The document discusses using African vetiver grass as a low-cost solution for treating wastewater in developing countries. Researchers in Nigeria found that Chrysopogon nigritana grass significantly reduced various contaminants in industrial and domestic wastewater, meeting international standards. It can remove heavy metals like arsenic and cadmium, as well as lower phosphate, COD, and manganese levels in wastewater through its roots. This vetiver grass technology provides developing nations an affordable way to manage wastewater and reduce health and environmental impacts.
If something is potable that means it's safe to drink. In developed countries, tap water is usually potable. Potable water is for drinking and domestic use (cooking, bathing, watering the lawn, etc. We get potable water from springs, wells, streams, rivers, lakes etc. This water still must be treated to kill bacteria. It must also be tested to be sure that toxins from polluting sources have not made it unsafe to drink.
Introduction to Drinking Water Quality: A Layperson’s Guide to Water Quality,...lhirsh
Poor water quality is a global health crisis. Not everyone who must help remedy this monumental problem is a scientist, or policy maker, or water, sanitation and hygiene expert, or public health professional. However, everyone at every level must have some understanding of the subject and science behind it.
Our booklet provides basic information to help people make intelligent decisions about safe drinking water.
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Studies on the Bacteriological quality of vegetable crops irrigated with dome...Premier Publishers
The bacteriological quality of vegetable crops irrigated with domestic wastewater in Aliero, Kebbi State, Nigeria was analysed. The vegetable samples were collected during October 2013 and September 2014 in Aliero town in a period of three months across the two seasons (i.e., the dry and rainy seasons). After the analysis, the following bacterial spp were isolated from the vegetable crops irrigated with domestic wastewater water; Salmonella spp (14.0%), Pseudomonas aeruginosa (13.2%), Klebsiella spp (16.0%), Shigella spp (19.2%), Escherichia coli (41.6%), Citrobacter spp (25.2%), Proteus spp (15.6%) and Campylobacter spp (6.8%). The bacterial spp isolated from vegetables irrigated with tube well water was Staphylococcus aureus (26.8%), Escherichia coli (14.0%), Pseudomonas aeruginosa (8.8%), Diplococcus spp (12.0%) and Corynebacteria spp (1.2%). Escherichia coli and Citrobacter spp were recorded to have the highest number of occurrence in vegetables irrigated with domestic wastewater, with the percentage of 41.6% and 22.2% respectively. While Staphylococcus aureus and Escherichia coli have the highest occurrence of 26.8% and 14.0% respectively in vegetables irrigated with tube well water. This study highlights the health risk associated with the consumption of these vegetables particularly those consumed raw.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
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Studies on the Bacteriological quality of vegetable crops irrigated with dome...Premier Publishers
The bacteriological quality of vegetable crops irrigated with domestic wastewater in Aliero, Kebbi State, Nigeria was analysed. The vegetable samples were collected during October 2013 and September 2014 in Aliero town in a period of three months across the two seasons (i.e., the dry and rainy seasons). After the analysis, the following bacterial spp were isolated from the vegetable crops irrigated with domestic wastewater water; Salmonella spp (14.0%), Pseudomonas aeruginosa (13.2%), Klebsiella spp (16.0%), Shigella spp (19.2%), Escherichia coli (41.6%), Citrobacter spp (25.2%), Proteus spp (15.6%) and Campylobacter spp (6.8%). The bacterial spp isolated from vegetables irrigated with tube well water was Staphylococcus aureus (26.8%), Escherichia coli (14.0%), Pseudomonas aeruginosa (8.8%), Diplococcus spp (12.0%) and Corynebacteria spp (1.2%). Escherichia coli and Citrobacter spp were recorded to have the highest number of occurrence in vegetables irrigated with domestic wastewater, with the percentage of 41.6% and 22.2% respectively. While Staphylococcus aureus and Escherichia coli have the highest occurrence of 26.8% and 14.0% respectively in vegetables irrigated with tube well water. This study highlights the health risk associated with the consumption of these vegetables particularly those consumed raw.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
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.
