%), Penicillium spp. (57.14%), Rhizopus spp. (32.13%) and Saccharomyces spp. (34.3%). All except Saccharomyces spp were isolated from oilfield wastewater.
Aspergillus spp. Penicillium spp, Mucor and Rhizopus are considered normal flora, but can still cause infection which may result in the mortality of the fish and eventually economic loss to the aquarium fish industry. Proper treatment of oilfield wastewater prior to discharge into the recipient water body is
advocated to reduce ecotoxicological problems. Get more articles at: http://www.innspub.net/volume-3-number-1-july-2015-ijmm/
1) The document describes an experiment that tested the effects of water and nutrient recycling and coagulant addition on the anaerobic digestion of algae biomass.
2) Recycling water had no effect on methane production, but recycling nutrients as digestate rather than fertilizer reduced methane yield by 28%.
3) Adding coagulants, especially the inorganic polymer, decreased methane production in a dose-dependent manner and caused a lag in biogas production. The organic polymer had a smaller negative effect.
This project examines the role of microbial activities in controlling phosphorus mobility in landscapes prone to saturation-drying cycles, from continuously saturated streams to variably saturated soils. Laboratory and field experiments were conducted to better understand how hydrology and microbes interact to affect phosphorus retention and release. Results showed that stream biofilms accumulated phosphorus, mostly as polyphosphate, in response to external phosphorus loading levels independently of biofilm biomass. Diurnal changes in oxygen levels within biofilms, mimicking natural conditions, promoted phosphorus release under anaerobic conditions and removal under aerobic conditions, likely due to the activity of polyphosphate-accumulating organisms (PAOs). The identification of putative PAO populations in stream biofilms provided insights
1) The document summarizes research on the effect of different carbon sources on bio-floc formation in Pacific white shrimp culture.
2) It finds that Bacillus sp. bacteria were present in all treatments with added carbon sources. Molasses supported Alcaligenes, Bacillus, and Kurthia genera while tapioca supported Actinobacter and Bacillus.
3) Floc volume increased over time in all treatments until the end of the maintenance period, with tapioca and tapioca by-product treatments resulting in higher floc volumes.
Dr. P.K. Pandey is the major advisor and Dean of CAU. The document discusses the impacts of aquaculture including antibiotic resistance, habitat degradation, and pollution. It then proposes various green technologies to mitigate these impacts such as environmentally friendly feeds that reduce nitrogen loads, biopesticides and phytotherapies derived from plants as alternatives to chemicals, and biofertilizers using nitrogen-fixing bacteria to replace inorganic fertilizers. The goal is to develop sustainable aquaculture practices that safeguard resources for future generations.
1) The document evaluates the performance of a locally developed paddle wheel aerator on catfish effluent quality in Lagos, Nigeria.
2) Two basins containing diluted catfish effluent were used - one with a paddle wheel aerator and one without (the control).
3) Water quality parameters like suspended solids, nitrogen, phosphorus, ammonia, nitrite and biochemical oxygen demand were measured over time in both basins.
4) The results showed that the paddle wheel aerator significantly reduced levels of all water quality parameters measured compared to the control basin without aeration.
The document discusses biosecurity practices in shrimp aquaculture. It describes how diseases like white spot syndrome virus (WSSV) have significantly impacted the industry. Several farms in countries like Belize, Panama, and Malaysia are highlighted as successful examples of implementing biosecure, zero-water exchange systems to prevent disease transmission. These closed recirculation systems maintain high yields while reducing environmental impacts. The development of reliable diagnostic tools and following biosecurity protocols from other industries can help shrimp farming become more sustainable and profitable.
• Maxton, A., Jaiswal, R., Kaushik, I., Mishra, R. and Masih, S.A. (2020). Ef...Ilika Kaushik
This study evaluated the ability of Bacillus subtilis and Bacillus cereus to promote growth of Capsicum annuum (chili pepper) under normal and saline conditions. The bacteria were isolated from soil and shown to produce plant growth hormones like IAA, GA, and ACC deaminase. Inoculation of C. annuum with the bacteria led to increased root length, chlorophyll content, and biomass under both non-saline and saline (200mM NaCl) conditions compared to uninoculated controls. Molecular characterization identified the isolates as B. subtilis and B. cereus, confirming their potential as plant growth promoting rhizobacteria. The study demonstrated that these bacteria can alleviate salt stress
This document summarizes a study on enhancing biogas production from abattoir cow liquor waste and various agro-industrial wastes through anaerobic digestion. Cow liquor waste was combined with brewery spent grain, cassava waste water, and carbonated soft drink sludge at different ratios. Adding cow liquor waste significantly increased biogas production from brewery spent grain but had negative effects on carbonated soft drink sludge. Cassava waste water, which previously did not produce biogas, was able to produce biogas when inoculated with cow liquor waste. The study suggests cow liquor waste can improve biogas yields from some agro-industrial wastes through anaerobic digestion.
This study isolated actinomycetes from marine samples in Thoothukkudi, Tamil Nadu, India and tested their inhibitory activity against fish pathogens. Higher bacterial populations were found in sediment than water samples. 46 actinomycete strains were isolated, of which 36 showed antagonism against E. coli in a screening assay. Nine highly antagonistic isolates were further tested against fish pathogens Aeromonas hydrophila, A. sobria, Vibrio fischeri, V. vulnificus, Edwardsiella tarda and Pasteurella spp. using a cross-streak assay. Most isolates inhibited all pathogens. Isolate A15 strongly inhibited all pathogens and was identified as Streptomy
Bacteria of tomatoes managed with well water and pond water: Impact of agricu...Agriculture Journal IJOEAR
Abstract— We know that contamination of crops by human pathogens can occur in agricultural settings but we still do not understand precisely which environmental sources represent the highest risks. Human pathogens maybe introduced by wind, worker hygiene, plant mediated factors, insects, water sources, or any combination of these factors. To safeguard against risks to consumers from agricultural waters, FSMA regulations for U.S. crop production require the use of water with an average of less than 126 CFU per 100 ml for applications that come in direct contact with a crop. Due to availability/scarcity however, water from other sources such as agricultural ponds is commonly used. To better understand risks that may be associated with the use of “surface”(often higher microbial load) water sources, we described the bacterial microbiota associated with an agricultural pond, an agricultural well and the corresponding microbiota of tomato carpospheres managed with each water source (also described as phyllosphere). 16S rRNA gene amplicons were used for bacterial profiling of waters and tomato surfaces at four time points over a growing season. Microbial profiles differentiated surface and ground water samples throughout the season, however no significant influence on tomato fruit surfaces could be correlated to either water source. These results suggest that in certain cases, environmental pressures such as wind, dust or other airborne factors may have a more significant impact on the surface microbiology of field crops than irrigation or management water sources do.
This document summarizes research on the occurrence and fate of emerging contaminants from septic systems. Key findings include:
- Emerging contaminants were frequently detected in septic tank effluent and drainfield leachate, though concentrations decreased as effluent percolated through soil.
- Mass balance analysis found more than 84% of applied emerging contaminants remained in drainfield soil or were degraded, while less than 14% were recovered in leachate.
- Emerging contaminants persisted in shallow groundwater below drainfields, though at lower concentrations than in effluent.
- Traces of pharmaceuticals and other contaminants were detected in sediments from a watershed with septic
IRJET-Biogas Generation from Combination of Food Waste and Water HyacinthIRJET Journal
1. The document discusses biogas generation from anaerobic digestion of various ratios of food waste and water hyacinth using cow dung as a seed material. Ratios studied included 80:20, 70:30, 60:40, and 0:100 of food waste to water hyacinth.
2. For the 80:20 ratio, biogas generation was 450 mL and reductions in parameters like BOD, COD, and TS were 58%, 68%, and 19% respectively. Nutrient levels like phosphates and nitrates increased.
3. For the 70:30 ratio, biogas generation was highest at 480 mL. Reductions in BOD, COD, and TS were
Impact of Compost Prepared from Invasive Alien Species in Alleviating Water S...YogeshIJTSRD
Invasive alien plant species are major thread to biodiversity, climate change and environmental sustainability. Management of these invasive alien plant species become a typical task at global level. Composting can be an efficient and environment friendly solution for management of these invasive alien species. The aim of present study was to evaluate the effect of compost prepared from three invasive alien species Cuscutareflexa, Eupatorium adenophorum and Lantana camaraon the tomato plant vigour, antioxidant and nutrient content under water deficit and irrigated well watered conditions. The results revealed that Cuscutareflexa CR compost treatment gave highest shoot length 23.0 , 23.7 , root length 30.0 , 21.4 , shoot fresh weight 47.9 , 52.2 , shoot dry weight 71.0 , 49.4 and root dry weight 66.7 , 51.5 , under water stressand irrigated conditions, respectively. The application of compostCR under water stress has enhanced chlorophyll and prolinecontent over control. Similarly, antioxidant enzymes analysis showed the increased superoxide dismutase 1.33 2.17fold , peroxidase 1.38 1.82fold and catalase 1.06 1.73fold activity under water deficit condition. Nutrient content such as nitrogen, phosphorus, potassium and sodiumin tomato leaf were higher under both water stress and irrigated conditions compared to their respective control. It can be concluded from above outcomes that compost prepared from invasive alien species have potential to ameliorate the negative effects of water stress and enhance the tomato growth. Sandhya Bind | A. K. Sharma "Impact of Compost Prepared from Invasive Alien Species in Alleviating Water Stress in Tomato (Solanum Lycopersicum L.)" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd39961.pdf Paper URL: https://www.ijtsrd.com/biological-science/botany/39961/impact-of-compost-prepared-from-invasive-alien-species-in-alleviating-water-stress-in-tomato-solanum-lycopersicum-l/sandhya-bind
Physio-Chemical Aspects for Assessing Agricultural Soil Fertility and Product...Ilika Kaushik
The document summarizes a study that analyzed soil samples from agricultural lands in Bharthani, India to assess soil fertility levels based on physicochemical properties. The samples were tested for pH, organic carbon, and phosphorus content. Results showed that most samples had very high pH levels, making the soil alkaline. Organic carbon levels were satisfactory. Phosphorus levels were found to be high or very high in most samples, indicating excessive phosphorus that could leach into water sources. The study concludes that soil fertility is impacted by high pH and phosphorus levels, and recommends practices like adding organic matter to improve conditions.
This document summarizes a presentation on biofloc technology given by Mr. Tarang Kumar Shah for his PhD in Aquaculture. It discusses how biofloc technology works by balancing carbon and nitrogen to form protein-rich flocs that maintain water quality. It also outlines the history and mechanisms of biofloc formation, factors influencing flocs, and applications of biofloc technology in aquaculture including shrimp and fish farming, nursery and grow-out phases, and its potential benefits for aquaponics and breeding.
Aquaponics — Integration of Hydroponics with AquacultureElisaMendelsohn
Aquaponics is a sustainable food production system that integrates aquaculture and hydroponics. In aquaponics, nutrient-rich waste from fish tanks fertilizes hydroponically grown plants. The plants then filter the water, which is recirculated to the fish tanks. Recent innovations have improved aquaponics technology, enabling commercial viability. Aquaponics provides organic fertilizer to plants from fish waste while the plants remove toxins from the water, benefiting both fish and plants in a symbiotic system.
260 hot spots were detected across Sumatra by Indonesian authorities, mostly in Jambi, South Sumatra, and Lampung provinces. The fires were reducing visibility and spreading smoke across Sumatra and into neighboring countries. Health officials reported that nearly 2,000 people in Bengkulu and Jambi were suffering from respiratory issues due to the haze from the ongoing fires.
The document provides a critique of using social networking in education. It discusses both the positive and negative implications. Among the positives are that social networking provides access to knowledge, opportunities for collaboration between students and teachers without limitations of space and time, and increased awareness for students. However, challenges include social networking being time-consuming, risk of miscommunication due to lack of physical cues, and unreliable or inaccurate information being spread. The document concludes by noting social networking's potential benefits for education are still emerging.
Mycological flora of Clarias gariepinus exposed to an oilfield wastewater in ...Innspub Net
The Mycological flora of Clarias gariepinus exposed to sub-lethal concentrations of an oilfield wastewater were investigated. The concentrations included 0% (control), 10, 20, 30, 40, 50 and 60% respectively. Physico-chemistry and mycoflora of wastewater and tissues of Clarias gariepinus were
determined using standard methods. Mean values obtained were; temperature 25.93±6.7oC, pH 7.73±0.31, turbidity 40.33±1.53 NTU, salinity 6584±137mg/l, conductivity 15200±1058.68μs/cm, total dissolved solids 8436.33±501.68 mg/l, total suspended solids 4.67±0.58mg/l, alkalinity
1296.33±2168mg/l, dissolved oxygen 1.83±0.38mg/l, biochemical oxygen demand 1.3±0.7mg/l and Total hydrocarbon 40.54±50mg/l. Temperature, DO, BOD and THC were below allowable FEPA limits while all other components were higher. Mean counts of total fungi and petroleum degraders in the oilfield wastewater were 4.7±0.46x106 sfu/ml and 59.7±25.7% respectively. Fungal counts in the
tissues of Clarias ranged from 0.20±0.00 x 104sfu/g to 3.00±0.00 x 104sfu/g (skin), 0.48±0.05 x 104sfu/g to 7.25±0.96 x 104sfu/g (gills), and 1.13±0.15 x 104sfu/g to 5.75±0.50 x 104sfu/g (intestine). The intestine had higher fungal counts, but the gills recorded the highest at 10%
concentration. Fungi isolated included; Aspergillus fumigatus (46.43%), Aspergillus niger (100%), Fusarium spp. (100%), Mucor spp. (24.99%), Penicillium spp. (57.14%), Rhizopus spp. (32.13%) and Saccharomyces spp. (34.3%). All except Saccharomyces spp were isolated from oilfield wastewater.
Aspergillus spp. Penicillium spp, Mucor and Rhizopus are considered normal flora, but can still cause infection which may result in the mortality of the fish and eventually economic loss to the aquarium fish industry. Proper treatment of oilfield wastewater prior to discharge into the recipient water body is
advocated to reduce ecotoxicological problems. Get more articles at: http://www.innspub.net/volume-3-number-1-july-2015-ijmm/
1) The document describes an experiment that tested the effects of water and nutrient recycling and coagulant addition on the anaerobic digestion of algae biomass.
2) Recycling water had no effect on methane production, but recycling nutrients as digestate rather than fertilizer reduced methane yield by 28%.
3) Adding coagulants, especially the inorganic polymer, decreased methane production in a dose-dependent manner and caused a lag in biogas production. The organic polymer had a smaller negative effect.
This project examines the role of microbial activities in controlling phosphorus mobility in landscapes prone to saturation-drying cycles, from continuously saturated streams to variably saturated soils. Laboratory and field experiments were conducted to better understand how hydrology and microbes interact to affect phosphorus retention and release. Results showed that stream biofilms accumulated phosphorus, mostly as polyphosphate, in response to external phosphorus loading levels independently of biofilm biomass. Diurnal changes in oxygen levels within biofilms, mimicking natural conditions, promoted phosphorus release under anaerobic conditions and removal under aerobic conditions, likely due to the activity of polyphosphate-accumulating organisms (PAOs). The identification of putative PAO populations in stream biofilms provided insights
1) The document summarizes research on the effect of different carbon sources on bio-floc formation in Pacific white shrimp culture.
