Springer, New York. Environ Int 26 5—6 — Sci Rep 1 72 :1—9. Academic, Orlando.
Environmental Chemistry and Microbiology
Liminol Oceanogr — CrossRef. Recommendations for international geochemical mapping, earth science report Soil Use Manage — CrossRef. DOE Code of practice for agricultural use of sewage sludge. EA Soil guideline values for selenium in soil. Science report SC UK Environment Agency, Bristol. Fergusson JE The heavy elements: chemistry, environmental impact and health effects.
Pergamon, London. In: Davis BE ed Applied soil trace elements. Wiley, New York, pp — Sci Tot Environ 1—3 — Appl Geochem 15 1 — CrossRef. Sci Tot Environ 22 — CrossRef. British Geological Survey, Edinburgh. Franke KW A new toxicant occurring naturally in certain samples of plant foodstuffs. Results obtained in preliminary feeding trials. J Nutr — FSA Survey on measurement of the concentrations of metals and other elements from the UK total diet study.
Food Standards Agency, London. Food Add Contamin 26 7 — Geological Survey of Northern Ireland, Belfast. Plant Soil 1—2 — CrossRef. J Androl 22 5 — Haygarth PM Global importance and cycling of selenium. Marcel-Dekker, New York, pp 1— Hem J Study and interpretation of the chemical characteristics of natural water, water supply paper Geological Survey, Reston. Public Health Nutr 7 1 —43 CrossRef.
SSSA, Madison. Appl Geochem 15 3 — CrossRef. Proc Nutr Soc 69 1 — CrossRef. Kohrle J The trace element selenium and the thyroid gland.
- Corporate Governance in Banking: A Global Perspective.
- The History of Selenium Research.
- Soil Contamination, Risk Assessment and Remediation.
- Nerve and Muscle;
Biochimie 81 5 — CrossRef. Levander OA Selenium. In: Mertz W ed Trace elements in human and animal nutrition. Academic, London, pp — Heart 83 6 — CrossRef. Sci Tot Environ —— J Am Med Assoc 1 — Trace Elem Electrolytes 11 2 — Asian-Aust J Anim Sci 20 7 — Ministry of Agriculture Fisheries and Food, London.
Mayland HF Selenium in plant and animal nutrition. Marcel-Dekker, New York, pp 29— Moxon AL Alkali disease or selenium poisoning, Bulletin Moxon AL The effect of arsenic on the toxicity of seleniferous grains. Science CrossRef.
Food Chem 74 4 — CrossRef. Muth OH, Allaway WH The relationship of white muscle disease to the distribution of naturally occurring selenium. J Am Vet Med Assoc Neal RH Selenium. In: Alloway BJ ed Heavy metals in soils. Nriagu JO Occurrence and distribution of selenium. Nriagu JO Heavy metals in the environment, vol 1. CEP Consultants, Edinburgh. Oldfield JE Selenium world atlas. Selenium-Tellurium Development Association, Grimbergen.
Antioxid Redox Signal — CrossRef. Environ Health Perspect 4 — CrossRef. J Food Prot 63 11 — Elsevier, Amsterdam, pp 17— Geological Survey of the Slovak Republic, Bratislava. Rayman M Food-chain selenium and human health: emphasis on intake. Br J Nutr — Rayman M Selenium and human health. Lancet — CrossRef. Reilly C Selenium in food and health. Reimann C, Caritat P Chemical elements in the environment. Springer, Heidelberg CrossRef. Mercury flow through an Asian rice-based food web.
Harumain, ZAS. Rylott, EL. Nickless, EM. New Zealand Journal of Botany. Qiu, G. Total mercury and methylmercury concentrations over a gradient of contamination in earthworms living in rice paddy soil. Environmental Toxicology and Chemistry. Krisnayanti, BD. Phytomining for artisanal gold mine tailings management. Zhao, L. Mercury methylation in rice paddies and its possible controlling factors in the Hg mining area, Guizhou province, Southwest China. Mercury methylation in paddy soil: Source and distribution of mercury species at a Hg mining area, Guizhou Province, China.
Cadmium accumulation by forage species used in New Zealand livestock grazing systems. Van Der Ent, A. Mulligan, DR. Agromining: Farming for metals in the future?. Gregory, SJ. McManus, MT. Biochar in co-contaminated soil manipulates arsenic solubility and microbiological community structure, and promotes organochlorine degradation. Zhang, C. Effect of atmospheric mercury deposition on selenium accumulation in rice Oryza sativa L.
Robinson, BH. Phytoextraction: Where's the action?. Journal of Geochemical Exploration. Gold phytomining: A new idea for environmental sustainability in Indonesia. Indonesian Journal on Geoscience. Black, M. Getting to grips with copper chemistry. New Zealand Kiwifruit Journal. Effect of cropping systems on heavy metal distribution and mercury fractionation in the Wanshan mining district, China: Implications for environmental management.
Meng, B. Localization and speciation of mercury in brown rice with implications for pan-Asian public health. Prosser, JA. Can manuka Leptospermum scoparium antimicrobial properties be utilised in the remediation of pathogen contaminated land?. Soil Biology and Biochemistry.
