This study investigated the long-range effects of cyanide from gold mining on mercury methylation in the Puyango River basin in southern Ecuador. Cyanide concentrations reached 280 μg/L downstream of processing plants but were still detectable 100 km downstream. Bacterial activity and mercury methylation in sediments, which were high upstream, became undetectable downstream of processing plants and only returned to upstream levels in the most distant downstream stations. The data suggest that cyanide inhibits bacterial activity and mercury methylation over long distances due to its slow oxidation in the turbulent river system. This has implications for mercury bioaccumulation in coastal ecosystems where the river discharges.
geochemical processes and assessment of water quality forIJEAB
Al-Shagaya Field-C is located southwest of Kuwait City, where the brackish groundwater is produced from the Dammam aquifer. The main objectives are to recognize the major geochemical processes operating in the aquifer and controlling its quality; in addition, to evaluate the groundwater quality criteria for drinking and irrigation. The investigation was carried out by estimating pH, EC, TDS, TH, SAR, %Na, RSC, RSBC, potential salinity, magnesium ratio, chloro-alkaline index, Kelly’s ratio, Permeability index, and salinity hazard respectively. The TDS ranges between 2474 and 3232 mg/l, with an average value of 2753mg/l and the water is exceeding very hard. Groundwater shows Ca-Cl and Ca-Mg-Cl genetic water types. Results revealed that the groundwater is oversaturated with respect to dolomite and calcite and under-saturated with respect to gypsum and anhydrite. The main geochemical processes controlling groundwater chemistry in the study area are due to dissolution/ precipitation process along the path flow. The major ions composition in groundwater of the study area indicated that the water is not suitable for drinking. However, the irrigation parameters revealed that the groundwater is suitable for irrigation purposes.
Impact of the salinity gradient on the mollusc fauna in flooded mine subsiden...EdytaSierka
Archives of Environmental Protection, 2014
This paper presents the impact of salinisation on the aquatic mollusc fauna in fl ooded mine subsidences in the Karvina region (Czech Republic). The results of the previous research on salinity in fl ooded mine subsidences show that some of them contain a high content of dissolved inorganic substances (above 1000 mg•l-1). These substances can affect the vegetation and animals occurring in the water and the surrounding area. The phylum of Mollusca was selected as a model group for the fi eldwork as it includes species with the proven bioindication potential. The occurrence of aquatic mollusc species was studied at 10 sites. The sites were selected based on the content of dissolved substances (the salinity gradient from <500 to >1000 mg•l-1. A total of 12 aquatic mollusc species were found, including one species identifi ed as a potential bioindicator of the negative effect of salinisation on aquatic biota. The analysis showed statistically signifi cant positive correlations between the content of dissolved inorganic substances and the presence of alien species Potamopyrgus antipodarum (J.E. Gray, 1843). The gradient of salinity signifi cantly affects the species composition of the mollusc fauna in fl ooded mine subsidences and may affect the biodiversity of this group.
An analysis of Bento Rrodigues Dam Disaster for the Occupation Health and Safety module in semester 3 at the Transport & Logistics Management Honors degree program conducted in University of Moratuwa.
geochemical processes and assessment of water quality forIJEAB
Al-Shagaya Field-C is located southwest of Kuwait City, where the brackish groundwater is produced from the Dammam aquifer. The main objectives are to recognize the major geochemical processes operating in the aquifer and controlling its quality; in addition, to evaluate the groundwater quality criteria for drinking and irrigation. The investigation was carried out by estimating pH, EC, TDS, TH, SAR, %Na, RSC, RSBC, potential salinity, magnesium ratio, chloro-alkaline index, Kelly’s ratio, Permeability index, and salinity hazard respectively. The TDS ranges between 2474 and 3232 mg/l, with an average value of 2753mg/l and the water is exceeding very hard. Groundwater shows Ca-Cl and Ca-Mg-Cl genetic water types. Results revealed that the groundwater is oversaturated with respect to dolomite and calcite and under-saturated with respect to gypsum and anhydrite. The main geochemical processes controlling groundwater chemistry in the study area are due to dissolution/ precipitation process along the path flow. The major ions composition in groundwater of the study area indicated that the water is not suitable for drinking. However, the irrigation parameters revealed that the groundwater is suitable for irrigation purposes.
Impact of the salinity gradient on the mollusc fauna in flooded mine subsiden...EdytaSierka
Archives of Environmental Protection, 2014
This paper presents the impact of salinisation on the aquatic mollusc fauna in fl ooded mine subsidences in the Karvina region (Czech Republic). The results of the previous research on salinity in fl ooded mine subsidences show that some of them contain a high content of dissolved inorganic substances (above 1000 mg•l-1). These substances can affect the vegetation and animals occurring in the water and the surrounding area. The phylum of Mollusca was selected as a model group for the fi eldwork as it includes species with the proven bioindication potential. The occurrence of aquatic mollusc species was studied at 10 sites. The sites were selected based on the content of dissolved substances (the salinity gradient from <500 to >1000 mg•l-1. A total of 12 aquatic mollusc species were found, including one species identifi ed as a potential bioindicator of the negative effect of salinisation on aquatic biota. The analysis showed statistically signifi cant positive correlations between the content of dissolved inorganic substances and the presence of alien species Potamopyrgus antipodarum (J.E. Gray, 1843). The gradient of salinity signifi cantly affects the species composition of the mollusc fauna in fl ooded mine subsidences and may affect the biodiversity of this group.
An analysis of Bento Rrodigues Dam Disaster for the Occupation Health and Safety module in semester 3 at the Transport & Logistics Management Honors degree program conducted in University of Moratuwa.
ASSESSMENT OF DAMS’ TROPHIC STATUS AS A TOOL FOR WATER RESOURCES’ SUSTAINABLE...IAEME Publication
The Bouhouda’s dam was built on Oued Sra, a tributary on the right bank of Ouergha wadi, about 18 km in the north of Taounate town. The waters of this dam are mainly intended for irrigation and drinking water supply (Ministry of town planning and urban planning, 2014). The aim of this paper is to study the quality and the spatio-temporal evolution of the physicochemical of this dam waters parameters of over a period of eight years (2000/2008) in order to have a better knowledge of the mechanisms and the factors that condition the eutrophication of this lake. A classification has been established based on the Carlson index (1977) (Trophic State Index or TSI) and the Vollenweider index (1968), to identify the trophic state of the reservoir waters. Accordingly, these results can be used for decision support in the context of sustainable development of several nearby dams in the Sbou Basin.