2) It finds that Bacillus sp. bacteria were present in all treatments with added carbon sources. Molasses supported Alcaligenes, Bacillus, and Kurthia genera while tapioca supported Actinobacter and Bacillus.
3) Floc volume increased over time in all treatments until the end of the maintenance period, with tapioca and tapioca by-product treatments resulting in higher floc volumes.
Dr. P.K. Pandey is the major advisor and Dean of CAU. The document discusses the impacts of aquaculture including antibiotic resistance, habitat degradation, and pollution. It then proposes various green technologies to mitigate these impacts such as environmentally friendly feeds that reduce nitrogen loads, biopesticides and phytotherapies derived from plants as alternatives to chemicals, and biofertilizers using nitrogen-fixing bacteria to replace inorganic fertilizers. The goal is to develop sustainable aquaculture practices that safeguard resources for future generations.
1) The document evaluates the performance of a locally developed paddle wheel aerator on catfish effluent quality in Lagos, Nigeria.
2) Two basins containing diluted catfish effluent were used - one with a paddle wheel aerator and one without (the control).
3) Water quality parameters like suspended solids, nitrogen, phosphorus, ammonia, nitrite and biochemical oxygen demand were measured over time in both basins.
4) The results showed that the paddle wheel aerator significantly reduced levels of all water quality parameters measured compared to the control basin without aeration.
The document discusses biosecurity practices in shrimp aquaculture. It describes how diseases like white spot syndrome virus (WSSV) have significantly impacted the industry. Several farms in countries like Belize, Panama, and Malaysia are highlighted as successful examples of implementing biosecure, zero-water exchange systems to prevent disease transmission. These closed recirculation systems maintain high yields while reducing environmental impacts. The development of reliable diagnostic tools and following biosecurity protocols from other industries can help shrimp farming become more sustainable and profitable.
• Maxton, A., Jaiswal, R., Kaushik, I., Mishra, R. and Masih, S.A. (2020). Ef...Ilika Kaushik
This study evaluated the ability of Bacillus subtilis and Bacillus cereus to promote growth of Capsicum annuum (chili pepper) under normal and saline conditions. The bacteria were isolated from soil and shown to produce plant growth hormones like IAA, GA, and ACC deaminase. Inoculation of C. annuum with the bacteria led to increased root length, chlorophyll content, and biomass under both non-saline and saline (200mM NaCl) conditions compared to uninoculated controls. Molecular characterization identified the isolates as B. subtilis and B. cereus, confirming their potential as plant growth promoting rhizobacteria. The study demonstrated that these bacteria can alleviate salt stress
This document summarizes a study on enhancing biogas production from abattoir cow liquor waste and various agro-industrial wastes through anaerobic digestion. Cow liquor waste was combined with brewery spent grain, cassava waste water, and carbonated soft drink sludge at different ratios. Adding cow liquor waste significantly increased biogas production from brewery spent grain but had negative effects on carbonated soft drink sludge. Cassava waste water, which previously did not produce biogas, was able to produce biogas when inoculated with cow liquor waste. The study suggests cow liquor waste can improve biogas yields from some agro-industrial wastes through anaerobic digestion.
This study isolated actinomycetes from marine samples in Thoothukkudi, Tamil Nadu, India and tested their inhibitory activity against fish pathogens. Higher bacterial populations were found in sediment than water samples. 46 actinomycete strains were isolated, of which 36 showed antagonism against E. coli in a screening assay. Nine highly antagonistic isolates were further tested against fish pathogens Aeromonas hydrophila, A. sobria, Vibrio fischeri, V. vulnificus, Edwardsiella tarda and Pasteurella spp. using a cross-streak assay. Most isolates inhibited all pathogens. Isolate A15 strongly inhibited all pathogens and was identified as Streptomy
Bacteria of tomatoes managed with well water and pond water: Impact of agricu...Agriculture Journal IJOEAR
Abstract— We know that contamination of crops by human pathogens can occur in agricultural settings but we still do not understand precisely which environmental sources represent the highest risks. Human pathogens maybe introduced by wind, worker hygiene, plant mediated factors, insects, water sources, or any combination of these factors. To safeguard against risks to consumers from agricultural waters, FSMA regulations for U.S. crop production require the use of water with an average of less than 126 CFU per 100 ml for applications that come in direct contact with a crop. Due to availability/scarcity however, water from other sources such as agricultural ponds is commonly used. To better understand risks that may be associated with the use of “surface”(often higher microbial load) water sources, we described the bacterial microbiota associated with an agricultural pond, an agricultural well and the corresponding microbiota of tomato carpospheres managed with each water source (also described as phyllosphere). 16S rRNA gene amplicons were used for bacterial profiling of waters and tomato surfaces at four time points over a growing season. Microbial profiles differentiated surface and ground water samples throughout the season, however no significant influence on tomato fruit surfaces could be correlated to either water source. These results suggest that in certain cases, environmental pressures such as wind, dust or other airborne factors may have a more significant impact on the surface microbiology of field crops than irrigation or management water sources do.
This document summarizes research on the occurrence and fate of emerging contaminants from septic systems. Key findings include:
- Emerging contaminants were frequently detected in septic tank effluent and drainfield leachate, though concentrations decreased as effluent percolated through soil.
- Mass balance analysis found more than 84% of applied emerging contaminants remained in drainfield soil or were degraded, while less than 14% were recovered in leachate.
- Emerging contaminants persisted in shallow groundwater below drainfields, though at lower concentrations than in effluent.
- Traces of pharmaceuticals and other contaminants were detected in sediments from a watershed with septic
IRJET-Biogas Generation from Combination of Food Waste and Water HyacinthIRJET Journal
1. The document discusses biogas generation from anaerobic digestion of various ratios of food waste and water hyacinth using cow dung as a seed material. Ratios studied included 80:20, 70:30, 60:40, and 0:100 of food waste to water hyacinth.
2. For the 80:20 ratio, biogas generation was 450 mL and reductions in parameters like BOD, COD, and TS were 58%, 68%, and 19% respectively. Nutrient levels like phosphates and nitrates increased.
3. For the 70:30 ratio, biogas generation was highest at 480 mL. Reductions in BOD, COD, and TS were
Impact of Compost Prepared from Invasive Alien Species in Alleviating Water S...YogeshIJTSRD
Invasive alien plant species are major thread to biodiversity, climate change and environmental sustainability. Management of these invasive alien plant species become a typical task at global level. Composting can be an efficient and environment friendly solution for management of these invasive alien species. The aim of present study was to evaluate the effect of compost prepared from three invasive alien species Cuscutareflexa, Eupatorium adenophorum and Lantana camaraon the tomato plant vigour, antioxidant and nutrient content under water deficit and irrigated well watered conditions. The results revealed that Cuscutareflexa CR compost treatment gave highest shoot length 23.0 , 23.7 , root length 30.0 , 21.4 , shoot fresh weight 47.9 , 52.2 , shoot dry weight 71.0 , 49.4 and root dry weight 66.7 , 51.5 , under water stressand irrigated conditions, respectively. The application of compostCR under water stress has enhanced chlorophyll and prolinecontent over control. Similarly, antioxidant enzymes analysis showed the increased superoxide dismutase 1.33 2.17fold , peroxidase 1.38 1.82fold and catalase 1.06 1.73fold activity under water deficit condition. Nutrient content such as nitrogen, phosphorus, potassium and sodiumin tomato leaf were higher under both water stress and irrigated conditions compared to their respective control. It can be concluded from above outcomes that compost prepared from invasive alien species have potential to ameliorate the negative effects of water stress and enhance the tomato growth. Sandhya Bind | A. K. Sharma "Impact of Compost Prepared from Invasive Alien Species in Alleviating Water Stress in Tomato (Solanum Lycopersicum L.)" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-3 , April 2021, URL: https://www.ijtsrd.com/papers/ijtsrd39961.pdf Paper URL: https://www.ijtsrd.com/biological-science/botany/39961/impact-of-compost-prepared-from-invasive-alien-species-in-alleviating-water-stress-in-tomato-solanum-lycopersicum-l/sandhya-bind
Physio-Chemical Aspects for Assessing Agricultural Soil Fertility and Product...Ilika Kaushik
The document summarizes a study that analyzed soil samples from agricultural lands in Bharthani, India to assess soil fertility levels based on physicochemical properties. The samples were tested for pH, organic carbon, and phosphorus content. Results showed that most samples had very high pH levels, making the soil alkaline. Organic carbon levels were satisfactory. Phosphorus levels were found to be high or very high in most samples, indicating excessive phosphorus that could leach into water sources. The study concludes that soil fertility is impacted by high pH and phosphorus levels, and recommends practices like adding organic matter to improve conditions.
This document summarizes a presentation on biofloc technology given by Mr. Tarang Kumar Shah for his PhD in Aquaculture. It discusses how biofloc technology works by balancing carbon and nitrogen to form protein-rich flocs that maintain water quality. It also outlines the history and mechanisms of biofloc formation, factors influencing flocs, and applications of biofloc technology in aquaculture including shrimp and fish farming, nursery and grow-out phases, and its potential benefits for aquaponics and breeding.
Aquaponics — Integration of Hydroponics with AquacultureElisaMendelsohn
Aquaponics is a sustainable food production system that integrates aquaculture and hydroponics. In aquaponics, nutrient-rich waste from fish tanks fertilizes hydroponically grown plants. The plants then filter the water, which is recirculated to the fish tanks. Recent innovations have improved aquaponics technology, enabling commercial viability. Aquaponics provides organic fertilizer to plants from fish waste while the plants remove toxins from the water, benefiting both fish and plants in a symbiotic system.
260 hot spots were detected across Sumatra by Indonesian authorities, mostly in Jambi, South Sumatra, and Lampung provinces. The fires were reducing visibility and spreading smoke across Sumatra and into neighboring countries. Health officials reported that nearly 2,000 people in Bengkulu and Jambi were suffering from respiratory issues due to the haze from the ongoing fires.
The document provides a critique of using social networking in education. It discusses both the positive and negative implications. Among the positives are that social networking provides access to knowledge, opportunities for collaboration between students and teachers without limitations of space and time, and increased awareness for students. However, challenges include social networking being time-consuming, risk of miscommunication due to lack of physical cues, and unreliable or inaccurate information being spread. The document concludes by noting social networking's potential benefits for education are still emerging.
MCPS google apps for education orientationSean Patrick
This document provides an overview of how to use a Chromebook for educational purposes. It includes instructions on starting up the Chromebook, logging in, accessing apps like Google Drive and the Chrome browser, using the trackpad and keyboard, finding definitions for challenging words, removing distractions on web pages, highlighting text, and getting additional support. The document aims to teach basic Chromebook skills to help users get started with the device for educational work.
This document discusses transboundary haze pollution in Southeast Asia caused by forest fires in Indonesia. It provides background information on haze, defines peatlands, and describes Indonesia's worst fires in 1997 that burned over 4 million hectares of land. The impacts discussed include how fires threaten the environment by destroying flora and fauna habitats, impact health by worsening respiratory and cardiovascular symptoms in people, and negatively impact tourism and businesses.
In this presentation I discuss social media platforms that are having a breakout year so far. Trends gaining traction among apps, trends happening in social media in general, and
new technologies that are going to impact social media.
This document provides an overview of geography and climate for Southeast Asian countries for students at Lodi High School. It includes maps and brief descriptions of key Southeast Asian nations like Myanmar, Thailand, Cambodia, Vietnam, Laos, Singapore, Brunei, Indonesia, Malaysia, the Philippines, and East Timor to introduce their locations and climates influenced by monsoon seasons.
This document summarizes the different aspects of someone's life: their school life from 1994-2008 where they attended various schools and received awards, their work life as an accounts assistant and teacher from 2008-2011, their social life spending time with friends, and their sports achievements in cricket, basketball and football from 2003-2006 where they received several awards. It also briefly mentions their love life and enjoyment of activities with family.
This document provides recipes for four Southeast Asian dishes: Chicken Pad Krapraw, Pork Omelet, Beef Green Curry, and Sweet Sticky Rice with Longan. The Chicken Pad Krapraw recipe calls for ground chicken, garlic, chili, soy sauce, sweet soy sauce, long beans, and basil. The Pork Omelet recipe includes eggs, ground pork, soy sauce, oyster sauce, onion, tomato, and oil. The Beef Green Curry recipe lists beef, green curry paste, vegetables, coconut milk, fish sauce, chili, and basil. Finally, the Sweet Sticky Rice with Longan dessert recipe requires sticky rice, sugar, tapioca flour, longan, and a coconut sauce
Target Audience: Young Children.
It includes a comic that is interrelated to the principles of shapes. Also includes activities that involve developing the concept of shapes.
The document discusses Angkor Wat, a temple in Cambodia and the largest religious monument in the world. It was built in the 12th century AD during the Khmer Empire's peak. The Khmer Empire flourished from roughly 802 AD to 1432 AD, and its capital was Angkor. Angkor Wat was built as a Hindu temple but is now a Buddhist temple. It took around 30,000 workers and slaves an estimated 30 years to construct using over 5 million tons of stone. The temple's immense scale reflects the Khmer Empire's immense power during this period in Southeast Asian history.
This document provides an introduction and summary of Marcus Aurelius' Meditations. It discusses that Marcus Aurelius was emperor of Rome from 161-180 AD and one of the most important Stoic philosophers. It outlines his life and education, military campaigns against invaders during his reign, and assessments of his character and administration as a just and fair ruler who promoted welfare. However, it notes the blot on his name was treatment of Christians during periods of persecution in his empire.
The document provides an analysis of NPA (non-performing assets) for a regional office of a bank for the years 2010-2012 and the third quarter of 2012. It summarizes NPA levels, fresh slippages, recoveries, upgrades, and write-offs. The two largest NPA accounts are identified. Sector-wise, segment-wise, and status under SARFAESI Act analyses are also presented. An action plan for further recovery and reducing NPA levels is outlined.
The document contains a series of questions and multiple choice answers about characters and details from The Simpsons television show. It asks who created The Simpsons movie, how many people are in the Simpson family, how much Homer eats, the real name of Principal Skinner, the first name of Police Chief Wiggum, and where Lisa lives. The questions are multiple choice with 3 potential answers listed under each question.
Investigating the bacterial inactivation potential of purified okra (Hibiscus...AZOJETE UNIMAID
The ability of purified okra protein (POP) as coagulant and as disinfectant material in comparison with aluminium sulphate (AS) in water treatment was assessed. A laboratory jar test experiments and Colilert-18/Quanti-Tray method of bacterial analysis were conducted using POP as coagulant in treating river water. The results show an excellent dual performance function of POP against the conventional coagulant, AS in drinking water treatment. It was observed that a marked inactivation of approximately 100% of faecal and E-coli count in raw water was achieved with POP and zero regrowth of bacteria after 72-hour post treatment. However, there was regrowth in total coliform count as a result of the presence of other microbes other than E-coli and faecal coliform in the system. In all cases AS showed a reduced performance against the two indicator organisms achieving only 93% with remarkable regrowth of E-coli and faecal coliform after prolonged storage time in the clarified water. Turbidity removal was also noted to be approximately similar, 92% across all coagulants tested. Therefore, the use of POP in water treatment could improve access to clean water in developing countries and could help in reducing the import of water treatment chemicals.