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WatersecurityisavitalissueinaridcountrieslikeKuwait,wheredesalinatedwateristhe solesupplyoffresh water.Thispaper isacontributiontotheongoingefforts towardsrationalizationin potablewater consumption.In addition,itdiscusses therole of high-quality effluent water, from wastewater treatment plants in Kuwait, as a potential replacementfor potable water for non-contact domesticapplications as a oneway in savingin thisvaluablecommodity.
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1. An Urban Wastewater Solution:African
Vetiver Grass
SCIENCE & TECHNOLOGY : Africa, Agriculture, Environment, Health, Pollution
2014•12•31 Praise Nutakor United Nations University
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Photo: Jono Winn. Creative Commons BY (cropped).
The world is witnessing a water quality crisis, mainly brought about by rapid
population growth, industrialization, food production practices and poor water
use strategies. As population increases, so does wastewater output. And in
developing countries, about 90 percent of all wastewater is discharged untreated
directly into rivers, lakes and oceans.
2. The impact of wastewater on the environment and human health is not only
striking but frightening. A report by the United Nations Environment Programme
(UNEP) and UN-HABITAT in partnership with members of UN Water indicates
that two million tons of sewage, industrial and agricultural waste are discharged
into the world’s waterways and at least 1.8 million children under five-years-old
die as a result every year. That is one child lost every 20 seconds due to water
related diseases.
Two million tons of sewage, industrial and agricultural waste are discharged into
the world’s waterways and at least 1.8 million children under five-years-old die
as a result every year.
Inadequate infrastructure and lack of financial resources are largely to blame for
the wastewater menaces that plague most developing countries, especially their
cities. In these countries, septic tanks receive the faecal waste of most urban
dwellers, while other household liquid wastes are directed into the nearest drains.
Because drainage system costs are frequently prohibitive, the majority of urban
drains are open, lending themselves to misuse and sometimes serving as
defecation points for households without adequate sanitation facilities. Industrial
wastewater — from breweries and other sources such as the textile, mining,
chemical and pharmaceutical industries — is usually discharged into these open
drains or into water bodies without any pre-treatment, posing health hazards.
The quest for a cost-effective technology
An urban wastewater drain. Photo: Effiom Oku, UNU-INRA.
Managing wastewater in an efficient and sustainable way calls for a multifaceted
approach. Various measures including behavioural change approaches towards
combatting water pollution and the use of appropriate infrastructure, technologies
3. and techniques will help reduce the impact of wastewater on the environment and
on humankind.
The quest for an immediate approach to wastewater treatment in developing
countries has spurred research within the scientific community. Among that
research is a project being carried out by the United Nations University Institute
for Natural Resources in Africa (UNU-INRA) in partnership with Ebonyi State
University in Nigeria. The project is assessing the potential of an African vetiver
grass species, Chrysopogon nigritana, in treating industrial effluents and
wastewater from domestic origins, which have been major sources of
contamination. In Africa wastewater is increasingly becoming an important
resource for various uses including irrigation in urban and peri-urban agriculture.
This wastewater is often high in toxic heavy metals including arsenic, cadmium
and manganese as well as components of nutrient pollution such as phosphates
and nitrates.
A farmer irrigates crops with wastewater. Photo: Effiom Oku, UNU-INRA.
The general findings of this vetiver project reveal thatChrysopogon nigritana can
reduce these contaminants in industrial effluents and domestic wastewater. For
example, in one case, samples were taken of leachates from a dumpsite and
treated with Chrysopogon nigritanafor seven days. Laboratory analysis of the
chemical properties of the treated leachate indicated that phosphate, which was at
a pre-treatment level of 92.9, was reduced to 19.71 mgl-1, while Chemical
Oxygen Demand (COD) dropped from 151.78 to 50.57 mgl-1. These levels are
far below the United States Environmental Protection Agency’s (USEPA)
permissible limits of 50 and 75 mg l-1 for each of these respective chemical
properties in water.