The River Nile delta shallow lakes namely, Edku, Burullus and Manzala are natural wetland ecosystems, connected to fresh water sources at the south and to the open sea at the north. Throughout their relatively short geological and hydrological history, the lakes received unpolluted fresh water from the river Nile.
Water Matters , Episode II 1-29-2016 Prof Sarah Meyland on Managing Long Isl...Save The Great South Bay
Long Island does nothing to manage its drinking water supply, even as we are poisoning it with toxic spills and wasting it through overuse, chiefly by wasting it on our lawns. We need at last to have a policy, or risk the future of our aquifer, and of Long Island itself.
evaluation of water resources in wadi el natrun, western desert, egyptIJEAB
Groundwater of the Pliocene aquifer in Wadi El Natrun area represents the primary source of reliable water for drinking and agriculture uses. This research focuses on the study of the different sources of water in the study area and determines the origin and quality of this waterand also is interested in studying hydrogeochemical processes that affect them and the movement of water through the analysis and determine the activity of different elements, and also to changes in hypothetical salts with the direction of water flow in three sectors of the region and the statement of the most important geochemical processes that occur. Finally it is evaluated the suitability of the water for different purposes. The results show that, there is a zonation of chemical composition; this zonation is characterized by a change of cation species from dominantly Ca and Mg near the east to Na-dominated waters in the west. Mirroring this, anions change from HCO3 type to Cl and SO4 type.The ions displays two grades of metasomatism along flow path, first the stage of mineralization(HCO3>Cl>So4) at the east then the advanced stage of mineralization (Cl>SO4 >HCO3) at the west. According to the(W.H.O.2005), 45 % of tested groundwater samples are permissible for drinking. Most groundwater samples of the Pliocene according to SAR andRSC are suitable for irrigation purposes under normal condition, but all surface water samples (lakes) are saline water,so it is not valid for drinking or irrigation purposes.
By Zahir-ul Haque Khan, Sarafat Hossain Khan, Dr. M. Shah Alam Khan, Farhana Akter Kamal, Nasim Al Azad Khan
Revitalizing the Ganges Coastal Zone Conference
21-23 October 2014, Dhaka, Bangladesh
http://waterandfood.org/ganges-conference/
Scenario of Water Bodies (Lakes) In Urban Areas- A case study on Bellandur La...IOSR Journals
Abstract: Environment is made up of natural factors like air, water and land. Each and every human activities
supports directly/indirectly by natural factors. India is facing a problem of natural resource scarcity, especially
of water in view of population growth and economic development. Due to growth of Population, advancement in
agriculture, urbanization and industrialization has made surface water pollution a great problem and decreased
the availability of drinking water. Many parts of the world face such a scarcity of water. Lakes are important
feature of the Earth’s landscape which are not only the source of precious water, but provide valuable habitats
to plants and animals, moderate hydrological cycles, influence microclimate, enhance the aesthetic beauty of
the landscape and extend many recreational opportunities to humankind .For issues, perspectives on pollution,
restoration and management of Bellandur Lake Falls under Bangalore Metropolitan city is very essential to
know their status but so far, there was no systematic environmental study carried out. Hence now the following
studies are essential namely Characteristics, Status, Effects (on surrounding Groundwater, Soil, Humans
health, Vegetables, Animals etc.,), resolving the issues of degradation, preparation of conceptual design for
restoration and management.
Water Worries -- Nitrogen From Septic Tanks, Fertilizer, Poor Sewage Treatmen...Save The Great South Bay
Prof Christopher Gobler of Stony Brook University, a global expert on algal blooms and their causes, presents his overview of Long Island's nitrogen pollution problem and how that is triggering destructive algal blooms throughout our bays. The main culprit? 500,000 septic tanks.
Water resources constraints in fruit productionPankaj Meena
Water Resources Constraints in Fruit Production, Water resources in India and Rajasthan, Fruit production in water stress condition, Water harvesting techniques, Measurement of Soil moisture.
Invited plenary talk given by Prof. Farid El-Daoushy at Inter. Radiation Protection Congress, Afrirpa-2010, Sept. 2010, Nairobi, Kenya.
This talk summarizes the sources, processes and fate of environmental radioactivity (natural and artificial) at the earth\'s surface. It links environmental radioactivity to radiation and environmental protection issues in Africa. The role of global and regional processes on the transport and accumulation of anthropogenic waste in complex ecosystems, e.g. the Nile Basin, are described. These issues help fulfilling the African mission and vision for achieving their golals: ONE PEOPLE, ONE GOAL, ONE FAITH.
An Evaluation of Heavy Metals Concentration in the Choba Section of the New ...Scientific Review SR
Assessment of heavy metals concentration in water and sediments of the Choba section of the New
Calabar River, Eastern Niger Delta were carried out. Seven (7) river sediments and twelve (12) surface water
samples were collected for the study. The heavy metals studied were: Mn, Pb, Zn, Fe, Cd, Cr, and Cu for in both
river sediment and surface water. The World Health Organization (WHO) standards were used in evaluating
Pollution Index (PI) of heavy metals in surface water. The Pollution Load Index (PLI) level of river sediments
ranged from 5.12 – 33.26, with only PLI values <1 considered unpolluted. The other samples analyzed revealed
high pollution levels, with Cu, Cr and Mn having moderate to considerable Contamination Factor levels, while
the others were of low levels. For surface water, Pb and Zn had high Pollution Index values, with Pb having PI
values ranging 10 – 211, with considerable contribution of pollutants from anthropogenic activities into the river.
There is urgent need for regular monitoring of the Choba section of the River. The regulatory government agency
responsible for protecting the environment should also pay adequate attention to this stretch of the river to avoid
further contamination.
ASSESSMENT OF DAMS’ TROPHIC STATUS AS A TOOL FOR WATER RESOURCES’ SUSTAINABLE...IAEME Publication
The Bouhouda’s dam was built on Oued Sra, a tributary on the right bank of Ouergha wadi, about 18 km in the north of Taounate town. The waters of this dam are mainly intended for irrigation and drinking water supply (Ministry of town planning and urban planning, 2014). The aim of this paper is to study the quality and the spatio-temporal evolution of the physicochemical of this dam waters parameters of over a period of eight years (2000/2008) in order to have a better knowledge of the mechanisms and the factors that condition the eutrophication of this lake. A classification has been established based on the Carlson index (1977) (Trophic State Index or TSI) and the Vollenweider index (1968), to identify the trophic state of the reservoir waters. Accordingly, these results can be used for decision support in the context of sustainable development of several nearby dams in the Sbou Basin.