Efficacy of hibiscus cannabinus l. (kenaf) crude seed powderAlexander Decker
This document summarizes a study on using hibiscus cannabinus (kenaf) crude seed powder and methanol extract for water purification. The study tested the powders and extracts on water samples with high (160NTU) and low (49NTU) turbidity. For high turbidity water, the powder was more effective at removing turbidity (96% removal) than the extract (85.6% removal). However, for low turbidity water, the extract performed better (89.4% removal) than the powder (84.4% removal). The pH of the water remained unaffected after treatment. Compared to alum, the natural coagulants removed turbidity similarly but did not lower the pH
This document provides an overview of aquaponics systems for ornamental fisheries. It defines aquaponics as an integrated system of aquaculture and hydroponics where fish waste provides nutrients for plant growth. The document outlines the history of aquaponics, different system types, components, suitable fish and plant species, water quality parameters, and some research studies on aquaponics. It concludes that aquaponics allows sustainable production of both fish and vegetables using a single nutrient source.
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The document summarizes an experiment conducted at Vigyan Ashram in India to study the effect of an aquaponics system on cucumber yield in a polyhouse. The aquaponics treatment produced 18.25% higher yield and a greater average number of fruits per plant compared to the control treatment. Water quality parameters like ammonia, nitrite, and nitrate levels were periodically tested. The results indicate that aquaponics has potential to increase agricultural productivity per unit area of land in India with less water usage. However, more research is needed to optimize various aspects of aquaponics systems for different crops under Indian conditions.
A preliminary study on the toxic potentials of shea butter effluent using Cla...IOSR Journals
This study was conducted purposely to evaluate the effects of shea butter effluent (SBE) on the
freshwater inhabitant using Clarias gariepinus as a biological model. A prominent Local factory of shea butter
at Tede, ATISBO Local Government was chosen because the effluent flows directly into a near-by stream that
ends up at a popular Dam in the Local Government on which more than 120,000 people depend for domestic
use.Static bioassay was conducted to determine the LC50 of shea butter effluent to Clarias gariepinus. Ten fishes
each were exposed to 0.05, 0.06, 0.07, 0.08, and 0.09ppt (lethal concentration) of SBE in separate water plastic
bowl of (40cmX29cmX28cm) of 60litres capacity.The lethal Concentration (LC50) value of SBE was 0.057ppt for
96hrs of exposure. Total mortality occurred in the concentrations of 0.08 and 0.09ppt within 24hours of
exposure period. Behavioural reactions exhibited by the fish include erratic movement, air gulping, loss of
reflex, molting, barbell deformation, hemorrhage, and excessive mucus secretion in fish exposed to higher
concentration of shea butter effluent.
The appreciable increase in the mean value of heavy metal, such as Manganese, Nickel, Cadmium,
Zinc, Copper and Lead revealed that the increase in the concentration of shea butter effluent leads to
bioaccumulation of the aforementioned heavy metals in the test organisms. The values for all the metals exceed
the permissible Criteria of the national and international regulatory body. Therefore, Shea butter effluent is
highly toxic to freshwater fishes, its discharged directly into water bodies, new fish farms or in areas close to
aquatic environment should not be encouraged.
“Development of Organic Fertilizer Products and Systems to Improve Soil Ferti...ShynneGabinete
This document summarizes research conducted on developing organic fertilizer products and nutrient management systems to support organic vegetable production in Benguet, Philippines. Liquid and solid organic fertilizers were formulated using locally available materials like legume seeds, chicken manure, sawdust, and compost. These fertilizers were tested on cabbage grown on farms converting to organic production. Lower yields were initially observed during conversion but after three years, yields increased and were comparable to conventional farms. The most effective nutrient management system applied Trichoderma before planting and split applications of solid organic fertilizer and liquid fertilizer during growth periods. This system provided essential nutrients during critical stages, resulting in higher yields during conversion to organic practices.
This study analyzed nutrient and bacterial concentrations in Bowne Park Pond over time. Algal blooms were previously observed, indicating potential eutrophication. Water samples were tested for nutrients and bacteria using various methods. Results showed high nutrient levels, likely due to surface runoff during heavy rainfall. Total coliform levels increased from 18 to 24 hours of incubation. Enterococcus levels remained relatively constant, suggesting it may be a more stable indicator of contamination than E. coli or total coliform. Future studies are needed to determine if the pond is prone to eutrophication, and if remedial actions are required to protect the marine habitat and public.
Integrated culture of shrimp, tomato and lettuce (L. sativa) using diluted s...JuanFranciscoFierro2
This document summarizes a study that evaluated an integrated culture system using shrimp, tomatoes, and lettuce grown together using diluted seawater. The system used 3 tanks for shrimp culture and hydroponic beds to grow tomatoes and lettuce. The vegetable production was compared to a control using a hydroponic nutrient solution, while shrimp production was compared to traditional monoculture. Survival of shrimp was 90.1% with an average weight of 9.1 g. Tomato and lettuce yields were lower than the control, but lettuce yields were higher using shrimp tank water. The estimated total water consumption for all crops was 0.68 m3/kg of biomass produced. The integrated system was viable but requires optimization of crop
This study aimed to determine the effect of different organic fertilizers (fish fertilizer and fermented fruit juice) and commercial fertilizer on the growth and yield of bell peppers. The researchers measured the plant height, number of leaves, and mass of yield of bell pepper plants treated with the different fertilizers. The organic fertilizers were prepared by fermenting fish waste or mixtures of banana, papaya, and squash for two weeks before application. The results showed that the fish fertilizer treatment produced taller plants with more leaves compared to the other organic treatment. The fish fertilizer treatment also had similar mass of yield as the commercial fertilizer treatment. Therefore, the researchers concluded that fish fertilizer could be a substitute for commercial fertilizer
This study evaluated the production of Pacific White Shrimp in zero-water exchange raceway systems using either foam fractionators or settling tanks to control particulate matter. Over 108 days, shrimp were grown to market size with high survival rates and yields up to 9.75 kg/m3. Water quality was maintained within acceptable levels and shrimp performance did not significantly differ between treatments. Continuous water monitoring helped optimize oxygen supplementation to produce shrimp sustainably with limited environmental discharge.
Effect of lethal concentrations of rubber extract (hevea brasiliensis) on the...Alexander Decker
This document summarizes a study that tested the effects of varying concentrations of water soluble fractions of rubber extract (Hevea brasiliensis) on the survival of fingerlings of the African catfish (Clarias gariepinus) over 96 hours under laboratory conditions. Observations of moribund swimming, restlessness, respiratory difficulties, and depigmentation were seen in fish exposed to the rubber extract. The lethal concentration that killed 50% of the fish (LC50) was estimated to be 50.12 mg/L. No significant differences in mortality were found between replicate test groups. The study concluded that the water soluble fraction of rubber extract had toxic effects on the catfish in a concentration-dependent manner.
The document discusses using bioremediation through biofilm and macrophyte management (BioMac) to improve water quality in a polluted tropical urban river in Brazil. Monitoring was conducted before and after installing BioMac structures. Results showed that after installation, there was a large decrease in nutrients along the river, increased transparency, biological diversity, and dissolved oxygen. This effect was strongest in the most polluted areas. It was concluded that the low-cost BioMac pilot system was effective at reducing phosphates, increasing nitrification, and improving water quality, making it a potential tool for depolluting rivers receiving sewage.
The document discusses using algae for wastewater treatment. It notes that algae can efficiently treat wastewater by removing nutrients, heavy metals, and pathogens. This allows the treated water to be safely used for irrigation, reducing freshwater usage and pollution of waterways. Algae treatment in oxidation ponds also produces algal biomass that can be converted to biofuels or other products. The document provides examples of how different algae species effectively remove various wastewater contaminants like nitrogen, phosphorus, and COD. Algae wastewater treatment is seen as a more cost-effective and environmentally friendly alternative to conventional wastewater treatment methods.
International Journal of Pharmaceutical Science Invention (IJPSI) is an international journal intended for professionals and researchers in all fields of Pahrmaceutical Science. IJPSI publishes research articles and reviews within the whole field Pharmacy and Pharmaceutical Science, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Studies of biodegradation of ipomea carnea weed from kavinadu big tank in pud...Alexander Decker
1) The study examines the biodegradation of Ipomea carnea weed through composting. Samples were collected from water and sediment to isolate bacterial colonies including Pseudomonas sp. and Bacillus sp.
2) As composting progressed over 30 days, thermophilic bacterial and fungal growth increased along with organic content and pH of the compost. The highest number of thermophilic bacteria was observed at 50°C on day 30.
3) Composting Ipomea carnea is a promising way to recycle plant wastes while improving soil fertility and structure through increased organic content and microbial activity in the compost.
This document describes an aquaponics system that combines aquaculture and hydroponics. In aquaponics, nutrient-rich waste from fish tanks fertilizes hydroponically grown plants. The plants act as a natural biofilter, removing toxins from the water which is then recirculated back to the fish tanks. The document discusses the design of various aquaponics systems, including factors like water quality maintenance, suitable crops, fish and plant stocking densities, and feeding. The integrated aquaponics system aims to provide a sustainable solution for food production while minimizing environmental impact.
This document summarizes research on managing a recirculating aquaculture system (RAS) to sustainably produce shrimp. The RAS was designed to conserve water, recycle nutrients, and prevent escapement of shrimp. Water quality parameters like dissolved oxygen, salinity, and ammonia were monitored daily or biweekly. Initial data showed difficulties maintaining adequate dissolved oxygen levels in the nursery and leaks in the RAS. With improvements to aeration and sealing, the RAS aims to provide a sustainable alternative to traditional aquaculture and fisheries facing declining yields.
Cashew nut processing industry waste water treatmentVishnu Raj
This document discusses the treatment of waste water from the cashew nut processing industry in India. It provides background on the industry and production levels in India. It then describes the sources and characteristics of the wastewater, which contains toxic cashew nut shell liquid (CNSL) that is difficult to treat using conventional biological methods. The document reviews various treatment alternatives that have been studied including aerobic reactors with fungal inoculums, bioaugmentation with specific microorganisms, and enzymatic bioremediation approaches. It concludes that biological remediation technologies show promise for treating this type of wastewater but further optimization is needed given the recalcitrant nature of some CNSL components.
The document discusses xenobiotics, which are foreign compounds found within an organism that are not naturally produced or expected to be present. It describes how xenobiotics are produced artificially for industrial purposes and how natural substances can also become xenobiotics. It then discusses the origins of different types of xenobiotic compounds from various industries. It notes hazards posed by xenobiotics like resistance to degradation and toxicity. Methods for remediating xenobiotics are explored, including photodegradation, bioremediation, phytoremediation, and genetic engineering of plants for remediation.
In order to assessing whether algae can reduce the pollution concentration of the effluents by
absorbing the nutrients, it is found that effluents can effectively be treated by employing algal organisisms such
as Oscillatoria and Stigeoclonium species and these organisms are frequently found in the polluted waters and
they were recorded as pollution tolerant forms. In the laboratory procedures out of the several media tested
Modified CHU No. 10 medium was found to be quite suitable for both the test organisms. It was found that up to
87% and 85% of phosphate uptake was achieved by Oscillatoria and Stigeoclonium respectively with 13% and
16% increase of D.O. in the effluents by the tenth day. In case of organic matter Oscillatoria removed 73% and
Stigeoclonium 70% up to tenth day
ESR spectroscopy in liquid food and beverages.pptxPRIYANKA PATEL
With increasing population, people need to rely on packaged food stuffs. Packaging of food materials requires the preservation of food. There are various methods for the treatment of food to preserve them and irradiation treatment of food is one of them. It is the most common and the most harmless method for the food preservation as it does not alter the necessary micronutrients of food materials. Although irradiated food doesn’t cause any harm to the human health but still the quality assessment of food is required to provide consumers with necessary information about the food. ESR spectroscopy is the most sophisticated way to investigate the quality of the food and the free radicals induced during the processing of the food. ESR spin trapping technique is useful for the detection of highly unstable radicals in the food. The antioxidant capability of liquid food and beverages in mainly performed by spin trapping technique.
Or: Beyond linear.
Abstract: Equivariant neural networks are neural networks that incorporate symmetries. The nonlinear activation functions in these networks result in interesting nonlinear equivariant maps between simple representations, and motivate the key player of this talk: piecewise linear representation theory.
Disclaimer: No one is perfect, so please mind that there might be mistakes and typos.
dtubbenhauer@gmail.com
Corrected slides: dtubbenhauer.com/talks.html
ESPP presentation to EU Waste Water Network, 4th June 2024 “EU policies driving nutrient removal and recycling
and the revised UWWTD (Urban Waste Water Treatment Directive)”
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
EWOCS-I: The catalog of X-ray sources in Westerlund 1 from the Extended Weste...Sérgio Sacani
Context. With a mass exceeding several 104 M⊙ and a rich and dense population of massive stars, supermassive young star clusters
represent the most massive star-forming environment that is dominated by the feedback from massive stars and gravitational interactions
among stars.
Aims. In this paper we present the Extended Westerlund 1 and 2 Open Clusters Survey (EWOCS) project, which aims to investigate
the influence of the starburst environment on the formation of stars and planets, and on the evolution of both low and high mass stars.
The primary targets of this project are Westerlund 1 and 2, the closest supermassive star clusters to the Sun.
Methods. The project is based primarily on recent observations conducted with the Chandra and JWST observatories. Specifically,
the Chandra survey of Westerlund 1 consists of 36 new ACIS-I observations, nearly co-pointed, for a total exposure time of 1 Msec.
Additionally, we included 8 archival Chandra/ACIS-S observations. This paper presents the resulting catalog of X-ray sources within
and around Westerlund 1. Sources were detected by combining various existing methods, and photon extraction and source validation
were carried out using the ACIS-Extract software.
Results. The EWOCS X-ray catalog comprises 5963 validated sources out of the 9420 initially provided to ACIS-Extract, reaching a
photon flux threshold of approximately 2 × 10−8 photons cm−2
s
−1
. The X-ray sources exhibit a highly concentrated spatial distribution,
with 1075 sources located within the central 1 arcmin. We have successfully detected X-ray emissions from 126 out of the 166 known
massive stars of the cluster, and we have collected over 71 000 photons from the magnetar CXO J164710.20-455217.
hematic appreciation test is a psychological assessment tool used to measure an individual's appreciation and understanding of specific themes or topics. This test helps to evaluate an individual's ability to connect different ideas and concepts within a given theme, as well as their overall comprehension and interpretation skills. The results of the test can provide valuable insights into an individual's cognitive abilities, creativity, and critical thinking skills
Unlocking the mysteries of reproduction: Exploring fecundity and gonadosomati...AbdullaAlAsif1
The pygmy halfbeak Dermogenys colletei, is known for its viviparous nature, this presents an intriguing case of relatively low fecundity, raising questions about potential compensatory reproductive strategies employed by this species. Our study delves into the examination of fecundity and the Gonadosomatic Index (GSI) in the Pygmy Halfbeak, D. colletei (Meisner, 2001), an intriguing viviparous fish indigenous to Sarawak, Borneo. We hypothesize that the Pygmy halfbeak, D. colletei, may exhibit unique reproductive adaptations to offset its low fecundity, thus enhancing its survival and fitness. To address this, we conducted a comprehensive study utilizing 28 mature female specimens of D. colletei, carefully measuring fecundity and GSI to shed light on the reproductive adaptations of this species. Our findings reveal that D. colletei indeed exhibits low fecundity, with a mean of 16.76 ± 2.01, and a mean GSI of 12.83 ± 1.27, providing crucial insights into the reproductive mechanisms at play in this species. These results underscore the existence of unique reproductive strategies in D. colletei, enabling its adaptation and persistence in Borneo's diverse aquatic ecosystems, and call for further ecological research to elucidate these mechanisms. This study lends to a better understanding of viviparous fish in Borneo and contributes to the broader field of aquatic ecology, enhancing our knowledge of species adaptations to unique ecological challenges.
