Environmental Engineering Reference
In-Depth Information
Giesy JP, Odum EP (1980) Microcosmology: the theoretical basis. In: Giesy JP (ed) Microcosms
in ecological research. Department of Energy Technical Information Center, Oak Ridge, TN,
pp 1-13
Giesy JP, Solomon KR, Coates JR, Dixon KR, Giddings JM, Kenaga EE (1999) Chlorpyrifos:
ecological risk assessment in North American aquatic environments. Rev Environ Contam
Toxicol 160:1-129
Graney RA, Giesy JP, DiToro D (1989) Mesocosm experimental design strategies: advantages and
disadvantages in ecological risk assessment. In: Voshell JR Jr (ed) Using mesocosms to assess
the aquatic ecological risk of pesticides: theory and practice. Entomological Society of
America, Lanham, MD, pp 74-88
Graney RL, Giesy JP, Clark JR (1995) Field studies. In: Rand GM (ed) Fundamentals of aquatic
toxicology: effects, environmental fate and risk assessment. Taylor & Francis, Bristol, PA,
pp 257-305
Hall L Jr, Anderson RD (2012) Historical trends analysis of 2004 to 2009 toxicity and pesticide
data for California's Central Valley. J Environ Sci Health A 47:801-811
Hurlburt SH, Mulla MS, Keith JO, Westlake WE, Dhsch ME (1970) Biological effects and persis-
tence of Dursban in freshwater ponds. J Econ Entomol 63:43-52
Hurlburt SH, Mulla MS, WilIson HR (1972) Effects of an organophosphorus insecticide on the
phytoplankton, zooplankton and insect populations of fresh-water ponds. Ecol Monogr
42:269-299
Kavitha P, Rao JV (2008) Toxic effects of chlorpyrifos on antioxidant enzymes and target enzyme
acetylcholinesterase interaction in mosquito fi sh,
Gambusia affi nis
. Environ Toxicol Pharmacol
26:192-198
Klimisch H-J, Andreae M, Tillmann U (1997) A systematic approach for evaluating the quality of
experimental toxicological and ecotoxicological data. Regul Toxicol Pharmacol 25:1-5
Kumar A, Doan H, Barnes M, Chapman JC, Kookana RS (2010) Response and recovery of acetyl-
cholinesterase activity in freshwater shrimp,
Paratya australiensis
(Decapoda: Atyidae)
exposed to selected anti-cholinesterase insecticides. Ecotoxicol Environ Saf 73:1503-1510
Laetz CA, Baldwin DH, Collier TK, Hebert V, Stark JD, Scholz NL (2009) The synergistic toxicity
of pesticide mixtures: implications for risk assessment and the conservation of endangered
Pacifi c salmon. Environ Health Perspect 117:348-353
Leeuwangh P (1994) Comparison of chlorpyrifos fate and effects in outdoor aquatic micro-and
mesocosms of various scale and construction. In: Hill IR, Heimbach F, Leeuwangh P,
Matthiesen P (eds) Freshwater fi eld tests for hazard assessment of chemicals. Lewis Publishers,
Boca Raton, FL, pp 217-248
LeNoir JS, McConnell LL, Fellers GM, Cahill TM, Seiber JN (1999) Summertime transport of
current-use pesticides from California's Central Valley to the Sierra Nevada mountain range,
USA. Environ Toxicol Chem 18:2715-2722
López-Mancisidor P, Carbonell G, Fernandez C, Tarazona JV (2008a) Ecological impact of
repeated applications of chlorpyrifos on zooplankton community in mesocosms under
Mediterranean conditions. Ecotoxicology 17:811-825
López-Mancisidor P, Carbonell G, Marina A, Fernandez C, Tarazona JV (2008b) Zooplankton
community responses to chlorpyrifos in mesocosms under Mediterranean conditions.
Ecotoxicol Environ Saf 71:16-25
Mackay D, Giesy JP, Solomon KR (2014) Fate in the environment and long-range atmospheric
transport of the organophosphorus insecticide, chlorpyrifos and its oxon. Rev Environ Contam
Toxicol 231:35-76
Maltby L, Blake NN, Brock TCM, van den Brink PJ (2005) Insecticide species sensitivity distribu-
tions: the importance of test species selection and relevance to aquatic ecosystems. Environ
Toxicol Chem 24:379-388
Metcalf RL, Sanborn JR (1975) Pesticides and environmental quality in Illinois. Ill Nat Hist Surv
Bull 31:381-436
Metcalf RL, Sanga GK, Kapoor IP (1971) Model ecosystems for the evaluation of pesticide biode-
gradability and ecological magnifi cation. Environ Sci Technol 5:709-713
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