The River Nile delta shallow lakes namely, Edku, Burullus and Manzala are natural wetland ecosystems, connected to fresh water sources at the south and to the open sea at the north. Throughout their relatively short geological and hydrological history, the lakes received unpolluted fresh water from the river Nile.
Water Matters , Episode II 1-29-2016 Prof Sarah Meyland on Managing Long Isl...Save The Great South Bay
Long Island does nothing to manage its drinking water supply, even as we are poisoning it with toxic spills and wasting it through overuse, chiefly by wasting it on our lawns. We need at last to have a policy, or risk the future of our aquifer, and of Long Island itself.
evaluation of water resources in wadi el natrun, western desert, egyptIJEAB
Groundwater of the Pliocene aquifer in Wadi El Natrun area represents the primary source of reliable water for drinking and agriculture uses. This research focuses on the study of the different sources of water in the study area and determines the origin and quality of this waterand also is interested in studying hydrogeochemical processes that affect them and the movement of water through the analysis and determine the activity of different elements, and also to changes in hypothetical salts with the direction of water flow in three sectors of the region and the statement of the most important geochemical processes that occur. Finally it is evaluated the suitability of the water for different purposes. The results show that, there is a zonation of chemical composition; this zonation is characterized by a change of cation species from dominantly Ca and Mg near the east to Na-dominated waters in the west. Mirroring this, anions change from HCO3 type to Cl and SO4 type.The ions displays two grades of metasomatism along flow path, first the stage of mineralization(HCO3>Cl>So4) at the east then the advanced stage of mineralization (Cl>SO4 >HCO3) at the west. According to the(W.H.O.2005), 45 % of tested groundwater samples are permissible for drinking. Most groundwater samples of the Pliocene according to SAR andRSC are suitable for irrigation purposes under normal condition, but all surface water samples (lakes) are saline water,so it is not valid for drinking or irrigation purposes.
By Zahir-ul Haque Khan, Sarafat Hossain Khan, Dr. M. Shah Alam Khan, Farhana Akter Kamal, Nasim Al Azad Khan
Revitalizing the Ganges Coastal Zone Conference
21-23 October 2014, Dhaka, Bangladesh
http://waterandfood.org/ganges-conference/
Scenario of Water Bodies (Lakes) In Urban Areas- A case study on Bellandur La...IOSR Journals
Abstract: Environment is made up of natural factors like air, water and land. Each and every human activities
supports directly/indirectly by natural factors. India is facing a problem of natural resource scarcity, especially
of water in view of population growth and economic development. Due to growth of Population, advancement in
agriculture, urbanization and industrialization has made surface water pollution a great problem and decreased
the availability of drinking water. Many parts of the world face such a scarcity of water. Lakes are important
feature of the Earth’s landscape which are not only the source of precious water, but provide valuable habitats
to plants and animals, moderate hydrological cycles, influence microclimate, enhance the aesthetic beauty of
the landscape and extend many recreational opportunities to humankind .For issues, perspectives on pollution,
restoration and management of Bellandur Lake Falls under Bangalore Metropolitan city is very essential to
know their status but so far, there was no systematic environmental study carried out. Hence now the following
studies are essential namely Characteristics, Status, Effects (on surrounding Groundwater, Soil, Humans
health, Vegetables, Animals etc.,), resolving the issues of degradation, preparation of conceptual design for
restoration and management.
Water Worries -- Nitrogen From Septic Tanks, Fertilizer, Poor Sewage Treatmen...Save The Great South Bay
Prof Christopher Gobler of Stony Brook University, a global expert on algal blooms and their causes, presents his overview of Long Island's nitrogen pollution problem and how that is triggering destructive algal blooms throughout our bays. The main culprit? 500,000 septic tanks.
Water resources constraints in fruit productionPankaj Meena
Water Resources Constraints in Fruit Production, Water resources in India and Rajasthan, Fruit production in water stress condition, Water harvesting techniques, Measurement of Soil moisture.
Invited plenary talk given by Prof. Farid El-Daoushy at Inter. Radiation Protection Congress, Afrirpa-2010, Sept. 2010, Nairobi, Kenya.
This talk summarizes the sources, processes and fate of environmental radioactivity (natural and artificial) at the earth\'s surface. It links environmental radioactivity to radiation and environmental protection issues in Africa. The role of global and regional processes on the transport and accumulation of anthropogenic waste in complex ecosystems, e.g. the Nile Basin, are described. These issues help fulfilling the African mission and vision for achieving their golals: ONE PEOPLE, ONE GOAL, ONE FAITH.
An Evaluation of Heavy Metals Concentration in the Choba Section of the New ...Scientific Review SR
Assessment of heavy metals concentration in water and sediments of the Choba section of the New
Calabar River, Eastern Niger Delta were carried out. Seven (7) river sediments and twelve (12) surface water
samples were collected for the study. The heavy metals studied were: Mn, Pb, Zn, Fe, Cd, Cr, and Cu for in both
river sediment and surface water. The World Health Organization (WHO) standards were used in evaluating
Pollution Index (PI) of heavy metals in surface water. The Pollution Load Index (PLI) level of river sediments
ranged from 5.12 – 33.26, with only PLI values <1 considered unpolluted. The other samples analyzed revealed
high pollution levels, with Cu, Cr and Mn having moderate to considerable Contamination Factor levels, while
the others were of low levels. For surface water, Pb and Zn had high Pollution Index values, with Pb having PI
values ranging 10 – 211, with considerable contribution of pollutants from anthropogenic activities into the river.
There is urgent need for regular monitoring of the Choba section of the River. The regulatory government agency
responsible for protecting the environment should also pay adequate attention to this stretch of the river to avoid
further contamination.