Travis Hills' Endeavors in Minnesota: Fostering Environmental and Economic Pr...Travis Hills MN
Travis Hills of Minnesota developed a method to convert waste into high-value dry fertilizer, significantly enriching soil quality. By providing farmers with a valuable resource derived from waste, Travis Hills helps enhance farm profitability while promoting environmental stewardship. Travis Hills' sustainable practices lead to cost savings and increased revenue for farmers by improving resource efficiency and reducing waste.
1. Special Publication SJ 91-SP13
BIOFERMENTATION PILOT STUDY
FOR
WATER HYACINTH AND GIZZARD SHAD COMPOSTING
By
William C. Hackett, D.V.M. and Orville C. Thompson, D.V.M.
AGRON Corporation
11000 Huntington Road
South Charleston, Ohio 45368
Prepared for
St. Johns River Water Management District
Post Office Box 1429
Palatka, Florida 32178-1429
1991
2. TABLE OF CONTENTS
LIST OF TABLES ii
EXECUTIVE SUMMARY iii
INTRODUCTION 1
METHODS 5
The Four Biofermentation Trials in this Study 5
The Biofermentation Chamber 8
Stages of Biofermentation 9
Pre-heat stage 9
Biofermentation Stage 10
Stockpile Stage 10
Physical and Chemical Analyses 11
RESULTS 12
General Biofermentation Conditions 12
Physical and Chemical Characteristics of Water Hyacinths 12
Physical and Chemical Characteristics of Gizzard Shad 14
Trial 1 - Water Hyacinths 16
Trial 2 - Gizzard Shad and Water Hyacinths 23
Trial 3 - Water Hyacinths with Poultry and Cattle Manure 26
Trial 4 - Water Hyacinths with Poultry Manure and Scallop Offal 29
DISCUSSION 33
CONCLUSIONS 45
RECOMMENDATIONS FOR FUTURE STUDY 47
Phase n Recommended Study 47
Phase HI: Full-Scale Project 52
REFERENCES 61
3. LIST OF TABLES
Table 1 Biomix Raw Ingredient Characteristics 13
Table 2 Biomix Characteristics Prior to Biofermentation 15
Table 3 Average Biofermentation Temperatures 17
Table 4 Fermway Characteristics Fresh From the Biofermenter 19
Table 5 Average Stockpile Temperatures 20
Table 6a Fermway Characteristics After Two Months of
Stockpiling: Measurements by A&L Laboratories 21
Table 6b Fermway Characteristics After Two Months of
Stockpiling: Measurements by University of Florida 22
Table 7 Fermway Volume Loss During Stockpiling 24
Table 8 Phase HI Study Capital Outlay Budget 56
Table 9 Phase HI Study Operational Costs Budget 59
11
4. EXECUTIVE SUMMARY
A pilot study using biofermentation technology developed by Agron Corporation (South
Charleston, OH) for composting gizzard shad and water hyacinths was conducted by
Agron Corporation for the St. Johns River Water Management District. The purpose
of this study was to determine if gizzard shad and water hyacinths can be composted
into a product that has market value. Water hyacinths and gizzard shad are potentially
harvested in large quantities from lake restoration, aquatic macrophyte management, and
fisheries management programs. The subsequent transformation of this raw biomass
into a marketable product could function as a partial or full subsidy for these
restoration and management programs.
Biofermentation is a process which utilizes naturally occurring aerobic bacteria to
biologically alter the characteristics of organic waste. In this pilot study, different
mixtures of water hyacinths, gizzard shad, poultry and cattle manure, and scallop offal
were biofermented. It was found that water hyacinths alone do not ferment well.
Biofermentation was greatly improved when gizzard shad, poultry or cattle manure, or
scallop offal were used in conjunction with water hyacinths. In order to reduce the
high moisture content of water hyacinths, some dehydration and mixing of the plant
biomass with a high carbon material such as sawdust or newspaper was necessary.
m
5. The 1:1 ratio of water hyacinths to gizzard shad biomass used in one of the
biofermentation trials resulted in odor, fly, and maggot problems during all three stages
of the biofermentation process. Consequently, future biofermentation trials using
gizzard shad will have to reduce the relative proportion of gizzard shad to help reduce
the chances for odor, fly, and maggot problems. None of these problems were
observed in any of the other trials in this study; gizzard shad were used in only one
trial, however.
Recommendations made by Agron Corporation for future studies of water hyacinth
and gizzard shad composting are incorporated into two additional study phases. Phase
II would examine the effectiveness of the water hyacinth and gizzard shad Fermway
(the biofermentation end-product) as a fertilizer on test plots of vegetables at nearby
Lake Apopka muck farms.
Should large scale gizzard shad and water hyacinth harvesting programs be initiated in
the restoration of Lake Apopka, a Phase III project could incorporate a full-scale
biofermentation center which could utilize harvested water hyacinths and gizzard shad
from the lake restoration efforts. A biofermentation center as outlined in Phase in
could produce about 8,700 tons of Fermway per year.
IV
6. INTRODUCTION
Gizzard shad (Dorosoma cepedianum) and water hyacinths (Eichornia crassipes) are
sometimes harvested in large quantities in fish and macrophyte management programs.
The growth and harvest of water hyacinths and the harvest of gizzard shad have also
been proposed as potential lake restoration techniques. Water hyacinth management
programs, typically using herbicides, are widespread in Florida.
The fate of harvested (or herbicided) water hyacinths and gizzard shad is important
from an ecological and economic perspective. For instance, if water hyacinth biomass
can be converted into a marketable product, then it might be economically
advantageous to mechanically harvest water hyacinths rather than employ herbicides.
Mechanical harvesting would also function as a nutrient removal technique, as the
nutrients bound in water hyacinth biomass would be removed from the aquatic system,
rather than being released through decay following herbicide treatment.
The transformation of harvested gizzard shad and water hyacinths from fish and
macrophyte management programs, and possibly from lake restoration programs, into
a marketable end product may be able to partially or fully subsidize these management
programs. The St. Johns River Water Management District (SJRWMD) entered into
an agreement with Agron Corporation (South Charleston, OH) to perform a pilot study
7. of gizzard shad and water hyacinth composting using Agron's biofermentation
technology.
The Agron-developed biofermentation process used in this study is performed in an
insulated enclosure with controlled air flow, thereby maintaining an aerobic environment
for composting the enclosed raw materials (biomix). Various forms of organic waste
materials, such as poultry and cattle manure, wood chips, sawdust, newspaper, and
seafood offal, can potentially be biofermented using this technology.
Previous experience has shown that successful biofermentation requires the biomix
have a C:N ratio above 20, a moisture content below 60 percent, and that airflow
through the biofermentation chamber be adequate to maintain aerobic conditions
(proprietary information, O.C. Thompson, D.V.M., 421 Bluebonnet, Findlay, OH
45840). Experience has also shown that these conditions also prevent odor and
fly/maggot problems during and after the biofermentation process (proprietary
information, O.C. Thompson, D.V.M., 421 Bluebonnet, Findlay, OH 45840). A study
of the microbiological safety of Fermways by deGraft-Hanson et al. (1990) showed that
biofermentation temperatures above 142°C for 4 days can greatly reduce the number
of pathogens in the original biomix. The biofermentation process, at temperatures
above 142°C, can destroy many species of noxious weed seeds (Battelle, 1975); most
hard coated weed seeds, however, are unaffected (Dennis 1981). Fermways have also
been shown to have some limited nematode control (Barker 1983).
8. Biofermentation end-products (called Fermways; registered trademark of Agron
Corporation) have been used as fertilizers for a variety of plants (Barrett, 1984).
Under proper environmental conditions, biofermentation yields a Fermway which has
nutrients contained primarily in bacterial biomass (proprietary information, O.C.
Thompson, D.V.M., 421 Bluebonnet, Findlay, OH 45840). When used as fertilizers
under normal growing conditions, Fermways are assumed to provide a slower nutrient
uptake rate by crops; the crop nutrient uptake period is therefore assumed to last
substantially longer (Rodabaugh 1986).
When a Fermway made from animal wastes such as cattle manure is used as an
organic fertilizer, the amount of mineral fertilizer required to maintain yields is often
reduced (Dennis 1981). Phosphorus concentrations in the soil have been shown to
increase after several years of biofermentation product application (Dennis 1981),
thereby requiring less mineral phosphate fertilizer application. Leaching of nutrients
from biofermentation fertilizer is generally assumed to be less than that from mineral
fertilizers, as the nutrients are contained in bacterial biomass (Dennis 1981). Nutrient
pollution into groundwater and surface waters via leaching and surface runoff might be
reduced when a biofermentation fertilizer is used in conjunction with reduced amounts
of mineral fertilizers. For instance, the additional use of a biofermentation fertilizer
on the muck farms that drain into Lake Apopka, along with reduced amounts of
mineral fertilizers, might reduce nutrient loading into Lake Apopka. Reduced leaching
9. of nutrients into ground water and surface water runoff through the use of Fermways
has not been documented, however.
10. METHODS
The Four Biofermentation Trials in this Study. This study included four trials using
water hyacinths and/or gizzard shad as the primary raw materials to be biofermented.
The trials were performed in a 98 ft3
biofermentation chamber located at the water
hyacinth demonstration farm adjacent to Round Lake, Orange County, Florida. During
this study, water hyacinths were being grown and harvested from Round Lake as part
of a separate project conducted by Amasek, Inc. and the St. Johns River Water
Management District. The four trials performed in this study were:
Trial 1: Water hyacinths were used as the primary raw material, with sawdust and
urea nitrogen added as secondary ingredients.
Trial 2: Gizzard shad and water hyacinths were the primary raw materials, with
shredded newspaper, wood chips, and OFL Fermway added as secondary ingredients.
Trial 3: A three-layer trial. Layer A consisted of water hyacinths with poultry manure
and sawdust added as secondary ingredients. Layer B consisted of water hyacinths
with sawdust and poultry manure at a lower initial moisture content added as secondary
ingredients. Layer C consisted of water hyacinths with cow manure and sawdust added
as secondary ingredients.
11. Trial 4: A two-layer trial. Layer A consisted of water hyacinths with poultry manure
and sawdust added as secondary ingredients. Layer B consisted of scallop offal with
shredded newspaper and sawdust added as secondary ingredients.
Water hyacinths were harvested from Round Lake (Orange County, FL). The hyacinth
biomass was ground into coarse material, transported as a slurry with lake water
through an underground pipe to a holding bin, drained of excess water by gravity, and
then laid in long rows on the ground until ready for use in the biofermentation trials.
During this storage period the hyacinth biomass lost some moisture and probably
partially decomposed.
Gizzard shad were obtained as whole frozen fish from a local fish processor at the time
the second trial was begun. The fish were ground into small plug-shaped pieces about
1" long and about 0.5" in diameter by a commercial meat grinder just prior to the pre-
mix stage of biofermentation (described later).
Various secondary ingredients were also added to the primary raw materials to be
biofermented. These secondary ingredients, sometimes added in amounts equal to that
of the primary ingredients, are described below.
12. Sawdust was added as a secondary ingredient in Trials 1,3, and 4 to serve as an
additional source of carbon to enhance microbial decomposition rates, to allow a more
uniform air flow, and to absorb excess moisture.
Newspaper was added as a secondary ingredient in Trials 2 and 4 to serve as an
additional carbon source and because it has a very low moisture content and can
thereby absorb excess moisture in the major raw material to be biofermented. The
newspaper was shredded using a commercial portable shredder.
Pine wood chips, about one-inch square and one-sixteenth inch thick, were added as
a secondary ingredient in Trial 2 to serve as an additional carbon source to enhance
microbial decomposition rates and allow better air flow through the biomix.
Solid urea nitrogen was added as a secondary ingredient in Trial 1 to serve as an
additional nitrogen source to enhance microbial decomposition rates.
Ohio Feedlot (OFL) Fermway (the biofermentation end-product from Agron's Ohio
Feedlot operations) was added as a secondary ingredient in Trial 2 to increase the
bacteria populations in the initial mixture to be biofermented. This was expected to
enhance biofermentation rates. The OFL Fermway had been composted, stockpiled,
bagged, and stored for one year prior to use. Completed Fermways typically have a
significant bacterial community and can thereby act as a bacteria seed culture.
13. Poultry manure was added as a secondary ingredient in Trials 3 and 4 to serve as an
additional nitrogen source to enhance the biofermentation process. The poultry manure
was obtained from a cage layer chicken house within one mile of the experiment site.
Cow manure, obtained from a dairy in Leesburg, Florida, was added as a secondary
ingredient in Trial 3 to serve as an additional nitrogen source to enhance the
biofermentation process. The cow manure was in a slurry form and relatively fresh.
Scallop offal, obtained from an Atlantic coast Florida processor, was added as a
secondary ingredient in Trial 4 to serve as an additional nitrogen source to enhance the
biofermentation process. The offal was extracted from scallops the previous day and
was in a wet state.
The Biofermentation Chamber. The biofermentation chamber used in this study was
a 98 ft3
insulated box, capable of processing approximately 30 to 70 ft3
of biomix (the
raw ingredients to be biofermented) at one time. This volume of biomix corresponds
to 1000 to 3000 pounds of raw biomass, depending on density.
The biofermentation chamber allowed the entrance of air into the bottom by an outside
blower fan connected to a perforated PVC pipe installed on the floor of the chamber.
The blower fan was connected to a timer, set to run for 0.25 to 2 minutes in 10
14. minute intervals. A manually controlled exhaust was installed in the top of the
chamber to assist in the maintenance of aerobic conditions.
The biofermentation chamber had holes at 12-inch vertical intervals from the base
through which a 30-inch thermometer probe was inserted to monitor the temperature
of the fermenting materials.
Stages of Biofermentation. The biofermentation process occurs in three stages: (1) the
pre-heat stage, (2) the biofermentation stage, and (3) the stockpile stage.
(A) Pre-heat stage. This stage is a time period during which the biomix undergoes
some anaerobic bacterial decomposition. During this period the temperature of the
biomix is allowed to rise to about 100°F before the next biofermentation stage is begun.
The pre-heat stage may be done outside or inside the biofermenter.
A one inch square mesh wire cage, 3 feet high and 4.5 feet in diameter, was used to
enclose the biomix during this anaerobic pre-heat stage. The cage and biomix were
positioned on a concrete slab in an open air pavilion. The biomix during this pre-
heat stage was exposed to the outside air, but was shielded from rainfall and the direct
sun by an overhead roof. Trials 2 and 3 were pre-heated as described above for three
days in the wire cage. Trials 1 and 4 were pre-heated directly inside the
biofermentation chamber for one day without the addition of any forced air. The pre-
15. heat period of time is used to get the biomix up to 100°F or higher with anaerobic
digestion. The pre-heat stage ends when air is forced through the biomix and aerobic
digestion starts.