Response of plant and soil microbes to biochar amendment of an arsenic-contaminated soil. Taylor, AF. Investigating the toxicity, uptake, nanoparticle formation and genetic response of plants to gold. Hunt, AJ. Clark, JH. Phytoextraction as a tool for green chemistry. Jeyakumar, P. Comparative tolerance of Pinus radiata and microbial activity to copper and zinc in a soil treated with metal-amended biosolids. Thiosulphate-induced mercury accumulation by plants: Metal uptake and transformation of mercury fractionation in soil - results from a field study.
Plant and Soil. Anderson, CW. Journal of Degraded and Mining Lands Management. Thiosulphate assisted phytoextraction of mercury contaminated soils at the Wanshan Mercury Mining District, Southwest China. Phytoextraction to promote sustainable development. Zhang, H. Larssen, T. Atmospheric mercury inputs in montane soils increase with elevation: Evidence from mercury isotope signatures. Scientific Reports. Bhatti, SM. Risk assessment of vegetables irrigated with arsenic-contaminated water. Environmental Sciences: Processes and Impacts. Indrayatie, ER. The use of vetiver Vetiveria zizanioides L.
International Journal of Environment and Waste Management. Anderson, CWN. In vivo effect of copper and silver on synthesis of gold nanoparticles inside living plants. Siswanto, B. Rehabilitation of artisanal gold mining land in West Lombok, Indonesia: Characterization of overburden and the surrounding soils. Journal of Geology and Mining Research. Liu, J. Prediction of methyl mercury uptake by rice plants Oryza sativa L. Assessment of environmental mercury discharge at a four-year-old artisanal gold mining area on Lombok Island, Indonesia.
Journal of Environmental Monitoring. Zinc-enriched and zinc-biofortified feed as a possible animal remedy in pastoral agriculture: Animal health and environmental benefits. Wilson-Corral, V. Gold phytomining.
A review of the relevance of this technology to mineral extraction in the 21st century. Journal of Environmental Management. Khan, RU. Response of Pinus radiata D. Don to Boron Fertilization in a Glasshouse Study. Communications in Soil Science and Plant Analysis. Implications of mercury speciation in thiosulfate treated plants. Remediation of mercury contaminated sites - A review. Journal of Hazardous Materials.
Mercury distribution in the soil-plant-air system at the Wanshan mercury mining district in Guizhou, Southwest China. Phytoextraction of gold and copper from mine tailings with Helianthus annuus L. Minerals Engineering. Dorling, SJ. Changes in 1-aminocyclopropanecarboxlate ACC oxidase expression and enzyme activity in response to excess manganese in white clover Trifolium repens L.
Plant Physiology and Biochemistry. Ammonium thiosulphate enhanced phytoextraction from mercury contaminated soil - Results from a greenhouse study.
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Prasetyo, B. Rehabilitation of artisanal mining gold land in West Lombok, Indonesia: 2. Arbuscular mycorrhiza status of tailings and surrounding soils. Journal of Agricultural Science. Bioavailability of copper and zinc to poplar and microorganisms in a biosolids-amended soil. Australian Journal of Soil Research. Moreno, FN. Analysis of mercury-rich plants and mine tailings using the hydride-generation AAS method.
Brazilian Archives of Biology and Technology. Bolan, NS. Revista de la Ciencia del Suelo y Nutricion Vegetal. Ko, BG. Potential for the phytoremediation of arsenic-contaminated mine tailings in Fiji. Copper and zinc spiking of biosolids: Effect of incubation period on metal fractionation and speciation and microbial activity.
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Phytofiltration of mercury-contaminated water: Volatilisation and plant-accumulation aspects. Environmental and Experimental Botany. Anderson, C. A field demonstration of gold phytoextraction technology. A comparative analysis of gold-rich plant material using various analytical methods.
Meech, JA. Effect of thioligands on plant-Hg accumulation and volatilisation from mercury-contaminated mine tailings. Mercury volatilisation and phytoextraction from base-metal mine tailings. Induced plant uptake and transport of mercury in the presence of sulphur-containing ligands and humic acid. New Phytologist. Stewart, RB. Erica andevalensis, a unique "copper flower" from Spain. Heathers 2: Yeabook of the Heather Society Biogeochemistry of gold: Accepted theories and new opportunities. Advances in Ecological Sciences.
Phytoremediation of mercury-contaminated mine tailings by induced plant-mercury accumulation. Environmental Practice. Keeling, SM. International Journal of Phytoremediation. Lamb, AE. The extraction of gold from plants and its application to phytomining. Chemistry in New Zealand.
Msuya, FA. Chemically-induced uptake of gold by root crops: Its significance for phytomining. Gold Bulletin. Brooks, R. Phytomining: Growing a crop of a metal. LaCoste, C. The phytoremediation potential of thallium-contaminated soils using Iberis and Biscutella species. Gold uptake by plants.
Phytomining for nickel, thallium and gold. Harvesting a crop of gold in plants . Book Anderson, CWN. Hyperaccumulation by plants. Phytoremediation of mercury-contaminated mine wastes. Mancini Eds. Environmental and Regional Air Pollution. Manipulating bioavailability to manage remediation of metal contaminated soils. Naidu Ed. Chemical bioavailability in terrestrial environments. Robinson, B. Phytoremediation in New Zealand and Australia.