International Journal of Engineering Research and Development (IJERD)IJERD Editor
journal publishing, how to publish research paper, Call For research paper, international journal, publishing a paper, IJERD, journal of science and technology, how to get a research paper published, publishing a paper, publishing of journal, publishing of research paper, reserach and review articles, IJERD Journal, How to publish your research paper, publish research paper, open access engineering journal, Engineering journal, Mathemetics journal, Physics journal, Chemistry journal, Computer Engineering, Computer Science journal, how to submit your paper, peer reviw journal, indexed journal, reserach and review articles, engineering journal, www.ijerd.com, research journals,
yahoo journals, bing journals, International Journal of Engineering Research and Development, google journals, hard copy of journal
Assessment of Mercurity Toxicity Hazard Associated with Former Cinnabar Mining and Tailings Disposal in Honda Bay, Palawan
T M Williamd, J M Weeks, A Apostol, C Miranda
British Geological Survey
WC/96/31/R
The Northern Lakes and Surrounding Plains in the Nile Delta, Egypt How Are Th...ijtsrd
In addition to the consensus of scientists, environmental experts, fisheries and beach research in Egypt about the pollution of the northern lakes in the Egyptian delta and the collapse of its ecosystem as a result of using these lakes as a permanent drain for agricultural, health and industrial wastewater untreated for the delta governorates surrounding the lakes the continuous drying processes in the Manzala lakes Burullus, Mariout and Idku, which the government undertakes on the one hand, and individuals on the other hand, have caused a change in the morphology of the lakes and a reduction in their areas, ranging between 46 and 83 of their original areas. Drying and filling works are still going on for these lakes, without taking into account the new climatic conditions that have hit the world, which in turn will lead to a rise in the global sea level MGSL during this century by an amount that may reach a maximum of one meter. This will result in the invasion of all the northern lakes of the Nile Delta, in addition to the surrounding dry low plains along the northern coast of the delta, and then the invasion of all the areas that were previously deducted and drained from the lakes with their urban, agricultural and industrial projects, as well as the remaining submerged areas of these lakes, which in turn will lose their characteristics to become part of the Mediterranean. This study aims to determine the quantitative and qualitative size of the certain risks that will face the northern lakes and the plains surrounding them in the Nile delta as a result of the global rise in sea level during this century, the coastal threat sources and the traditional defensive policies that must be followed to avoid all these risks. Khaled Abdel-Kader Ouda "The Northern Lakes and Surrounding Plains in the Nile Delta, Egypt: How Are They Now and How Will They Are in Light of Climate Changes" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-6 | Issue-6 , October 2022, URL: https://www.ijtsrd.com/papers/ijtsrd52183.pdf Paper URL: https://www.ijtsrd.com/other-scientific-research-area/geology/52183/the-northern-lakes-and-surrounding-plains-in-the-nile-delta-egypt-how-are-they-now-and-how-will-they-are-in-light-of-climate-changes/khaled-abdelkader-ouda
Marine pollution is the introduction by man, directly or indirectly, of substances or energy into the marine environment (including estuaries), resulting in such deleterious effects as: harm to living resources; hazards to human health; hindrance to marine activities including fishing; impairing the quality for use of sea water and reduction of amenities
International journal of science technologyMiftahur Rizqi
Sand is an important mineral for our society in protecting the
environment, where this practice of sand and soil mining is becoming an
environmental issue as the demand for sand increases in industry and construction.
Mining and its associated activities can be responsible for considerable
environmental damage. In this article we are discussing about the direct and indirect
impacts due to soil and sand mining to the environment in Indian regions. Pollution
of the water is evident by the colouration of water which in most of the rivers and
streams in the mining area varies from brownish to reddish orange. Low pH (between 2-
3), high electrical conductivity, high concentration of ions of sulphate and iron and toxic
heavy metals, low dissolved oxygen (DO) and high BOD are some of the physicochemical
and biological parameters which characterize the degradation of water quality.
Contamination of Acid Mine Drainage (AMD) originating from mines and spoils,
leaching of heavy metals, organic enrichment and silting by sand particles are major
causes of degradation of water quality.
"Understanding the Carbon Cycle: Processes, Human Impacts, and Strategies for...MMariSelvam4
The carbon cycle is a critical component of Earth's environmental system, governing the movement and transformation of carbon through various reservoirs, including the atmosphere, oceans, soil, and living organisms. This complex cycle involves several key processes such as photosynthesis, respiration, decomposition, and carbon sequestration, each contributing to the regulation of carbon levels on the planet.
Human activities, particularly fossil fuel combustion and deforestation, have significantly altered the natural carbon cycle, leading to increased atmospheric carbon dioxide concentrations and driving climate change. Understanding the intricacies of the carbon cycle is essential for assessing the impacts of these changes and developing effective mitigation strategies.
By studying the carbon cycle, scientists can identify carbon sources and sinks, measure carbon fluxes, and predict future trends. This knowledge is crucial for crafting policies aimed at reducing carbon emissions, enhancing carbon storage, and promoting sustainable practices. The carbon cycle's interplay with climate systems, ecosystems, and human activities underscores its importance in maintaining a stable and healthy planet.
In-depth exploration of the carbon cycle reveals the delicate balance required to sustain life and the urgent need to address anthropogenic influences. Through research, education, and policy, we can work towards restoring equilibrium in the carbon cycle and ensuring a sustainable future for generations to come.
UNDERSTANDING WHAT GREEN WASHING IS!.pdfJulietMogola
Many companies today use green washing to lure the public into thinking they are conserving the environment but in real sense they are doing more harm. There have been such several cases from very big companies here in Kenya and also globally. This ranges from various sectors from manufacturing and goes to consumer products. Educating people on greenwashing will enable people to make better choices based on their analysis and not on what they see on marketing sites.
Characterization and the Kinetics of drying at the drying oven and with micro...Open Access Research Paper
The objective of this work is to contribute to valorization de Nephelium lappaceum by the characterization of kinetics of drying of seeds of Nephelium lappaceum. The seeds were dehydrated until a constant mass respectively in a drying oven and a microwawe oven. The temperatures and the powers of drying are respectively: 50, 60 and 70°C and 140, 280 and 420 W. The results show that the curves of drying of seeds of Nephelium lappaceum do not present a phase of constant kinetics. The coefficients of diffusion vary between 2.09.10-8 to 2.98. 10-8m-2/s in the interval of 50°C at 70°C and between 4.83×10-07 at 9.04×10-07 m-8/s for the powers going of 140 W with 420 W the relation between Arrhenius and a value of energy of activation of 16.49 kJ. mol-1 expressed the effect of the temperature on effective diffusivity.
WRI’s brand new “Food Service Playbook for Promoting Sustainable Food Choices” gives food service operators the very latest strategies for creating dining environments that empower consumers to choose sustainable, plant-rich dishes. This research builds off our first guide for food service, now with industry experience and insights from nearly 350 academic trials.
Artificial Reefs by Kuddle Life Foundation - May 2024punit537210
Situated in Pondicherry, India, Kuddle Life Foundation is a charitable, non-profit and non-governmental organization (NGO) dedicated to improving the living standards of coastal communities and simultaneously placing a strong emphasis on the protection of marine ecosystems.
One of the key areas we work in is Artificial Reefs. This presentation captures our journey so far and our learnings. We hope you get as excited about marine conservation and artificial reefs as we are.
