References
- Willis, B. E.; Bishop, W. M. Understanding Fate and Effects of Copper Pesticides in Aquatic Systems. GEP 2016, 04, 37–42. DOI: https://doi.org/10.4236/gep.2016.45004.
- Mahamoud Ahmed, A.; Lyautey, E.; Bonnineau, C.; Dabrin, A.; Pesce, S. Environmental Concentrations of Copper, Alone or in Mixtures with Arsenic, Can Impact River Sediment Microbial Community Structure and Functions. Front. Microbiol 2018, 9, 1852–1873. DOI: https://doi.org/10.3389/fmicb.2018.01852.
- Hall, L. W.; Scott, M.; Killen, W. D. A Screening Level Probabilistic Ecological Risk of Copper and Cadmium in the Chesapeake Bay Watershed; Report US EPA; Chesapeake Bay Program Office, Annapolis, MD, 1997.
- European Food Safety Authority (EFSA). Statement of the PPR Panel on a Framework for Conducting the Environmental Risk Assessment for Transition Metals When Used as Active Substances in Plant Protection Products (PPP); Report prepared for the European Commission by the EFSA. DOI 102903/j.efsa.201Y.xxxx. 2020.
- Murad, E.; Fischer, W. R. Mineralogy and Heavy Metal Contents of Soils and Stream Sediments in a Rural Region of Western Germany. Geoderma 1978, 21, 133–145. DOI: https://doi.org/10.1016/0016-7061(78)90022-8.
- Zachman, D. W.; Block, R. Studies of the Availability of Toxic Heavy Elements in Soils and Sediments in the Vicinity of a Lead Smelting Site (Germany). Water Air Soil Pollut 1994, 78, 317–334. DOI: https://doi.org/10.1007/BF00483040.
- Wennrich, R.; Mattusch, J.; Morgenstern, P.; Freyer, K.; Treutler, H.-C.; Stark, H.-J.; Bruggemann, L.; Paschke, A.; Daus, B.; Weiss, H. Characterization of Sediments in an Abandoned Mining Area; a Case Study of Mansfield Region, Germany. Environ. Geol. 2004, 45, 818–833. DOI: https://doi.org/10.1007/s00254-003-0942-7.
- Reimann, C. Comparison of Stream Sediment and Soil Sampling for Regional Exploration in the Eastern Alps, Austria. Journal of Geochemical Exploration 1988, 31, 75–85. DOI: https://doi.org/10.1016/0375-6742(88)90038-6.
- Grillitsch, B.; Chovanec, A. Heavy Metals and Pesticides in Anuran Spawn and Tadpoles, Water and Sediment. Toxicology and Environmental Chemistry 1995, 50, 131–155. DOI: https://doi.org/10.1080/02772249509358210.
- N'guessan, Y. M.; Probst, J. L.; Bur, T.; Probst, A. Trace Elements in Stream Bed Sediments from Agricultural Catchments (Gascogne Region, S-W France): Where Do They Come from? Sci. Total Environ. 2009, 407, 2939–2952. DOI: https://doi.org/10.1016/j.scitotenv.2008.12.047.
- Kronvang, B. A.; Laubel, A.; Larsen, S. E.; Friberg, N. Pesticides and Heavy Metals in Danish Streambed Sediment. Hydrobiologia 2003, 494, 93–101. DOI: https://doi.org/10.1023/A:1025441610434.
- Fernandez, D.; Voss, K.; Bundschuh, M.; Zubrod, J. P.; Schafer, R. B. Effects of Fungicides on Decomposer Communities and Litter Decomposition in Vineyard Streams. Sci. Total Environ. 2015, 533, 40–48. DOI: https://doi.org/10.1016/j.scitotenv.2015.06.090.
- Bereswill, R.; Golla, B.; Streloke, M.; Schulz, R. Entry and Toxicity of Organic Pesticides and Copper in Vineyard Streams: Erosion Rills Jeopardise the Efficiency of Riparian Buffer Strips. Agriculture, Ecosystems and Environment 2012, 146, 81–92. DOI: https://doi.org/10.1016/j.agee.2011.10.010.
- Hall, L. W.; Killen, W. D.; Anderson, R. D.; Alden, R. W. I. The Relationship of Benthic Community Metrics to Pyrethroids, Metals, and Sediment Characteristics in Cache Slough, California. Journal of Environmental Science and Health, Part A 2016, 51, 154–163. DOI: https://doi.org/10.1080/10934529.2015.1087744.
- California Department of Fish and Wildlife. Atlas of the Biodiversity of California, Biogeographic Data Branch, Sacramento, CA. 2003.
- Pernigotto, G.; Gasparella, A. 2018 Classification of European Climates for Building Energy Simulation Analysis. International High Performance Building Conference, Purdue University, West Lafayette, IN Paper 300.
- International Soil Reference and Information Centre. Reference Soil Spain: Eutric Vertisol, Wageningen University and Research in Wageningen, the Netherlands, website:https://museum.isric.org/content/welcome-isric-world-soil-museum. 2021.
- U. S. Department of Agriculture, Natural Resources Conservation Service. State Soil Geographic (STATSGO2) data base for California: website https://databasin.org/datasets/1ff4328039f948529c33e7e71bb9b5fc/.1994.
- Hall, L. W. Summary Cache Slough Copper Use Data; Report for Albaugh; University of Maryland, Zurich, Switzerland, 2021.
- Hall, L. W.; Dauer, D. M.; Alden, R. W.; III; Uhler, A. D.; DiLoranzo, J.; Burton, D. T.; Anderson, R. D. An Integrated Case Study for Evaluating the Impacts of an Oil Refinery Effluent on Aquatic Biota in the Delaware River: Sediment Quality Triad Studies. Human Ecol. Risk Assess 2005, 11, 657–770.
- https://www.cnrfc.noaa.gov/rainfalldata.php.
- Machado, W.; Moscatelli, M.; Rezende, L. G.; Lacerda, L. D. Mercury, Zinc, and Copper Accumulation in Mangrove Sediments Surrounding a Large Landfill in Southeast Brazil. Environ Pollut 2002, 120, 455–461.
- Mackie, K. A.; Muller, T.; Zikeli, S.; Kandeler, E. Long-Term Copper Application in an Organic Vineyard Modifies Spatial Distribution of Soil Micro-Organisms. Soil Biol. Biochem. 2013, 65, 245–253. DOI: https://doi.org/10.1016/j.soilbio.2013.06.003.
- Baddar, Z. E.; Peck, E.; Xu, X. Temporal Dispersion of Copper and Zinc in the Sediments of Metal Removal Constructed Wetlands. PLoS One. 2021, 16, e0255527. DOI: https://doi.org/10.1371/journal.pone.0255527.
- Gianessi, L. P.; Reigner, N. The values of fungicides in U. S. Crop Production. CropLife Foundation. www.croplifefoundation.org. 2005
- Gianessi, L. P.; Williams, A. Fungicides have protected European wine grapes for 150 years. Report CropLife International, Washington, D.C, 2011
- Han, F. X.; Hargreaves, J. A.; Kingery, W. L.; Huggett, D. B.; Schlenk, D. K. Accumulation, Distribution and Toxicity of Copper in Sediments of Catfish Ponds Receiving Periodic Copper Sulfate Applications. J. Environ. Qual. 2001, 30, 912–919.