Similarly, laboratory results showed that arsenic and cadmium properties, which
were both initially at pre-treatment levels of 0.2mg l-1, were completely removed
from sample effluents taken from a fertilizer company after a six-day vetiver
4. grass treatment. The absence of these chemical properties after treating the
effluents with vetiver grass is very satisfactory because the World Health
Organisation/Food and Agriculture Organisation’s (WHO/FAO) acceptable
levels for arsenic and cadmium in water are 0.10mg l-1and 0.005mg l-1
respectively. Additionally, analysis of a sample of slaughterhouse wastewater
treated for seven days by vetiver showed an 88 percent reduction in manganese
(from 1.03 mg l-1 to 0.12 mg l-1) — a reduction well below the WHO/FAO’s
safety standard of 0.20 mg l-1 for manganese in water.
Once the vetiver plants are put in the wastewater, the grass will start removing
the contaminants in the water through its roots to its leaves.
Dr Effiom Oku, Senior Research Fellow for Land and Water Resources at UNU-
INRA and the research project’s manager, explains that the results are significant
and offer many developing countries, including those in Africa, a unique window
of opportunity for reducing the impact of wastewater on human health.
Dr Oku noted that heavy metals such as arsenic can cause cancer of the skin,
lungs, liver and bladder and exposure to high levels of metals like cadmium can
severely damage these organs and ultimately cause death.
He added that the use of untreated wastewater for crop irrigation affects not only
human health but that cattle grazing on pastures irrigated this way can become
heavily infested with the larval stage of the tapeworm (Taenia saginata).
“Irrigation of edible crops with untreated wastewater can result in the
transmission of various infections including intestinal nematode and bacterial
infections for both the consumer and the farmer as a result of the heavy metals in
the wastewater, and the ability of the African species Chrysopogon nigritana in
treating these domestic and industrial contaminated liquids will help reduce the
health implications of consuming these crops among consumers,” explained Dr
Oku.
Applying vetiver technology
In explaining how the vetiver grass technology works, Dr Oku reiterated that the
grass is cost-effective and highlighted simple ways to treat wastewater with it:
After growing in soil for about 12 weeks the mature vetiver grass can be
dug up and separated into individual plants.
The roots are then trimmed and the shoots are pruned to about 15-20
centimetres.
5. The grass is then transferred to a “floater”— a planting device that will
allow the grass to float on the surface of water . The water has to be
supplemented with fertiliser, cow dung or poultry waste (hydroponic
agriculture).
The plants are allowed to grow in their floaters for another 8–12 weeks
before being transferred with their floaters to the wastewater in need of
treatment.
The plants are left in the wastewater to grow and the roots and leaves are
periodically pruned.
UNU-INRA researchers uprooting vetiver grass for studies. Photo: Gessesse Dessie, UNU-INRA.
Dr Oku explained that once the vetiver plants are put in the wastewater, the grass
will start removing the contaminants in the water through the roots to the leaves,
hence the need to prune the roots and the leaves regularly. He added that, “this is
a green technology that leaves behind no carbon footprint since it does not use
conventional energy” such as oil, gas or coal.
Dr Elias T. Ayuk, the Director of UNU-INRA, also speaking on the relevance of
the research, acknowledged that future demand for water cannot be met unless
wastewater management is revolutionized.
He explained that in its role as a natural resources management think tank of the
United Nations and its member states in Africa, UNU-INRA conducts studies
such as this one to help inform policy formulation and implementation. The
6. resulting research findings will help to direct efforts towards the judicious use of
natural resources for development.
Indeed, the development of many countries will depend on investment in
sanitation and water treatment. As revealed in the UNEP report, every dollar
invested in safe water and sanitation has a payback ranging from US$3 to US$34
depending on the region and the technology deployed. It has therefore become
imperative to meet wastewater management challenges with cheaper
technologies like the vetiver grass option to ensure a healthy environment and
sustainable development.
This article summarizes work carried out on the United Nations University
Institute for Natural Resources in Africa’s (UNU-INRA) research
project: Potential of an African Grass Species in Healing Industrial and
Domestic Sicshare, internet,
kwater. You can contact UNU-INRA for more information on the application of
the vetiver technology in treating wastewater.
An Urban Wastewater Solution: African Vetiver Grass by Praise Nutakor is
licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0
International License.