Please visit our website: https://kuddlelife.org
Our Instagram channel:
@kuddlelifefoundation
Our Linkedin Page:
https://www.linkedin.com/company/kuddlelifefoundation/
and write to us if you have any questions:
info@kuddlelife.org
Willie Nelson Net Worth: A Journey Through Music, Movies, and Business Venturesgreendigital
Willie Nelson is a name that resonates within the world of music and entertainment. Known for his unique voice, and masterful guitar skills. and an extraordinary career spanning several decades. Nelson has become a legend in the country music scene. But, his influence extends far beyond the realm of music. with ventures in acting, writing, activism, and business. This comprehensive article delves into Willie Nelson net worth. exploring the various facets of his career that have contributed to his large fortune.
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Introduction
Willie Nelson net worth is a testament to his enduring influence and success in many fields. Born on April 29, 1933, in Abbott, Texas. Nelson's journey from a humble beginning to becoming one of the most iconic figures in American music is nothing short of inspirational. His net worth, which estimated to be around $25 million as of 2024. reflects a career that is as diverse as it is prolific.
Early Life and Musical Beginnings
Humble Origins
Willie Hugh Nelson was born during the Great Depression. a time of significant economic hardship in the United States. Raised by his grandparents. Nelson found solace and inspiration in music from an early age. His grandmother taught him to play the guitar. setting the stage for what would become an illustrious career.
First Steps in Music
Nelson's initial foray into the music industry was fraught with challenges. He moved to Nashville, Tennessee, to pursue his dreams, but success did not come . Working as a songwriter, Nelson penned hits for other artists. which helped him gain a foothold in the competitive music scene. His songwriting skills contributed to his early earnings. laying the foundation for his net worth.
Rise to Stardom
Breakthrough Albums
The 1970s marked a turning point in Willie Nelson's career. His albums "Shotgun Willie" (1973), "Red Headed Stranger" (1975). and "Stardust" (1978) received critical acclaim and commercial success. These albums not only solidified his position in the country music genre. but also introduced his music to a broader audience. The success of these albums played a crucial role in boosting Willie Nelson net worth.
Iconic Songs
Willie Nelson net worth is also attributed to his extensive catalog of hit songs. Tracks like "Blue Eyes Crying in the Rain," "On the Road Again," and "Always on My Mind" have become timeless classics. These songs have not only earned Nelson large royalties but have also ensured his continued relevance in the music industry.
Acting and Film Career
Hollywood Ventures
In addition to his music career, Willie Nelson has also made a mark in Hollywood. His distinctive personality and on-screen presence have landed him roles in several films and television shows. Notable appearances include roles in "The Electric Horseman" (1979), "Honeysuckle Rose" (1980), and "Barbarosa" (1982). These acting gigs have added a significant amount to Willie Nelson net worth.
Television Appearances
Nelson's char
Natural farming @ Dr. Siddhartha S. Jena.pptxsidjena70
A brief about organic farming/ Natural farming/ Zero budget natural farming/ Subash Palekar Natural farming which keeps us and environment safe and healthy. Next gen Agricultural practices of chemical free farming.
2. The cyanidation plants operate in a hilly region and due to the
scarcity of flat areas the mining facilities and cyanidation plants are
built directly on the river banks and as a consequence cyanidation
plants respond for ±80% of the sediment slurry laden by mining ac-
tivities to the river (Prodeminca, 1998). In May 2011, over 110 cyani-
dation plants were operating in the region, releasing estimated
880.000 t/a of tailings into the river (Veiga, 2011). The Puyango
river flows into the Tumbes River that reaches the Pacific Ocean,
transporting mining-derived metals to the coastal areas, affecting
mangroves and large shrimp farms. Studies in the 70s and 80s have
estimated that about 289 kg of Hg was annually discharged into the
Calera River in Portovelo–Zaruma (Prodeminca, 1998) and recently
Velasquez-Lopez et al. (2010) estimated an annual discharge of
430 kg of Hg.
Betancourt et al. (2005) studied the impact of mining on environ-
ment and human health along the Puyango river basin, documenting
the occupational exposure to Pb and Hg in the upper basin, where
the intake of fish and river water are low, and the high exposure to
lead in the semi-arid lower basin, where the population relies heavily
on the river for fish and water supply. They found very low suspended
particle loads upstream the mining area, ranging from 1.6 to
3.0 mg·L−1
depending on the season, while near the processing
plants, levels ranged 132–328 mg·L−1
, and similar profiles were
found for metals in river sediments, with maximum mercury concen-
trations of 0.061 μg·g−1
upstream mining activities and 0.730 μg·g−1
downstream.
However, Roulet et al., 2006 found that methylmercury was at least
one order of magnitude lower in sediments downstream the mining
area when compared to levels upstream or in small tributaries unaffect-
ed by mining activities, both as absolute concentrations or as % of total
mercury and raised the hypothesis that gold mining could be reducing
methylmercury. Mercury is converted from Hg (II) to methylmercury
by microbiological activity and such low methylmercury concentrations
and percentages suggest a very low availability of mercury, possibly due
to its binding to sulfur, abundant in the processed ore and hence in the
mining effluents, and/or a strong inhibition of microbiological activity
due to the very high cyanide concentrations in these effluents. For the
present study we returned to the region in 2009 to test the second hy-
pothesis, measuring cyanide and bacterial activity in water along the
Puyango river basin, as well as bacterial activity and mercury net meth-
ylation potentials in bottom sediments, in three reference stations up-
stream the mining area and four stations downstream.
2. Materials and methods
2.1. Study area and sampling sites
The Puyango River crosses southern Ecuador from NE to SW from
the Andes' western foothills to the border with Peru, where it changes
its name to Tumbes River, before finally reaching the Pacific Ocean
(Fig. 1).
The Upper Basin of the Puyango includes the Zaruma and Porto-
velo mining and urban centers (stations 4) and the reference sam-
pling stations upstream (stations 1 to 3): it is a temperate humid
region. The Middle Basin includes Puyango Viejo and Marcabelí and
it is a sub-tropical humid region, while the Lower Basin (Gramadal-
Las Vegas and Chaguarhuaycu) is a tropical semi-arid region. The
Upper Basin has around 42,000 inhabitants while the middle and
lower parts of the Basin are scarcely populated. The river is an impor-
tant source of fish and drinking water for communities living in the
semi-arid Lower Basin while the towns of Zaruma and Portovelo in
the upper basin draw their drinking water from small Puyango tribu-
taries. Agriculture and cattle are the predominant economic activities
in the Lower and Middle Basin, aside from gold mining. The reference
stations 1 to 3 are almost pristine and range 1550 to 1820 m in alti-
tude with little or no agriculture upstream. The waters carry very lit-
tle suspended particulate matter and support a varied fauna of birds,
macroinvertebrates and fish. In contrast, stations 4 and 5 are under
the direct influence of untreated urban sewage and of mining efflu-
ents, showing very high levels of particulate matter and cyanide, Pb,
Cd, Mn and Hg among other metals, leading to a severe reduction in
the density and diversity of the aquatic fauna. The latter parameters
Fig. 1. Map of the study area and sampling stations, Puyango river basin, Ecuador.