(B) Biofermentation Stage. Once the biomix had reached 100°F, it was transferred into
the biofermentation chamber (if it was pre-heated outside) and the forced air flow
cycle was begun. A common 10 minute timer was used to set the fan to run from 15
seconds to two minutes every 10-minute cycle. In this manner biofermentation
conditions were changed from anaerobic to aerobic.
Biomix temperatures were measured twice a day by inserting the temperature probe at
two or three levels through the holes in the biofermentation chamber. Temperatures
were averaged among the layer measurements for reporting purposes. The aerobic
biofermentation process was continued for at least 72 hours (and up to seven days)
after a biomix temperature of over 142°F was attained.
(C) Stockpile Stage. Once the biomix maintained a temperature of 142°F for more than
72 hours, it was removed from the biofermentation chamber and stockpiled for up to
16 weeks to allow further anaerobic digestion. One-inch square mesh wire cages, 3
feet high and 4.5 feet in diameter, were used for stockpiling. The depth of the
material inside each stockpile cage was monitored once every week. Stockpiles were
10
16. open to the environment, including rainfall and direct sunlight. After 8 weeks the
stockpiles were turned with a fork or shovel by transferring to a new stockpile area.
Physical and Chemical Analyses. The percentage moisture of the raw materials was
determined after drying in a microwave oven. The density of the raw ingredients and
biomixes was measured by weighing one ft3
of biomass on platform scales.
Concentrations of elemental nitrogen (N), phosphorus (measured as P2O5, reported as
elemental P after division by 2.29), and elemental carbon were measured in water
hyacinths, newspaper, sawdust, wet and dry cage layer poultry manure, and OFL
Fermway. Analyses were performed by A&L Great Lakes Laboratories, Inc. (Fort
Wayne, IN).
Elemental nitrogen (N), phosphorus (measured as P2O5, reported as elemental P),
potassium (measured as K2O, reported as elemental K after division by 1.2), and
elemental carbon concentrations were made on the Trial 1 and 2 biomixes before any
urea nitrogen addition and before biofermentation. These chemical analyses were also
done on all four Fermways immediately after biofermentation, and on all four
Fermways after a 2-month stockpiling period. Chemical analyses were performed on
all samples by A&L Great Lakes Laboratories, Inc., and by the University of Florida
(Gainesville, FL) for samples collected after 2 months of stockpiling.
11
17. RESULTS
General Biofermentation Conditions. The percent concentration of nitrogen and carbon
in a biomix, expressed as the carbon:nitrogen (C:N) ratio, is important for optimum
decomposition conditions without odor and fly problems. Experience has shown that
optimum bacterial growth without odor problems occurs at a C:N ratio of 20 to 30
(proprietary information, O.C. Thompson, D.V.M., 421 Bluebonnet, Findlay, OH
45840).
Moisture content of the biomix is also important for the biofermentation process. A
moisture range of 40% to 60% appears to be optimum (proprietary information, O.C.
Thompson, D.V.M., 421 Bluebonnet, Findlay, OH 45840). If the moisture content is
too high, materials such as sawdust or shredded newspaper can be added to reduce the
overall moisture content of the biomix.
Large particle size materials up to one-inch (eg. wood chips) can also be added to
increase airflow through the biomix during biofermentation.
Physical and Chemical Characteristics of Water Hyacinths. Water hyacinths freshly
harvested from Round Lake had a C:N ratio of 23 (Table 1), and a very high moisture
content of over 90 percent. Hyacinth nitrogen content (2.21 percent on a dry weight
basis) was lower than that for gizzard shad and the manures. Hyacinths also had a
12
18. TABLE 1
Biomix Raw Ingredient Characteristics. Percent carbon, nitrogen
and phosphorus concentrations are on a dry weight basis.
PERCENT
INGREDIENTS MOISTURE
Water Hyacinths
Gizzard Shad
Poultry Manure - Wet
Poultry Manure - Dry
Cattle Manure
OFL Fermway
Newspaper
Wood Chips
Sawdust
Urea Nitrogen
73
72
75
57
81
45
1
5
45
NM
PERCENT
CARBON
51.
47.
28.
28.
36.
43.
48.
37.
00
93
39
39
32
62
70
NM
90
NM
PERCENT
NITROGEN
2.
5.
3.
3.
3.
2.
0.
0.
45
21
50
92
92
20
46
02
NM
35
.0
PERCENT
PHOSPHORUS
0.01
1.75
4.00
4.00
1.00
0.85
NM
NM
NM
NM
CARBON
NITROGEN DENSITY
RATIO (Ibs/CU.ft)
23.
8.
7.
7.
11.
17.
2435.
108.
08
71
24
24
35
73
00
NM
29
NM
30
80
43
27
45
34
9
10
15
.0
.0
.0
.0
.0
.0
.5
.0
.0
NM
SOURCE
OF
ANALYSIS
ASL
SJRWMD
ASL
ASL
OSU
ASL
ASL
A&L
ASL
LABEL
NM - Not Measured
ASL = ASL Laboratories, 3505 Canestoga Drive, Fort Wayne, Indiana 46808-4413
SJRWMD = St. Johns River Water Management District, P.O. Box 1429 Highway 100, Palatka, Florida 32178-1429
OSU = Ohio Livestock Waste Management Guide - OSU Cooperative Extension Bulletin 604
College of Agriculture, 2120 Fyffe Rd., Columbus, Ohio 43210
LABEL - Manufacturer's analysis as shown on bottle label.
13
19. low phosphorus content (0.01 percent on a dry weight basis), but had a high carbon
content (51 percent on a dry weight basis). These data indicated the need to add
nitrogen and reduce moisture to enhance the biofermentation process.
To reduce moisture, water hyacinths were either air dried in the sun (reduction of about
10% a day) or mixed with a drier carbon source material such as newspaper or
sawdust. Air drying reduced the moisture content in water hyacinths by about 10
percent per day (Amasek, Inc., Cocoa, FL, unpublished data). Newspaper has a very
low moisture level and is able to offset the higher than optimum moisture levels of
both gizzard shad and water hyacinths.
Poultry and cow manure and urea nitrogen were also added as sources high in nitrogen
(Table 1).
Physical and Chemical Characteristics of Gizzard Shad. Recently frozen gizzard shad
were 72 percent moisture (Table 1), and had a high nitrogen content (Table 1) relative
to the other raw ingredients. The high moisture content of the gizzard shad
necessitated adding shredded newspaper to absorb some of the moisture. Although
gizzard shad had a similar carbon content to other raw ingredients, its high nitrogen
content is reflected in a low C:N ratio of 8.7. The newspaper and wood chips added
carbon to the gizzard shad, thereby increasing the C:N ratio of the biomix to 15.2
(Table 2).
14
20. TABLE 2
Biomix Composition and Characteristics Prior to Biofermentation.
TRIAL
1*
BIOMIX
LAYER INGREDIENTS
Water Hyacinths
Sawdust
Urea Nitrogen
MASS
(Ibs)
1310
288
7
PERCENT
MOISTURE
71.0
44.5
NM
BIOMIX
BIOMIX BIOMIX BIOMIX BIOMIX CARBON
DENSITY PERCENT PERCENT PERCENT NITROGEN
(Ibs/cu.ft) NITROGEN PHOSPHORUS POTASSIUM RATIO
1.43
Ground gizzard shad 500 72.0
Water Hyacinths 450 70.0
Shredded newspaper 100 1.0
Wood chips 200 5.0
OFL FermWay 200 50.0
Total 1450 57.5
Water Hyacinths 200 82.0
Poultry manure - dry 200 74.5
Sawdust 200 44.5
Total 600 67.0
Water hyacinth 200 70.0
Poultry manure - wet 200 80.5
Sawdust 200 44.5
Water hyacinth
Cow manure
Sawdust
150
150
150
70
80.5
44.5
Water hyacinth
Poultry manure
Sawdust
200
200
200
NM
NM
NM
600
Water hyacinth
Scallops offal
Shredded newspaper
Sawdust
200
200
66
184
NM
NM
NM
Total 650
* - Trial 1 nutrient concentrations measured before adding the urea nitrogen.
NM - Not Measured
15
21. Trial 1 - Water Hyacinths. Water hyacinths (1310 Ibs, Table 2) constituted the main
ingredient in this biomix. Hyacinths were initially at a 71 percent moisture content
(Table 2) after three days of air drying. To reduce the moisture content of the biomix,
288 Ibs of sawdust (initial moisture content of 44.5 percent) were added. After
thorough mixing, the biomix had a 63 percent moisture content, which was slightly
above the desired upper range for biofermentation.
The final pre-heating stage temperature of the biomix was 81°F (Table 3), which was
substantially below the desired minimum of 100°F. However, aerobic biofermentation
was begun because it was felt that further pre-heating would proceed at a very slow
rate due to the high moisture content.
The biomix was loaded into the biofermenter (total mass of 1598 Ibs) and remained
there for 3 days of aerobic biofermentation. After this time, the biomix was removed
from the biofermentation chamber and allowed to air dry for 1.5 days on a plastic
sheet in the sun in order to further reduce the moisture content. After this additional
drying, 7 Ibs of urea nitrogen was mixed in as an additional nitrogen source to enhance
biofermentation rates. The biomix was then reloaded into the biofermenter and
remained there for 3 days, with air flow forced through the chamber every ten minutes
for a period of two minutes.
16
22. TABLE 3
Average Biofermentation Temperatures (°F)
TRIAL
1
2
3
4
STARTING
TEMPERATURE
81.0
111.0
136.0
83.0
DAY
1
91.8
170.0
167.0
111.0
DAY
2
108.3
166.2
169.6
160.5
DAY
3
Air Dried
169.3
170.2
169.3
DAY
4
83.0
169.0
161.6
164.5
DAY
5
92.5
164.3
161.2
DAY DAY
6 7
105.5 121.0
163.3
158.0
17
23. Average daily temperatures of the biomix during biofermentation rose from 83°F (after
reloading) to 121°F (Table 3). Biofermentation was terminated before it reached
optimal temperatures (above 142°F) so that the next trial could be started. The
biofermented mixture, now referred to as a Fermway, was then stockpiled for a period
of 16 weeks. The Fermway had no objectionable odor or fly problems after removal
from the biofermentation chamber nor later during stockpiling.
Fermway No. 1, after removal from the biofermentation chamber, was relatively low
in phosphorus (0.20 percent, Table 4). The C:N ratio was still relatively high (26),
and nitrogen and potassium concentrations were also somewhat low but in relatively
equal proportions (1.75 percent and 0.97 percent respectively, Table 4).
The average weekly stockpile temperatures of Fermway No. 1 rose from the 121°F
when removed from the biofermentation chamber to 142°F during stockpile week 3, and
then gradually decreased to 84°F at week 16 (Table 5). After 2 months of stockpiling,
phosphorus, nitrogen, and potassium concentrations increased in Fermway No. 1 while
the C:N ratio decreased substantially (Tables 6a and 6b). The concentration of
nutrients in the Fermway increased because of the continued decomposition of organic
matter during the stockpiling stage. The loss of organic matter during decomposition
increases the mass percentage of nutrients in the Fermway, although the total mass of
nutrients changes very little. The phosphorus concentration in Fermway No. 1 after
2 months of stockpiling (0.34 percent; an average of values in Tables 6a and 6b) is
18
24. TABLE 4
Fermway Characteristics Fresh From the Biofermenter.
FERMWAY
TRIAL FERMWAY
LAYER INGREDIENTS
1 Water Hyacinths
Sawdust
Urea Nitrogen
Total
2 Ground gizzard shad
Water Hyacinth
Shredded newspaper
Wood chips
OFL FermWay
Total
3 A Water Hyacinth
Poultry manure
Sawdust
Total
B Water hyacinth
Poultry manure
Sawdust
Total
C Water hyacinth
Cow manure
Sawdust
Total
4 A Water hyacinth
Poultry manure
Sawdust
Total
B Water hyacinth
Scallops offal
Shredded newspaper
Sawdust
FERMWAY
MASS PERCENT
(Ibs) NITROGEN
1310
288
7
1605 1.75
500
450
100
200
200
1450 3.12
200
200
200
600 2.21
200
200
200
600 2.09
150
150
150
450 1.25
200
200
200
600 1.55
200
200
66
184
FERMWAY FERMWAY CARBON
PERCENT PERCENT NITROGEN
PHOSPHORUS POTASSIUM RATIO
0.20 0.97 26.19
1.16 0.87 15.60
1.93 2.24 19.51
1.48 2.26 20.27
0.35 0.84 31.61
3.00 3.25 22.96
Total 650 1.09 0.13 0.39 43.29
19
25. TABLE 5
Average Stockpile Temperatures After Biofermentation (*}
Week
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Bay 1
Water
Hyacinths
130°
136°
142°
131°
130°
126°
122°
116°
107°
100° **
99°
90°
90°
88°
88°
84°
Bay 2
Water
Hyacinths &
Gizzard shad
159°
156°
140°
130°
126°
122°
112°
110°
104° **
110°
90°
92°
90°
92°
86°
Bay 3
Water
Hyacinths
Manures
153°
150°
135°
135°
122°
135°
120°
116°
130° **
128°
130°
116°
110°
106°
110°
Bay 4
Water
Hyacinths
Scallop Offal
146°
144°
132°
128°
120°
120°
110°
120° **
116°
108°
106°
99°
98°
Temperature was taken three to five times weekly and at 6
depth from the top center.
Stockpiles were turned and sampled this week.
and 24"
20
26. TABLE 6a
Fermway Characteristics After Two Months of Stockpiling;
Measured by ASL Laboratories, Fort Wayne, IN.
TRIAL FERMWAY INGREDIENTS
LAYER
1 Water Hyacinths
Sawdust
Urea Nitrogen
MASS
(Ibs)
1310
288
7
FERMWAY
PERCENT
NITROGEN
FERMWAY
PERCENT
PHOSPHORUS
FERMWAY
PERCENT
POTASSIUM
FERMWAY
CARBON
NITROGEN
RATIO
Total 1605 2.17 0.33 1.37 17.11
Ground gizzard shad 500
Water hyacinths 450
Shredded newspaper 100
Wood chips 200
OFL FermWay 200
Total 1450 2.38 1.68 2.05 20.13
Water hyacinth
Poultry manure
Sawdust
Total
200
200
200
600 1.86 1.83 2.5 19.41
Water hyacinth
Poultry manure
Sawdust
Total
200
200
200
600 2.73 0.31 1.07 13.99
Water hyacinth
Cow manure
Sawdust
Total
150
150
150
450 2.21 1.00 1.89 17.31
Water hyacinth
Poultry manure
Sawdust
Total
200
200
200
600 1.39 0.22 0.93 14.65
Water hyacinth 200
Scallops offal 200
Shredded newspaper 66
Sawdust 184
Total 650 1.73 0.59 0.68 25.05
21
27. TABLE 6b
Fermway Characteristics After Two Months of Stockpiling;
Measured by the University of Florida, Gainesville.