5027J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
3. increase only in farthest downstream station 7, at 155 m of altitude
on the semi-arid coastal plain. Our sampling stations covered a
145 km stretch of the Puyango River basin. Inventories of benthic
macro-invertebrate river fauna at background sites by Tarras-
Wahlberg et al. (2001) showed the existence of 17 taxa in the
upper Calera, and 13–23 taxa in uncontaminated stretches of the
Pindo river but even as far as 160 km downstream the mining area
only 5 taxa were found.
Fig. 2 shows the altimetric profile of the Puyango basin, illustrating
its high turbulence – and therefore turbulence – in the higher and
middle basin and Fig. 3 shows the typical dry season pattern for sus-
pended particulate matter load in water across the study region, as
measured during the dry season of year 2000 by Betancourt et al.,
2005. The different measurements described herein were made in
the 2009 dry season.
2.2. In-situ measurement of cyanide in water
Free cyanide was measured in-situ, immediately after sampling,
on a Hach field spectrophotometer model DR 2010 using the manu-
facturer reagent kit (Pyridene-Pyrazolone method, Hach reference
8027). This method is based on the chlorination of cyanide and
the subsequent reaction of the product with a mixed solution of
pyridinepyrazolone to form a stable complex dye. The method can
be used to quantify total cyanide if samples are submitted to a pre-
vious distillation step. This was not possible in our field conditions,
therefore the presented data refer to free and/or simple cyanides
only.
Measurements were made both on unfiltered and on 0.22 μm-
filtered water samples. The detection limit of the method was
1 μg·L−1
. Measurements of successive aliquots of the same sample of
unfiltered or filtered water deviated by less than 2%. Free cyanide con-
centrations in the first two stations downstream the processing plants
region were so high that a 20 to 50 fold sample dilution with distilled
water was required to fall within the measuring range.
2.3. Bacterioplankton activity essays
The procedure for bacterial activity measurements was based on the
method described by Kirchman et al. (1985), modified by Miranda et al.
(2007). It consists of measuring the incorporation of radiolabeled leu-
cine into bacterial protein over time (Kirchman et al., 1985). Unfiltered
water samples of 1 mL were incubated in the dark for 1 h with 20 μL of a
3
H-leucine solution with a specific activity of 2020 mCi·mmol−1
and a
leucine final concentration of 100 nM. For each sampling point, 2 con-
trols killed with 50 μL of 37% formol and 4 samples were incubated. In-
cubations were stopped by addition of 50 μL of 37% formol and samples
and controls were kept frozen until protein extraction.
2.4. Bottom sediment bacterial activity essays
Flocculent surface bottom sediments were sampled with a peristal-
tic pump and essayed immediately after sampling, by mixing 100 μL of
Fig. 2. Altimetric profile of the Puyango river basin.
Fig. 3. Variation of the suspended particle load (mg·L−1
) along the Puyango river
study area, November 2000.
From Betancourt et al. (2005).
5028 J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
4. sediment suspension with 900 μL of river water previously filtered in
0.22 μm membrane filters. Essays were started by the addition of
20 μL of a 3
H-leucine solution with a specific activity of 20 mCi·
mmol−1
and a leucine concentration of 10 μmol. The other incubation
conditions were as described above for water essays.
2.5. Protein extraction from water and sediment samples
The bacterial radiolabeled protein extraction was done as de-
scribed by Miranda et al. (2007) with slight changes in water and sed-
iment sample extraction procedure, as follows.
2.5.1. Water samples
After the incubation, 60 μL of 100% Trichloroacetic Acid (±5%,
final concentration) was added to the microcentrifuge tubes for the
precipitation of the proteins. The samples were kept in room temper-
ature for 30 min and then centrifuged (14,000 rpm, 10 min). After
centrifugation, the supernatant was aspirated carefully. Then 1 mL
5% TCA was added to the pellet, followed by homogenization for
10 s in a vortex, centrifugation and supernatant removal as above. A
last clean-up step consisted of adding 1 mL ice-cold 80% ethanol, ho-
mogenization and centrifugation as above. The supernatant was aspi-
rated and 1 mL of a scintillation cocktail was added to the samples.
After 2 days in the dark, the samples were radioassayed by liquid
scintillation counting (Perkin Elmer Tricarb 2800). Dpm data, cor-
rected for quenching, were used to calculate bacterial carbon produc-
tion (μgC·L−1
·h−1
).
2.5.2. Sediment samples
After the end of incubation samples were sonicated in an ultrason-
ic bath for 10 min to detach bacterial cells. After sonication, the sam-
ples were centrifuged (2500 rpm, 15 min). The supernatant (900 μL)
was recovered, transferred to new tubes and 60 μL of 100% Trichlor-
oacetic Acid (±5%, final concentration) was added. The samples
were kept in room temperature for 30 min and then centrifuged
(14,000 rpm, 10 min). After centrifugation, the supernatant was aspi-
rated carefully. Then 1 mL 5% TCA was added to the pellet, followed
by homogenization for 10 s in a vortex, centrifugation and superna-
tant removal as above. A last clean up step consisted of adding 1 mL
ice-cold 80% ethanol, homogenization and centrifugation. The super-
natant was aspirated and 1 mL of a scintillation cocktail was added to
the samples. After 2 days in the dark, the samples were radioassayed
by liquid scintillation counting (Perkin Elmer Tricarb 2800). Dpm
data, corrected for quenching, were used to calculate bacterial carbon
production (μgC·mg wet weight·h−1
).
The relative standard error in the analysis of 4 water or sediment
aliquots was respectively b20 and b30% of the average.
2.6. Methylmercury production essays in sediments
Hg methylation potentials were measured by means of a simplified
radiochemical technique consisting of in-situ sample incubation with
low amounts of 203
Hg2+
and extraction of formed Me203
Hg in toluene
and quantification by liquid scintillation counting (Guimarães et al.,
1995). Fresh sediment samples, equivalent to 0.5 g dry weight were in-
cubated in the dark with 30 mL of river water, in acid-washed Teflon®
screw-capped 40 mL tubes. All incubations started in the field within a
few hours after sampling. Duplicates and an acidified control, with 1 mL
of 4 N HCl, received 203
Hg, added as 203
HgCl2, obtained from Eckert-
Ziegler, USA, and corresponding to 24 ng Hg·g sample dry weight−1
.
The 203
Hg stock solution was prepared in deionized water and kept at
near 0 °C. Prior to each incubation series its activity was measured on
a portable liquid scintillation detector (Triathler Hidex, model 425-
004) and the added volumes of the 203
Hg solution were corrected, if
necessary, to keep addition levels at 3500 dpm. After 24 h of incubation,
Hg methylation was stopped by addition of 1 mL of 4 N HCl and samples
were frozen until MeHg extraction, performed within 15 days after in-
cubations. Me203
Hg was leached with 4 mL of 3 M NaBr in 11% H2SO4
and 1 mL of 0.5 M CuSO4: after five minutes of shaking, the samples
were centrifuged and the supernatant (~25 ml) was transferred to
60 mL glass separatory funnels and shaken for 15 min with 10 mL of
scintillation cocktail (7 g·L−1
POP (2,5-diphenyloxazole) and 1 g·L−1
POPOP [1,4-bis-2-(5-phenyloxazolyl)-benzene] in 1 L of toluene). The
aqueous phase was discarded and the overlying toluene layer trans-
ferred to glass tubes for centrifugation at 3000 rpm for 5 min. The
clean toluene was shaken in a vial with 0.5 g of anhydrous Na2SO4 to re-
move traces of water containing inorganic 203
Hg and transferred to
clean scintillation vials for measurement on a Perkin Elmer Tricarb
2800 liquid scintillation detector. Dpm data, corrected for decay, extrac-
tion efficiency and quenching were used to calculate Me203
Hg as a per-
centage of total added 203
Hg2+
. The relative standard error for
measurements on triplicate samples was ~20%.
3. Results
As expected, free cyanide was not detectable (b1 μg·L−1
) in unfil-
tered water from the three upstream stations and reached
280 μg·L−1
in the most impacted station situated 2.5 km down-
stream the last cyanidation plant (Fig. 4). Despite the strong declivity
of the river basin, as illustrated in Fig. 2, and hence the high turbu-
lence of the river, free cyanide is still at 48 μg·L−1
at station 6,
~80 km downstream the source, and becomes undetectable only
after further 35 km, indicating that the high river turbulence was
not enough to oxidize all free cyanide.
At stations 4, 5 and 6, in addition to unfiltered water, free cyanide
was also measured in samples filtered through 0.2 μm membrane filters
and in the three locations 50% of free cyanide in unfiltered water was in
the dissolved phase, therefore readily bioavailable. Our data suggests
that during the dry season, when dilution of mining effluents is reduced
and mining activity increased, cyanide in water is far above suggested
limits for approximately 100 km downstream the mining areas.
Environment Canada (1995) suggests a 24 h maximum of 3.5 μg·L−1
free cyanide and the United States Environmental Protection Agency
(1988) a limit of 5.2 μg·L−1
total cyanide. If the Puyango river water
2.5 km downstream the last cyanidation plant was considered as a
mining effluent, its cyanide concentration would represent 14% of the
upper limit set for this compound in the current Canadian metal mining
effluent regulations (Minister of Justice, Canada, 2002). Our results are
comparable to those reported by Tarras-Wahlberg et al. (2001) in the
same river basin. The latter also measured cyanide during the raining
season, finding lower concentrations but still often above the limits at
60 km downstream. In our data, a marked decrease in free cyanide is
found between stations 6 and 7, from 48 to 2 μg·L−1
. These stations
are in the coastal plain and the longer river water transit time, com-
bined with warmer temperatures, probably favors cyanide decomposi-
tion, due to degradation by bacteria and photochemical processes. Total
cyanide was not measured in this work and the method we used is
unable to recover cyanide that is complexed with metals, including
Hg, or other compounds, so that total cyanide in the Puyango river is
certainly well above the figures presented here.
Bacterial activity in water along the Puyango river basin
shows contrasting patterns when expressed on sample volume basis
(Fig. 5 A) or sample amount of suspended particles (Fig. 5 B).
When expressed on a volume basis, the data suggest an increase in
activity in the stations downstream the mining area, but this is mis-
leading as most bacteria in water are attached to organic or inorganic
particles and the activity per cell is much higher in attached than in
free bacteria (Haglund et al., 2002). Consequently, the graph A ex-
presses the huge increase in suspended sediment load and urban
waste introduced in the river just upstream station 4, as seen in
Fig. 3, rather than a variation in activity per bacterial biomass unit, a
parameter that was unfortunately not measured in this study. In
5029J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
5. contrast, the graph B, describing activity expressed on basis of the
amount of suspended particles, shows a steep decrease in activity in
stations downstream the mining area, consistent with the intense
point sources of toxic mining waste, especially cyanide. As we did
not measure the suspended particles loads in this study, the data in
graph B were calculated using the data from a 2004 sampling cam-
paign done during the same period of the hydrological cycle, i.e. the
dry season.
Hg methylation potentials and bacterial activity in sediments vary
in the same fashion from station to station, with net methylation po-
tentials of up to 22% in reference stations, falling to b0.2% in the two
first stations downstream the processing plants, and reaching 19% in
the most downstream station (Fig. 6).
Bacterial production followed the same pattern, though it remained
detectable in stations 4 and 5, where net methylation was undetectable.
Hg methylation potentials and bacterial production in sediments pre-
sented a significant positive correlation (R2
=0.68, pb0.022, Fig. 7).
Downstream the processing plant area, the graphs for bacterial
activity and net methylation in sediments are almost a mirror
image of the one for cyanide in water, that in turn has similarities
with the ones observed in the same season for metals in suspended
solids or bottom sediments by Tarras-Wahlberg et al. (2001) and
Betancourt et al. (2005). The similarity is due to their common
source and to the probable formation of cyanide/metal complexes.
Cyanide is a strong metal ligand, which explains its use in the min-
ing industry. However, released together, cyanide and metals drift
downstream where cyanide will eventually decompose and release
the metals.
The very similar longitudinal profiles of net Hg methylation and bac-
terial activity in sediments advocates for a microbiological Hg methyla-
tion process. The methylation potentials measured here in the upper
basin stations are higher than found in all previous measurements in
sediments from different aquatic systems in Brazil and Bolivia
(Guimarães et al., 2000) however the latter did not include temperate
humid systems such as the ones in the upper Puyango basin.