TRIAL FERMWAY INGREDIENTS
LAYER
1 Water Hyacinths
Sawdust
Urea Nitrogen
Total
2 Ground gizzard shad
Water hyacinths
Shredded newspaper
Wood chips
OFL FermWay
Total
3 A Water hyacinths
Poultry manure
Sawdust
Total
B Water hyacinths
Poultry manure
Sawdust
Total
C Water hyacinths
Cow manure
Sawdust
Total
4 A Water hyacinths
Poultry manure
Sawdust
Total
B Water hyacinths
Scallops offal
Shredded newspaper
Sawdust
Total
FERMWAY
MASS PERCENT
(Ibs) NITROGEN
1310
288
7
1605 2.23
500
450
100
200
200
1450 1.81
200
200
200
600 1.62
200
200
200
600 2.32
150
150
150
450 1.41
200
200
200
600 NM
200
200
66
184
650 1.73
FERMWAY
FERMWAY FERMWAY CARBON
PERCENT PERCENT NITROGEN
PHOSPHORUS POTASSIUM RATIO
0.35 1.31 17.6
1.3 0.84 24.5
2.39 2.41 19.7
0.32 0.92 17.1
1.72 2.13 25.4
NM NM NM
0.24 1.62 23.0
NM - Not Measured
22
28. low compared to common garden fertilizers. After 13 weeks of stockpiling, the volume
of Fermway No. 1 had decreased by 23 percent (Table 7).
Trial 2 - Gizzard Shad and Water Hyacinths. Water hyacinths (450 Ibs at 70 percent
moisture, Table 2) and ground gizzard shad (500 Ibs at 72 percent moisture) were the
main ingredients in this biomix. Additional secondary ingredients were 100 Ibs of
shredded newspaper (1 percent moisture), 200 Ibs of wood chips (5 percent moisture),
and 200 Ibs of OFL Fermway (50 percent moisture). The newspaper was added to
absorb excess moisture in the water hyacinths and gizzard shad. The newspaper and
wood chips increased the carbon content of the biomix, thereby somewhat increasing
the low C:N ratio of this biomix (15.2, Table 2). The OFL Fermway was added to
enhance the biofermentation rate by increasing the bacterial populations in the biomix.
The biomix was much higher in nitrogen and phosphorus before biofermentation than
was the biomix with hyacinths alone (Trial 1, Table 2); this was due to the addition
of gizzard shad to this biomix.
The biomix was pre-heated for 4 days. After 1 day of pre-heating, the temperature of
the biomix was 130°F (Table 3), indicating a much greater bacterial activity than with
hyacinths alone in Trial 1. After 3 days of pre-heating, maggots appeared in the
biomix. This indicated that perhaps the initial C:N ratio was too low. By the end of
the pre-heating stage, the biomix had a temperature of 111°F (Table 3), well
23
29. TABLE 7
Fermway Volume Loss (Percent) During 13 Weeks of Stockpiling
Trial 1: Trial 2 Trial 3 Trial 4
Water Water Hyacinths Water Hyacinth Water Hyacinth
Hyacinths and Gizzard Shad and Manures and Scallop Offal
23.2 37.4 43.9 43.3
24
30. above the minimum desired starting temperature of 100°F for biofermentation. The
biomix also had an objectionable odor, and was still infested with maggots.
The biomix, with an initial mass of 1450 Ibs, had a moisture content of 57.5 percent
(Table 2) after pre-heating for 4 days, which was within the desired moisture range for
biofermentation. The C:N ratio of 15.2, however, was at the very low end of the
desired C:N ratio range. The biomix was loaded into the biofermenter and underwent
aerobic biofermentation for 4 days. Temperatures during aerobic biofermentation
increased from 111°F to 170°F (Table 3). The temperature of the biomix was 169°F
when removed from the biofermentation chamber.
Odor and maggot problems were evident in Fermway No. 2 when removed from the
biofermentation chamber. Nitrogen, phosphorus, potassium and the C:N ratio in
Fermway No. 2 after biofermentation were all similar to this biomix before aerobic
biofermentation (Table 4). Compared to Fermway No. 1 after removal from the
biofermentation chamber, Fermway No. 2 had higher concentrations of nitrogen and
phosphorus, but a much lower C:N ratio.
Fermway No. 2 was stockpiled for 16 weeks. In the stockpile, temperatures started out
at 159°F, and decreased gradually thereafter. Temperatures remained above 142°F for
the first two weeks of stockpiling (Table 5), a temperature minimum thought necessary
for effective elimination of possible pathogens in the Fermway. However, odor and
25
31. maggot problems continued during the early weeks of stockpiling. After about 2
months, the odor and maggot problems disappeared. The C:N ratio at this time had
risen to 20 (Tables 6a and 6b).
After 2 months of stockpiling, Fermway No. 2 had a lower nitrogen concentration (1.8-
2.4 percent, Tables 6a and 6b), and greater phosphorus and potassium concentrations
(1.3-1.7 and 0.8-2.0 percent respectively, Tables 6a and 6b) than it did when first
removed from the biofermentation chamber. Phosphorus concentrations in Fermway
No. 2 after 2 months of stockpiling (about 1.5 percent, Tables 6a and 6b) were about
4 times greater than in Fermway No. 1. It appears this is due to the addition of
gizzard shad to the premix. After stockpiling for 13 weeks, the volume of Fermway
No. 2 had decreased by 37 percent (Table 7).
Trial 3 - Water Hyacinths with Poultry and Cattle Manure. This trial had three layers
of biomix (Table 2):
(1) Layer A was comprised of water hyacinths (200 Ibs at 82 percent moisture) with
poultry manure (200 Ibs at 74.5 percent moisture) and sawdust (200 Ibs at 44.5 percent
moisture) for a total biomix layer of 600 Ibs at 67 percent moisture.
26
32. (2) Layer B was comprised of water hyacinths (200 Ibs at 70 percent moisture) with
poultry manure (200 Ibs at 56.5 percent moisture), and sawdust (200 Ibs at 44.5 percent
moisture) for a total biomix layer of 600 Ibs at 57 percent moisture.
(3) Layer C was comprised of water hyacinths (150 Ibs at 70 percent moisture) with
cattle manure (150 Ibs at 80.5 percent moisture), and sawdust (150 Ibs at 44.5 percent
moisture) for a total biomix layer of 450 Ibs at 65 percent moisture.
Sawdust was added to all biomix layers to reduce the overall moisture content. The
poultry and cattle manure were added as secondary ingredients to boost the nitrogen
content of the three biomix layers. The moisture level in Layer A poultry manure
(74.5 percent) was higher than that in Layer B poultry manure (56.5 percent).
However, the water hyacinth moisture level in Layer A (82 percent) was also higher
than it was in Layer B (70 percent). Consequently, differences in the Fermways from
Layer A and B biomixes could be attributed to higher moisture levels in the poultry
manure, higher moisture levels in the water hyacinths, or both.
This biomix was pre-heated for one day. There were no odor or fly/maggot problems
with these biomix layers. It was loaded into the biofermentation chamber when it
reached 136°F (Table 3). The three layers were carefully transferred from the pre-
mix wire cage into the chamber so that the integrity of each layer was maintained.
The biomix was aerobically biofermented for 6 days. During the aerobic
27
33. biofermentation period, temperatures rose to 170°F by the third day, then decreased to
163°F when the Fermway was removed from the biofermentation chamber.
Nutrient concentrations and the C:N ratio immediately after removal from the
biofermentation chamber were similar between the two poultry manure moisture level
layers (Layers A and B, Table 4). Nitrogen levels in these 2 layers were lower than
in the water hyacinth/gizzard shad biomix in Trial 2, but were higher than in the Trial
1 biomix with water hyacinths alone. Phosphorus and potassium concentrations were
much higher in both poultry manure layers than in either Trial 1 or 2 biomixes. The
C:N ratio of both poultry manure layers (19.5 and 20.3, Table 4) were within the
acceptable range (15 to 30) (proprietary information, O.C. Thompson, D.V.M., 421
Bluebonnet, Findlay, OH 45840).
Layer C, the cattle manure and water hyacinth layer, had lower nitrogen, phosphorus,
and potassium concentrations after removal from the biofermentation chamber (Table
4) than the two poultry manure layers. The C:N ratio of the cattle manure layer was
much higher (31.6, Table 4) than the two poultry manure layers immediately after
aerobic biofermentation. This suggests that the cattle manure/water hyacinth layer had
been decomposed much less than the two poultry manure layers. This could be caused
by insufficient bacterial populations in the cattle manure compared to the poultry
manure, or by insufficient nitrogen in the biomix; these hypotheses were not tested,
however. The cattle manure/water hyacinth layer, after aerobic biofermentation,
28
34. compared best with the nutrient concentrations and the C:N ratio of the Trial 1
Fermway made from water hyacinths alone.
The average temperature of Fermway No. 3 at the beginning of the 16 week
stockpiling stage was 153°F, and decreased steadily thereafter (Table 5). The
temperature remained above 142°F for the first two weeks of stockpiling. Unlike
Fermway No. 2 with water hyacinths and gizzard shad, Fermway No. 3 had no odor
problems or fly/maggot problems during the stockpiling period.
After 2 months of stockpiling, the nitrogen concentration of the dry poultry manure
Fermway (Layer B) was highest (2.7 percent, Tables 6a and 6b), while that of the
cattle and wet poultry manure Fermways (Layers C and A respectively) were similar
to Fermway Nos. 1 and 2. The phosphorus and potassium concentrations of the dry
poultry manure layer (Layer B) decreased significantly after 2 months of stockpiling
(Tables 6a and 6b), while those of the cattle manure Fermway (Layer C) increased
significantly. The C:N ratio of the cattle manure Fermway (Layer C) still remained
high after 2 months of stockpiling. The volume of Fermway No. 3, after 13 weeks
of stockpiling, had been reduced by 43.9 percent (Table 7).
Trial 4 - Water Hyacinths with Poultry Manure and Scallop Offal. This trial had two
layers of biomix (Table 2):
29
35. (1) Layer A consisted of 200 Ibs of water hyacinths (moisture level not measured), 200
Ibs of dry poultry manure (moisture level not measured), and 200 Ibs of sawdust (44.5
percent moisture level). The combined biomix for Layer A was 600 Ibs in mass at an
acceptable moisture level of 55 percent.
(2) Layer B consisted of 200 Ibs of water hyacinths (moisture level not measured), 200
Ibs of a fresh scallop offal liquid slurry (moisture level not measured), 184 Ibs of
sawdust (44.5 percent moisture level), and 66 Ibs of shredded newspaper (moisture
level not measured). The newspaper had been run through a mill that shreds it into
about 0.25 inch narrow strips. The shredded paper mixed well in the biomix and
absorbed excess moisture in the liquid scallop offal. The combined biomix for Layer
B was 650 Ibs in mass at an acceptable moisture level of 56 percent.
Sawdust was added to both layers to offset the moisture content of the water hyacinths.
Poultry manure was added to Layer A to increase the nitrogen concentration of that
biomix, since water hyacinths are low in nitrogen.
The Trial 4 biomix was pre-heated for one day in the biofermenter. The biomix was
83°F when loaded into the biofermentation chamber (Table 3), and reached the target
temperature of 100°F the next day. The biomix was aerobically biofermented for 6
days. During the aerobic biofermentation period, temperatures rose to 169°F by the
30
36. third day, then decreased to 158°F when the Fermway was removed from the
biofermentation chamber (Table 3).
The nitrogen concentration in the poultry manure Fermway (Layer A) immediately after
aerobic biofermentation was slightly lower than in the two poultry manure Fermways
in Trial 3 (Layers A and B), while phosphorus and potassium concentrations were
much higher (Table 4). The C:N ratio was only slightly higher in Layer A of Trial
4 than the two poultry manure layers in Trial 3.
The nitrogen, phosphorus, and potassium concentrations in the scallop offal Fermway
(Layer B) immediately after aerobic biofermentation were lower than in the other
biomixes in Trials 1-3 (Table 4). The phosphorus and potassium concentrations, in
particular, were quite low in this Fermway. The extremely high C:N ratio of this layer
(43.3, Table 4) indicates that this biomix was probably too low in nitrogen or bacterial
populations were too low for adequate aerobic bacterial decomposition.
The average temperature of Fermway No. 4 at the beginning of the 16 week
stockpiling stage was 146°F, and decreased steadily thereafter (Table 5). The
temperature remained above 142°F for the first two weeks of stockpiling. Fermway
No. 4 had no odor problems or fly/maggot problems during the stockpiling period.
31
37. After 2 months of stockpiling, the nutrient concentrations in the poultry manure
Fermway in this trial (Layer A) were lower than in all other Fermways in this study
(Table 6a). Nutrient concentrations were most similar to those in the dry poultry
manure Fermway (Layer B) of Trial 3, although the nitrogen concentration in the Trial
4 layer was much lower than in Trial 3 (Table 6a).
The scallop offal and water hyacinth Fermway (Layer B) of Trial 4, after two months
of stockpiling, had similar nutrient concentrations to those in the poultry manure
mixture (Layer A) of this trial (Table 6a). The C:N ratio of the scallop offal
Fermway, however, was much higher than in the poultry manure Fermway, although
the difference decreased during the stockpiling period. The volume of Fermway No.
4 was reduced by 43.3 percent after 13 weeks of stockpiling (Table 7).
32
38. DISCUSSION
The purpose of Trial 1 was to examine the biofermentation process using water
hyacinths as the single primary ingredient. The high moisture content of hyacinths
after harvesting (90 percent or more) required additional drying of the hyacinth biomass
and also the addition of secondary ingredients to absorb some of the excess moisture
and thereby reduce the overall moisture content of the biomix. Even after adding
sawdust to the Trial 1 biomix, the moisture content was 63 percent, above the 60
percent upper limit for desired moisture content of a biomix prior to aerobic
biofermentation.
Although the C:N ratio of the freshly harvested hyacinths (23.2) was within the desired
range, it increased during the pre-heat stage (31.5). This was probably due to the
addition of the sawdust, which had a very high C:N ratio (108.2). The result of adding
secondary ingredients with high C:N ratios is that the carbon concentration of the
resulting biomix is increased and the nitrogen concentration is decreased. With water
hyacinths, the high C:N ratio of the biomix in Trial 1 may have caused the slow rates
of aerobic biofermentation, as indicated by the suboptimal temperatures recorded during
the aerobic biofermentation process. Even after adding 7 pounds of urea nitrogen and
subsequent aerobic biofermentation, the C:N ratio of the Fermway from Trial 1 was
26.2.
33
39. The stockpile volume reduction, 23.2 percent, was the lowest of all the Fermways
tested in this study. The Fermway from Trial 1 did not have an odor or fly problem,
and had a favorable texture for use as a fertilizer. The phosphorus concentration of
Fermway No. 1 after 2 months of stockpiling, however, was extremely low (0.34
percent) for use as a general garden fertilizer.
The results from Trial 1 suggested that additional nitrogen sources need to be added
to water hyacinths, and that secondary ingredients capable of absorbing more moisture
need to be added as well. The addition of an ingredient with a higher phosphorus
concentration or the use of water hyacinths with higher phosphorus concentrations
(Round Lake hyacinths used in this study had a phosphorus concentration of 0.01
percent, those collected from Round Lake one year earlier had a 0.09 percent
phosphorus concentration) would increase the phosphorus concentration of the resulting
Fermway and thereby improve its characteristics as an organic fertilizer.