4. Discussion
We used two radiotracer techniques and a conventional field spec-
trophotometric one to simultaneously measure free cyanide, bacterial
activity in water and sediment and net mercury methylation in sedi-
ments along a 140 km stretch of the Puyango river basin. Previous
work by our team (Betancourt et al., 2005) and other researchers has
shown the significant impact of mining on this river basin, due to inputs
of cyanide and of high loads of suspended material with high concentra-
tions of metals such as Hg, Cd, Pb, Cu, Mn and Zn. The apparent paradox
observed by Roulet et al. (2006) of high total Hg concentrations but very
low MeHg concentrations in stations downstream the mining area lead
us to investigate the impact of mining effluents on bacterial activity and
microbial mercury methylation on the same river stretch. Our data
show the suppression or drastic decrease of bacterial activity and mer-
cury methylation in water and sediment downstream the mining area,
where free dissolved cyanide concentrations are highest, and recovery
of these parameters in the stations at greater distances from the pollu-
tion sources, where cyanide is lower or undetectable. This suggests that
cyanide toxicity for bacteria reduced their activity and consequently mi-
crobial mercury methylation. However, though the reduced bacterial
activity alone could explain the reduction in mercury methylation, the
latter can also be reduced by factors other than cyanide toxicity for mi-
crobes. The formation of both cyanide–Hg complexes and of sulfur–Hg
complexes reduces Hg (II) availability for methylation. Accordingly,
Tarras-Wahlberg et al. (2001) found that though sediments were
enriched in mercury throughout the Puyango middle and lower basin,
the proportions of reactive Hg were very low. Roulet et al. (2006)
showed that Hg and S correlated positively in sediments and suspended
particles downstream the mining areas of the same river stretch as
herein, both in the dry and wet seasons (Fig. 8). Another factor that
may contribute to a low availability of Hg downstream gold mining
fields is the formation of micro-droplets of metallic Hg onto hydrous
iron oxides and clay minerals (Meech et al., 1998). In a previous unpub-
lished work in the region we found less total Hg in the piscivorous fish
Fig. 4. Total cyanide (μg·L−1
) in unfiltered water of the Puyango river, measured by in-situ spectrophotometry.
5030 J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
6. Brycon atrocaudatus in the middle Puyango basin (0.8 μg·g−1
wet
weight, N=8) than in the lower basin (1.5 μg·g−1
wet weight,
N=14), (Barriga R et al. in prep.). Unfortunately, no data are available
so far on the speciation of Hg in fish from the Puyango river, including
MeHg or other organic and inorganic Hg compounds, in particular
cyanide–Hg complexes, that may be directly bioaccumulated
(Velásquez-López et al., 2011).
In the local ore, gold is indeed associated to S-rich minerals, but
the presence of carbonate rocks and the low residence time of mining
tailings on the river banks do not favor the production of acid mine
Fig. 5. Bacterial activity in water of the Puyango river expressed on a volume (graph A, μgC·L−1
·h−1
) and SPM mass (graph B, μgC·mg ww−1
·h−1
) basis.
5031J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
7. drainage, and previous work in the region by Roulet et al. (2006)
showed that water pH was lower (6.3–7.0) in reference upstream
points than 2.5 to 110 km downstream the mines (6.6–8.1). In the ab-
sence of prevalent acid mine drainage, cyanide alone could explain
the eradication of the aquatic biota in stations downstream the min-
ing area but the impact of increased metal concentrations and of the
direct dumping of nearly a million t of tailings per annum in the
river certainly plays a relevant role. In fact, in gold mining areas
where amalgamation or processes other than cyanidation are used
for gold recovery, the finding of significant MeHg concentrations
and MeHg/total Hg ratios downstream the mines is rather the rule
than the exception, as reported by Gray et al. (2002) in Suriname,
Gray et al. (2004) in Almaden, Spain, Stamenkovic et al. (2004) in
Nevada, USA, Johnson et al. (2009) in California, USA, and Boudou
et al. (2005) in French Guyana, to cite a few. Even in active or histor-
ical mining sites where sulfide concentrations are higher, reducing Hg
reactivity, enhanced methylation may be found further downstream
(Domagalski, 2001).
In our study site, as put by Tarras-Wahlberg et al. (2001) “Eluci-
dating the relative severity of impact of the mining related contami-
nants is made difficult by the fact that cyanide, mercury and metal
rich tailings are present together in the affected rivers”. However,
the same authors measured cyanide and metals in two different
branches of the Puyango basin with similar metal concentrations
but with cyanide concentrations differing by one to two orders of
magnitude and suggest that cyanide rather than metals would ex-
plain the eradication of biota on long river stretches. Our data show-
ing the strong inhibition of bacterial activity downstream the mining
area gives additional support to this hypothesis.
5. Conclusion
The inhibition of MeHg formation on a long river stretch down-
stream a gold mining area is a peculiar finding that reflects the interplay
of ecosystem characteristics and human activities, with implications for
health. It may explain, together with the low fish intake, the low total
mercury in human hair in the basin (mean 1.17 μg·g−1
). Though
Fig. 6. Hg methylation potentials (% of total 203
Hg·g dry weight−1
·day−1
) and bacterial production (μgC·mg wet weight−1
·h−1
) in bottom sediments along the Puyango river basin.
Fig. 7. Hg methylation potentials plotted against bacterial production, sediments of the
Puyango river basin.
Fig. 8. Total Hg and Sulfur in suspended particles along the Puyango river Basin in the
dry and wet seasons.
From Roulet et al. (2006).
5032 J.R.D. Guimaraes et al. / Science of the Total Environment 409 (2011) 5026–5033
8. toxic by itself, cyanide ironically seems to reduce mercury toxicity, by
reducing MeHg formation and consequently mercury bioavailability to
the local population.
However, we showed here that when reaching the coastal plain, the
Puyango river shows no detectable cyanide in water and that mercury
methylation in its sediments returns to levels comparable to the ones
in pristine stations. In contrast with pristine stations, the coastal plain
sediments and suspended particles are rich in mercury, and further
downstream, intensive shrimp farming is the main economic activity,
in a potential conflict between two activities of comparable economic
importance to Ecuador.
Acknowledgments
This study was financially supported by the International Develop-
ment Research Center (IDRC) of Canada (Grant 04291/98-0232), and
CAPES (Coordenaçao de Aperfeiçoamento de Pessoal de Ensino Superi-
or) and CNPq (Conselho Nacional de Desenvolvimento Cientifico e Tec-
nologico) from Brazil. The support of the riverine population of the
study area was appreciated, as well as the suggestions on the manu-
script by Marcelo Veiga, UBC (Canada).
This work is dedicated in the memory of our colleague and very
close friend Marc Roulet, (1967–2006), a distinguished biogeochemist
at Institut de Recherche pour le Developpement, La Paz, Bolivia, who en-
thusiastically participated in this project.
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