Ground gizzard shad are very high in nitrogen and phosphorus compared to freshly
harvested water hyacinths. This high nitrogen content, however, yields a very low C:N
ratio (8.7) for freshly harvested gizzard shad. Freshly harvested gizzard shad are also
high in moisture (72 percent); drying of the fish biomass is not a viable option because
of the attendant odor and fly problems.
34
40. In Trial 2, shredded newspaper and wood chips were added to help absorb some of the
moisture associated with the gizzard shad and water hyacinth biomix. This reduced the
overall moisture content of the biomix to 57.5 percent. The addition of water
hyacinths and the secondary ingredients to the gizzard shad in the Trial 2 biomix
decreased the nitrogen concentrations and increased the C:N ratio over that in raw
gizzard shad.
However, the C:N ratio of the Trial 2 biomix, even after aerobic biofermentation, was
still quite low. Odor and fly (maggot) problems were present during the pre-mix stage
and after aerobic biofermentation. Experience has shown that odor and fly problems
can arise if the C:N ratio is not kept at 20 or above (proprietary information, O.C.
Thompson, D.V.M., 421 Bluebonnet, Findlay, OH 45840). The high temperatures
reached during the aerobic biofermentation stage indicate a high level of chemical and
biological activity. In the stockpile, the fish odor and maggot problems were nearly
reduced after 1 week. Two months after stockpiling, the C:N ratio was 20.13. The
product no longer smelled fishy or contained maggots.
Results from Trial 2 suggest that gizzard shad must be mixed with additional
ingredients which have a high C:N ratio. This could be accomplished by increasing
the proportion of water hyacinths in the mixture, or increasing the proportion of
newspapers, sawdust, and other high C:N ratio, moisture-absorbing ingredients.
Nutrient characteristics of Fermway No. 2 were more acceptable for use as an organic
35
41. fertilizer than those from Trial 1 using water hyacinths alone, as phosphorus
concentrations were much higher.
Trial 3 was designed to test the importance of manures as added ingredients in the
biofermentation of water hyacinths. The addition of dry poultry manure in Layer B
yielded higher nitrogen concentrations in the Fermway after 2 months of stockpiling
than the wet poultry manure or cattle manure additions in Layers A and C respectively.
Nitrogen concentrations in Layer B after 2 months of stockpiling were also higher than
in all other Fermways produced during this study. Phosphorus and potassium
concentrations in the dry poultry manure layer of Trial 3 after 2 months of stockpiling
were much lower than in the wet poultry manure or cattle manure layers of this trial.
While the cattle manure and wet poultry manure layers in Trial 3 compare favorably
with respect to the use of the resulting Fermway as an organic fertilizer, the wet
poultry manure layer yielded higher concentrations of phosphorus and potassium. There
were no odor or fly/maggot problems with any of the layers in Trial 3.
Trial 4 was designed to see if waste from the seafood industry could be used in the
biofermentation of water hyacinths. The C:N ratio of the scallop offal biomix layer
in Trial 4 was 43.3 immediately after aerobic biofermentation, the highest of all
biomixes tested in this study. The nitrogen concentration of this biomix was the lowest
of all biomixes as well. While water hyacinths are low in nitrogen, apparently scallop
36
42. offal is even lower (scallop offal nutrient characteristics were not measured, however).
The scallop offal was very wet and the addition of shredded newspaper reduced the
moisture problem very well.
Nutrient concentrations in the poultry manure layer (Layer A) of Trial 4, after 2
months of stockpiling, compared well with those from the dry poultry manure layer
(Layer B) of Trial 3, although nitrogen concentrations in Layer A of trial 4 were lower.
Nutrient concentrations in the scallop offal layer were also similar to those in the dry
poultry manure layer of Trial 3, although nitrogen concentrations were lower and the
C:N ratio was much higher in the scallop offal Fermway.
The stockpiles of Trials 2, 3, and 4 had high temperatures and experienced greater
volume reduction than Trial 1. Reduced volume and mass is an asset when
transporting and applying the Fermways to soil with conventional agricultural
equipment, although the loss in mass means there is less Fermway product for potential
sale.
These four trials suggest that the biofermentation of water hyacinths requires the
addition of an ingredient high in nitrogen (to offset the low nitrogen concentrations in
water hyacinths) and ingredients with a high C:N ratio capable of absorbing the excess
moisture found in water hyacinths. Shredded newspaper and sawdust appear to fulfill
the latter requirements. The addition of gizzard shad biomass potentially could fulfill
37
43. the former requirement. However, the proportion of gizzard shad in the biomix must
be reduced from that used in Trial 2 so that odor and fly/maggot problems do not
arise. The nutrient quality of the resulting Fermway from the biofermentation of water
hyacinths would also be improved if an ingredient comparatively high in phosphorus,
such as gizzard shad, were also added.
The biofermentation of gizzard shad requires the addition of ingredients with a high
C:N ratio capable of absorbing the excess moisture in gizzard shad, and the addition
of an ingredient with a high C:N ratio to offset the high nitrogen concentrations and
low C:N ratio in gizzard shad. Water hyacinths and shredded newspapers can fulfill
these requirements.
Poultry and cattle manure, and scallop offal, appear to be viable substitutes for gizzard
shad in the biofermentation of water hyacinths. Of these alternative ingredients, wet
poultry manure and cattle manure appear to be better with respect to the nutrient
concentrations in the stockpiled Fermway.
With respect to utilizing water hyacinths and gizzard shad together in a biofermentation
process, the following proportions are suggested for a biomix which would optimize
biofermentation conditions and the nutrient quality of the resultant Fermway:
38
44. Biomix
Ingredient Mass
Gizzard Shad (ground) 11.75 %
Sawdust 15.00 %
Newspaper (shredded) 10.00 %
Water hyacinths (at 60% moisture) 63.25 %
The rationale used in establishing the suggested proportions is described below. The
slow temperature rise in Trial 1 indicates that water hyacinths by themselves are not
actively digested, even though the C/N ratio of water hyacinths (23.08, Table 1) is
within the optimum range of 20 to 30. It is hypothesized that the nitrogen in water
hyacinth tissue is not rapidly decomposed by bacteria in the biofermentation
environment. It is further hypothesized that nitrogen in animal tissue and waste
products are rapidly digested by bacteria, as demonstrated by the high biofermentation
temperatures reached in Trial 2. The water hyacinths therefore need to be
complemented by animal tissue or waste products to attain desirable decomposition
rates.
The mass of gizzard shad, a source high in animal tissue nitrogen, needs to be reduced
below that used in Trial 2 in order to avoid fly/maggot problems. Since the C:N ratio
of water hyacinths is acceptable, the approach taken in determining the proper
proportions of ingredients was to add enough secondary ingredients to raise the C:N
ratio of the gizzard shad to that of the water hyacinths (23.08). The following is a
description of how the mass of secondary ingredients was determined.
39
45. One Ib of gizzard shad has 0.055 Ibs nitrogen and 0.479 Ibs carbon (C:N = 8.71, Table
1). Given this 0.055 Ibs of nitrogen, enough secondary ingredient carbon needs to be
added to raise the total carbon mass in the gizzard shad-secondary ingredient mixture
to 1.269 Ibs. Since gizzard shad already have 0.479 Ibs of carbon, 0.79 Ibs of carbon
from secondary ingredients needs to be added.
Amount Ingredient Mass of carbon Mass of nitrogen C:N Ratio
1.00 Ib Gizzard shad 0.479 0.055 8.71
Secondary
Ingredients 0.7904 0
Total 1.2694 0.055 23.08
Because of the low density of newspapers, it was determined that the secondary
ingredients should be comprised of 60 percent sawdust and 40 percent newspapers.
Given this ratio, one pound of secondary ingredients has the following characteristics:
Nitrogen Net
Amount
0.60 Ib
0.40 Ib
1.00 Ib
Ingredient
Sawdust
Newspapers
Total
Secondary
Ingredients
Carbon
0.2274
0.1948
0.4222
Nitrogen
0.0021
0.0001
0.0022
Times 23.08
0.0485
0.0018
0.0508
Carbon
0.1789
0.1930
0.3714
40
46. The nitrogen content in the secondary ingredients needs to be accounted for in the
determination of secondary ingredient amounts. The column "Nitrogen times 23.08"
is the amount of carbon needed to reach a C:N ratio of 23.08 for this amount of
nitrogen in the secondary ingredient. The last column "Net Carbon" therefore is the
net amount of "excess" carbon above that amount necessary to keep the C:N ratio of
the secondary ingredient at 23.08. For every pound of the secondary ingredient
mixture, 0.3719 pounds of net carbon are available to increase the C:N ratio of the
gizzard shad.
Since the total amount of carbon needed from secondary ingredients to bring one pound
of gizzard shad up to a C:N ratio of 23.08 is 0.7904 Ibs, the mass of secondary
ingredients needed per pound of gizzard shad is 2.1280 Ibs (0.7904 / 0.3719):
Net
Amount Ingredient Carbon Nitrogen C:N Ratio Carbon
2.1280 Ib Secondary 0.8985 0.0047 191.17 0.790
Ingredients
It was determined that the secondary ingredients should comprise 25 percent of the
total biomix. For every 2.128 Ibs of secondary ingredients necessary for one pound
of gizzard shad, the total mass of biomix ingredients needs to be 8.512 Ibs (4 times
2.128 Ibs). Consequently, 5.384 Ibs of water hyacinths are necessary to make up the
remaining 75 percent of the non-secondary ingredient components:
41
47. Ingredient
Gizzard Shad
Sawdust
Newspaper
Hyacinths
Biomix
Mass
1.0000 Ib
1.2768 Ib
0.8512 Ib
5.3840 Ib
Mass of
Carbon
0.4790 Ib
0.4839 Ib
0.4145 Ib
2.7458 Ib
Mass of
Nitrogen
0.0550 Ib
0.0045 Ib
0.0002 Ib
0.1190 Ib
C:N
Ratio
8.71
107.53
2072.50
23.08
Totals 8.5120 Ib 4.1232 Ib 0.1787 Ib 23.08
On a mass percentage basis, the biomix formula is therefore:
Ingredient
Gizzard Shad
Sawdust
Newspaper
Water hyacinths
Percent
of Mass
11.75 %
15.00 %
10.00 %
63.25 %
Percent
of Carbon
11.62 %
11.74 %
10.05 %
66.59 %
Percent
of Nitrogen
30.78 %
2.52 %
0.11 %
66.59 %
Fly and maggot problems resulted from the ingredient formula used in Trial 2 in this
study. However, the suggested formula above differs from that used in Trial 2.
Gizzard shad comprised about 34 percent of the biomix mass in Trial 2, while it
comprises only 11.75 percent in the suggested formula. The C:N ratio in Trial 2 was
15.2, rather than the 23.1 using the suggested formula. Further, 57.1 percent of the
nitrogen in the Trial 2 biomix came from gizzard shad, while only 30.8 percent of the
nitrogen in the suggested formula comes from gizzard shad. It is hypothesized that a
significant reduction in the percentage of biomix mass and biomix nitrogen coming
from gizzard shad will prevent the occurrence of fly and maggot problems as observed
42
48. in Trial 2. Actual tests will be necessary to establish the proper proportions of gizzard
shad and water hyacinths to use in a biomix for aerobic biofermentation without
fly/maggot problems.
The water hyacinths used in future biofermentation studies will likely contain more
phosphorus than those used in this study. This will improve the nutrient quality of the
resulting FermWay over that produced in Trial 1. It seems likely that the Fermway
produced using the suggested formula will have nutrient characteristics intermediate
between the Fermways produced from Trials 1 and 2 in this study. While using a
lower percentage of gizzard shad will reduce nutrient concentrations below that in the
Trial 2 Fermway, the use of higher phosphorus water hyacinths will in part compensate
for this.
The nutrient quality of the resulting Fermway needs to be considered in establishing
the optimum ingredient formula. Further study is necessary to examine what effect
changes in the suggested formula result in improvements in the Fermway nutrient
characteristics. The fertilizer needs of the end user of the Fermway also needs to be
considered in establishing the optimum ingredient formula.
The use of water hyacinths with cattle or wet poultry manure produces a Fermway with
acceptable nutrient concentrations for use as an organic fertilizer. While such a
combination would not utilize gizzard shad, it could possibly provide some subsidy for
43
49. surface water management projects involving water hyacinth removal. The use of water
hyacinth Fermways as a means of subsidizing these management projects remains
uncertain, however, as a reliable economic feasibility analysis has not been pursued to
date.
44
50. CONCLUSIONS
The low nitrogen concentration and the high C:N ratio in water hyacinths in Trial 1
resulted in low biofermentation temperatures. The low phosphorus content in the
Fermway from this Trial discourages the use of water hyacinths alone for producing
an acceptable general organic fertilizer. In addition, pathogens and weed seeds may
not be destroyed.
The addition of dry poultry manure to water hyacinths reduced the initial C:N ratio,
but did not improve nutrient characteristics of the Fermway after 2 months of
stockpiling. The addition of scallop offal to water hyacinths increased the C:N ratio
compared to the hyacinth-alone biomix, and resulted in similar (except for lower
nitrogen concentrations) nutrient concentrations in the 2 month old Fermways.
The addition of cattle manure resulted in a Fermway similar to that from a hyacinth-
alone biomix, except that phosphorus concentrations were greatly increased by the
addition of the cattle manure. The addition of wet poultry manure increased both
phosphorus and potassium concentrations compared to a hyacinth-alone Fermway,
although nitrogen concentrations were slightly less.
The addition of gizzard shad to water hyacinths, in approximately a 34-31 percent
mixture, increased the phosphorus concentrations in the resulting Fermway compared
45
51. to that in a hyacinth-alone biomix. However, there were significant odor and
fly/maggot problems associated with this biomix during all three stages of the
biofermentation process.
The results of this pilot study indicate that water hyacinths, because of high moisture
levels and low initial nitrogen and phosphorus levels, are not a good single ingredient
for biofermentation. The combination of water hyacinths and gizzard shad shows
promise. Some experimentation with various proportions of gizzard shad and water
hyacinths is necessary to determine the best combination for odor and fly/maggot
control, for adequate biofermentation and stockpile temperatures to control pathogens
and weed seed germination, and for acceptable nutrient concentrations in the Fermways
for use as an organic fertilizer.
46
52. RECOMMENDATIONS FOR FUTURE STUDY
Phase n Recommended Study.
Agron, Inc., has recommended a second study phase to further examine the feasibility
of using the biofermentation of water hyacinths and gizzard shad as a means of
subsidizing surface water management projects which involve water hyacinth and
gizzard shad removal and/or control. This second phase would be aimed at
accomplishing the following:
(1). Determine the optimum formula for a water hyacinth and gizzard shad biomix
which will prevent fly and maggot problems while producing a Fermway with desirable
nutrient characteristics. The desired Fermway nutrient characteristics will be established
after an analysis of the current nutrient requirements of the muck farms at Lake
Apopka. The optimum formula will be determined from five one-ton biofermentation
trials using a one-ton experimental biofermentation chamber. Water hyacinths from
typical surface waters (lakes and/or rivers) will be used so that nutrient concentrations
in the water hyacinths are typical of those collected from water hyacinth management
and control projects. Nutrient characteristics will be measured for the biomix
ingredients, for the biomix before pre-heating, for the Fermway immediately after
biofermentation, and for the Fermway after several months of stockpiling.
47
53. Five separate biomix formulas will be tested. The primary difference being tested
among the formulas is the mass percentage of gizzard shad in the biomix. The mass
percentages of gizzard shad in the biomixes to be tested are: 5.875, 11.750, 17.625,
23.500, and 29.375 percent. However, the mass percentages of the secondary
ingredients and water hyacinths will also differ among the tested formulas. This is
because the amounts of these other ingredients is based on the amount of gizzard shad
used. The approach discussed on pages 36-39 will be used to establish the amounts
of secondary ingredients and water hyacinths in each formula.
(2). The optimum ingredient formula established in task 1 will be used in either five
one-ton biofermentation trials using a one-ton experimental biofermentation chamber,
or a single trial using a leased 50-ton biofermentation chamber. Water hyacinths from
typical surface waters (lakes and/or rivers) will be used so that nutrient concentrations
in the water hyacinths are typical of those collected from water hyacinth management
and control projects. Nutrient characteristics from each biofermentation trial in this
task will also be measured, as described in task 1.
(3). The Fermway produced in task 2 will be applied to test plots on Lake Apopka
muck farms to assess its value as an agricultural crop fertilizer. Test plots will utilize
replications of various treatment applications of Fermway and other fertilizers in a test
plot trial design coordinated with muck farmers, the St. Johns River Water Management
District, and a University of Florida agronomist. The vegetables to be grown on the
48
54. plots will include sweet corn, carrots, radishes, bib lettuce, and parsley. Four
replications will be tested for each vegetable. Randomized plots will be utilized in
homogenous muck land. A single test plot will be 200 ft2
if 5 tons of Fermway are
produced, or 2000 ft2
if 50 tons of Fermway are produced. The agronomy study will
be under the direction of Dr. Marion White of the University of Florida. The
following are the suggested treatments:
(1). No Fermway applied, but the normal amount of nitrogen, phosphorus, and
potassium (in the same form as usually applied by the farmers to these muck soils)
is to be applied to the plot.
(2). One pound of Fermway per 10 ft2
of plot area, plus sufficient nitrogen,
phosphorus, and potassium as required to maintain the normal nutrient application
rates to the muck soils.
(3). Two pounds of Fermway per 10 ft2
of plot area, plus sufficient nitrogen,
phosphorus, and potassium as required to maintain the normal nutrient application
rates to the muck soils.
(4). Four pounds of Fermway per 10 ft2
of plot area, plus sufficient nitrogen,
phosphorus, and potassium as required to maintain the normal nutrient application
rates to the muck soils.
49
55. (5). Eight pounds of Fermway per 10 ft2
of plot area, plus sufficient nitrogen,
phosphorus, and potassium as required to maintain the normal nutrient application
rates to the muck soils
Normal insect and disease control is to be followed as usual for these muck soil plots.
The data to be collected include soil characteristics both before treatments are applied
to the plots and after harvest, plant tissue tests for nutrient concentrations, days to
harvest, yield, quality of product, irrigation required, plant stress indicators, and other
data as may be appropriate.
This final task is designed to answer the following questions:
(1). Does a Fermway made from gizzard shad and water hyacinths have an
advantage over the typical nutrients forms applied to these muck soils? Are
vegetable yields increased if a Fermway partially replaces the typical nutrient
sources?
(2). Is there an economic advantage for the farmer using a Fermway instead of or
in addition to the typical nutrient sources used on these soils?
50
56. The information obtained from this phase n study will be used to prepare a complete
economic analysis of biofermenting water hyacinths and gizzard shad for the purpose
of subsidizing hyacinth and gizzard shad removal projects.
A preliminary budget for the Phase II study is shown below. This budget is based on
assumptions that a 50-ton trial would be conducted for task 2, that test plots 2000 ft2
in area will be used, and that the maximum mass of gizzard shad and water hyacinths
will be utilized in the 50-ton biofermentation trial. Given these assumptions,
approximately $ 43,100 would be required to fund Phase II.
Item
Lease of 50-ton biofermenter and labor $ 2,000
38 tons water hyacinths ($100/ton) $ 3,800
16 tons gizzard shad ($400/ton) $ 6,400
9 tons sawdust ($ 20/ton) $ 180
6 tons newspaper ($ 20/ton) $ 120
Transportation of materials to the site $ 1,500
Travel $ 5,000
Chemical Analyses $ 1,000
Consulting Fees $15,000
Agronomy Package $ 8,100
TOTAL $ 43,100
51
57. Phase HI: Full-Scale Project.
If full-scale restoration projects involving (1) the growth and harvest of water hyacinths
from Lake Apopka, and (2) the harvest of gizzard shad from Lake Apopka are
implemented, and if the results from the Phase II study are positive and show a
favorable economic feasibility analysis, then a full-scale Phase III project could be
contemplated as a means of subsidizing these two restoration projects.
The full-scale Phase III project, as envisioned by Agron, Inc., would involve the
construction of a permanent biofermentation facility (including stockpile and preheat
facilities). Six 50-ton capacity biofermentation bays would be included in the facility.
On-site warehouses would also be constructed to store a two-week supply of water
hyacinths and up to six months' worth of Fermways. Newspaper would be warehoused
in a 70' x 100' clear span building which would accommodate a hammer mill and
cyclone for grinding newspaper. Sawdust would be warehoused in a 70' x 100' steel
clear span building. A cold storage facility for storing up to 180 tons of gizzard shad
would also be constructed. A central office, rest rooms, instrument room, and
laboratory would also be constructed at the biofermentation facility.
The biofermentation facility would also include a five-ton per hour fish grinder capable
of discharging ground fish into a mixer truck. The mixer truck would have the mixer
52
58. on load cells for weighing ingredients. Additional necessary equipment is a payloader,
pick-up truck, skid steer loader, stockpile conveyor, and pallet truck.
The biofermentation process at this large-scale facility would require that gizzard shad
and water hyacinths be brought to the site. Normal operating procedure would be for
gizzard shad to be ground, mixed with newspaper and sawdust, then mixed with ground
and pre-heated water hyacinths, and then placed in the biofermenter the same day the
same day the gizzard shad is delivered. During months when excess gizzard shad are
delivered to the site, the excess fish would be placed in cold storage at the
biofermentation facility. During months when an insufficient amount of gizzard shad
are delivered, the deficit would be made up from gizzard shad in cold storage.
The six biofermenter bays each would have a capacity of 50 tons. It is expected that
each bay will be filled to 80 percent capacity, so that 240 tons of raw biomix could
be processed per week. Consequently, approximately 12,480 tons of biomix could be
biofermented per year. The following ingredient formula is used only for the purposes
of establishing a preliminary budget for the Phase III project. The actual ingredient
formula used would depend on the results from the Phase n study.
53
59. Ingredient Mass (tons)
Water Hyacinths at 60 percent moisture 25.3
Sawdust 6.0
Gizzard Shad (wet weight) 4.7
Newspaper 4.0
Total biomix mass per biofermenter bay per week 40.0
The average total phosphorus content in water hyacinths grown in open enclosures in
Lake Apopka as part of the St. Johns River Water Management District's "Water
Hyacinth Demonstration Project" was 0.145 percent on a dry weight basis, while the
average total nitrogen content was 1.863 percent on a dry weight basis (Shuman,
personal communication). The average total phosphorus content in gizzard shad is
about 1.75 percent on a dry weight basis, while the average total nitrogen content in
gizzard shad is about 5.5 percent (Godwin, personal communication). Given these
nutrient concentrations and the biomix formula shown above (multiplied by 6
biofermentation bays per week times 52 weeks), the following gross mass of nutrients
would be expected to be exported from Lake Apopka each year:
Mass of Mass of
Ingredient Phosphorus (tons) Nitrogen (tons)
Water Hyacinths 4.58 58.82
Gizzard Shad 7.19 22.58
Total 11.77 81.40
54
60. Consequently, approximately 12 tons of total phosphorus per year and approximately
81 tons of total nitrogen per year would be exported from Lake Apopka by removing
this amount of gizzard shad and water hyacinths. The amount of nutrients contained
in water hyacinths is the gross nutrient content; it does not account for the nutrients
in the hyacinths stocked into Lake Apopka as part of the project.
The preliminary budget for the Phase in project was divided into two sections: capital
outlay and operating costs. Capital outlay costs include land costs, building and
construction costs, and heavy equipment costs (Table 8). The heavy equipment costs
are amortized over 5-year periods. The land, building, and construction costs are
amortized over a 20-year period. The per-year capital costs used in the preliminary
budget therefore assume a 20-year operation of the biofermentation facility. If the
facility is operated less than 20 years, then the total capital costs will be higher than
shown in the proposed budget because not all capital outlays (eg. service road
construction, concrete pads and walls) will be fully paid for from the per-year costs and
any resale/reuse after the project. The total capital outlay for a 20-year operation
period is estimated to be $ 1,746,200 (Table 8). Assuming a 20-year period of
operation, the average annual capital outlay cost would be $ 87,310 (Table 8).
Operational costs include the cost of the biomix ingredients and actual operation costs.
The cost for the biomix ingredients is estimated to be $1,350,202 per year. It is
assumed that a municipal solid waste disposal would donate the newspaper.
55
61. TABLE 8
Phase III Study Capital Outlay Budget
Land 10 acres $
$
50,000
Facilities 6 Bay Biofermenter
2 Clear Span Buildings
Concrete Pad 80' x 100'
8' Retaining Wall 280'
Office & Restroom 18 x 24
Septic Tank
Well
Electric Service
Fuel Tank
Site Development
Stockpile 80' x 200'
Retaining Walls
Scales
Loading Deck
Service Roads
Storage ends
Connecting Road
Building Floors
Building Area
Main Road
Cooler
Contingency
Total Cost Assuming 20-year amortization
Annual cost over a 20 year period
$
$
280,000
80,000
12,000
5,600
21,600
10,000
5,000
10,000
2,000
5,000
24,000
8,000
15,000
10,000
30,000
12,000
21,000
16,000
20,000
80,000
25,000
692,200
34,610
56
62. TABLE 8 - (continued)
Phase III Study Capital Outlay Budget
Equipment
1 JD 444 Payloader $ 70,000
1 Cab Chassis 28,000
1 Mixer Load Cells 30,000
1 Pickup 12,000
1 Skid Steer Loader 18,000
1 Office Furniture & Tools 10,000
1 Conveyor 16,000
1 Kelley-Duplex Hammermill 27,000
1 Fish Grinder 10,000
1 Pallet Truck 20,000
Contingency 10,000
Total $ 251,000
Total cost over 20-years assuming
a 5-year amortization $ 1,004,000
Annual cost over a 20 year period $ 50,200
Total Capital Outlay Land $ 50,000
Facilities 692,200
Equipment 1,004,000
TOTAL OVER A 20-YEAR PERIOD $ 1,746,200
AVERAGE ANNUAL COST ASSUMING
20-YEARS OF OPERATION $ 87,310
57
63. Item Amount Unit Cost Cost
Water Hyacinths
Gizzard Shad
Sawdust
Newspaper
7,894 tons
1,466 tons
1,872 tons
1,248 tons
$100/ton
$357.00/ton
$20/ton
Donated
$ 789,400
$ 523,362
$ 37,440
Donated
Total Cost Per Year $ 1,350,202
Other operational costs are shown in Table 9. The total operational cost, per year,
including the cost of ingredients, is $ 1,643,192. Adding the annual capital cost
amortization (assuming a 20-year project) of $ 87,310, the total project cost would be
$ 1,730,502 per year, or $ 34,610,040 over the 20-year operational period.
Assuming there is an average 30 percent reduction in mass of Fermway after six
months of stockpiling, the 12,480 tons of raw biomix ingredients would reduce to
8,736 tons of Fermway. Therefore, for this project to be financially self-sufficient,
Fermway from this project would have to be sold for approximately $200 per ton.
If the cost of the gizzard shad and water hyacinths are removed from these
calculations, then the total project cost per year would be $ 380,300 (assuming a 20-
year project operation). With an annual production of 8,736 tons of Fermway, the
Fermway would have to be sold for at least $44 per ton for this project to provide any
subsidy to the water hyacinth or gizzard shad removal projects on Lake Apopka.
58
64. TABLE 9
Phase III Study Annual Operational Costs Budget
Operational Costs Do Not Include Biomix Ingredient Costs
Labor $ 104,000
Fringe 26,000
Administration 12,000
Electric 7,500
Fuel 5,000
Insurance 12,000
Taxes 13,200
Maintenance 10,000
Depreciation-Facility 34,610
Depreciation-Equipment 50,200
Outside Labs 6,000
Royalty 12,480
Total Annual Cost $ 292,990
Total Cost Over 20-Years of Operation $ 5,859,800
59
65. The Fermway would most likely have to be sold at more than $44 per ton before any
subsidy would be accrued. While water hyacinths and gizzard shad are assumed to
cost nothing under this latter economic scenario, there would in fact be a delivery cost
associated with getting these materials to the biofermentation facility. Competition
with other market avenues for harvested water hyacinths and gizzard shad could
increase in time, thereby increasing the potential value of these harvested materials and
comparatively reducing the potential subsidy from biofermentation. Consequently the
subsidy from biofermentation would have to be greater than the subsidy provided from
alternative market avenues for these harvested materials.
60
66. REFERENCES
Amasek, Inc. Unpublished Data. Amasek, Inc., 402 High Point Drive, Suite A,
Cocoa, Florida 32926-6634.
Barker, K. R. 1983. Nematicidal efficacy of four mixes of FermWay. Unpublished
Report. Dept. of Plant Pathology, North Carolina State University, Raleigh, North
Carolina. (*)
Barrett, D. 1984. Fermway: McHenry County College 1982-84. McHenry County
College, Crystal Lake, Illinois. (*)
Battelle Institute. 1975. Preliminary evaluation of the sponsor's fertilizer product
(TCM) as an organic fertilizer and soil supplement. Final Report. Battelle
Institute, Columbus Laboratories, Columbus, Ohio. (*)
deGraft- Hanson, J. A., Naber, E.G., Stephens, J.F., and Thompson, O.C. 1990. The
microbiology and safety of cage layer manure rapidly composted in a closed system
with various carbon sources. Agricultural and Food Processing Waste. Proceedings
of the Sixth International Symposium on Agriculture and Food Processing Wastes,
December 17-18, 1990. American Society of Agricultural Engineers, Chicago, IL.
(*)
Dennis, E. J. 1981. PAW - What Is It? Annual Report to Agri-Nomics, Inc. Agri-
Service Associates, Manhattan, Kansas. (*)
Godwin, W. A. 1991. Personal Communication. St. Johns River Water Management
District, P.O. Box 1429, Palatka, Florida 32178-1429.
Rodabaugh, C. R. 1986. FermWay project: Select Sires, Inc. Report to Agron, Inc.
Ag Tech, London, Ohio. (*)
Shuman, J. R. 1991. Personal Communication. St. Johns River Water Management
District, P.O. Box 1429, Palatka, Florida 32178-1429.
Thompson, O. C. Proprietary information. O. C. Thompson, DVM, 421 Bluebonnet,
Findlay, OH 45840.
(*) References available from Agron, Inc., c/o O. C. Thompson, 621 Bluebonnet,
Findlay, OH 45890.
61