DOTS

ERED

Environmental Residue-Effects Database

US Army Corps of Engineers ERDC Dredging Operations Technical Support

USACE


Field Name Description
% Effect   The magnitude of the effect (e.g., % mortality; change in weight; change in length; percent hatch; etc.). 
Analyte   The chemical substance used to create the exposure.  
CAS   CAS registry number is a unique numerical identifier assigned by Chemical Abstract Service (CAS) to a chemical substance.  
COLL  Where the animal was obtained: C (cultured-reared in laboratory); W (collected from wild); N/I (No Information); N/R (Not Reported). 
Comments  Commonly supports the effects data. 
Common name  Common name of the test animal. 
Control   The control response for the observed effect (e.g., survival, growth, reproduction; etc.). 
Dose  The frequency with which the contaminant was applied during the test. 
Duration   The duration of the exposure period: hr (hours); d (days) wk (weeks), mo (months), yr (years). 
Effect   The type of toxicological effect observed in the test animal (e.g., survival, growth, reproduction). 
ERED ID  Unique identification number autogenerated by database. 
ExpConc  The exposure concentration and units. 
Fraction   The test animal tissue used to determine tissue residue (e.g., whole body, soft tissue, liver, etc.). 
Genus Species   Scientific name of the test animal. 
Media  Type of water used to test animal: FW (freshwater); SW (saltwater) 
Mix   Whether the analyte was tested as part of a mixture of analytes or individually: yes (part of mixture), no (single), or N/I (No information). 
Risk   Summary of the risk (e.g., ED, NOED, LOED) an analyte might pose to the test animal. Previously, many risk numbers were assigned to results. Going forward ERED will not report a risk number unless it is reported in the study.  
Route   The route by which the analyte was intended to enter the body: aquatic; diet; injection. 
Signif   Whether the effect was significantly different, usually compared to the control for laboratory studies: Yes (significant); No (not significant). 
Source  Reference from which data was obtained. 
Spiked  Whether the analyte was spiked into the route (aquatic, diet, sediment, injection): yes (analyte spiked), no (analyte not spiked) 
ST  Study type: L (Lab); F (Field); L/F (Lab/Field); Meso (Mesocosm); Micro (Microcosm); N/I (No Information). 
Stage   Life stage of the test animal (e.g., egg, larval, juvenile, adult). 
Tissue ww (mg/kg)   Tissue residue of analyte in the test animal tissue (mg/kg wet weight). 
Trend   The trend of the effect, usually compared to the control for laboratory studies: INC (increase); DEC (decrease), NEF (No effect). 

You are viewing Arthropoda: Invert (insects, crustaceans) and Pesticides-insecticides

Genus Species ERED ID ST Common Stage COLL Analyte CAS MX SPK H2O Route CONC Dose DUR Residue
mg/kg ww
Fraction Effect Trend Signif % Effect Control Risk Comments Source
Chironomus riparius 5772 L midge larvae W Aldrin 309-00-2 N Y FW aqueous 20 µg/L 1x 2 hr 0.8 whole body behavior INC N/R 50-75% N/R N/R Impaired mobility; assumed residue was wet weight Estenik and Collins. 1979. In vivo and in vitro studies of mixed fu...
Chironomus sp. 4564 L midge larvae W Aldrin 309-00-2 N Y FW aqueous 21.3 ng/L continuous 3 d 0.096 whole body accumulation INC N/R N/I N/R N/R rapid direct uptake from water and magnification of aldrin Johnson et al. 1971. Biological magnification and degradation.... J Fish Res Board Can 28:705-709.
Chironomus riparius 1376 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 61 µg/L N/I 24 hr 1.05 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1377 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 96 µg/L N/I 24 hr 1.05 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1378 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 110 µg/L N/I 24 hr 1.18 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1379 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 71 µg/L N/I 24 hr 1.36 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1380 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 110 µg/L N/I 24 hr 1.84 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1381 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 133 µg/L N/I 24 hr 2.01 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1382 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 128 µg/L N/I 24 hr 2.06 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1383 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 107 µg/L N/I 24 hr 2.17 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 1384 L midge larvae N/I Carbaryl 63-25-2 N N/I N/I aqueous 133 µg/L N/I 24 hr 2.21 whole body physiological N/I N/I N/I N/I ED 50 failure to execute 3 figure-8 motions Lohner and Fisher. 1990. Effects of pH and temperature on the acu.... Aquat Toxicol 16:335-354.
Chironomus riparius 9724 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 0.535 mg/L N/I N/I 0.4 whole body mortality N/I N/I N/I N/I LD 4th instar larvae; time to death Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 9725 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 0.535 mg/L N/I N/I 0.4 whole body mortality N/I N/I N/I N/I LD 3rd instar larvae; time to death Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 9726 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 0.535 mg/L N/I N/I 0.6 whole body mortality N/I N/I N/I N/I LD 2nd instar larvae; time to death Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 9727 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 240 ng/L N/I N/I 0.1 whole body mortality N/I N/I N/I N/I NOEC 4th instar larvae Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 9728 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 240 ng/L N/I N/I 0.15 whole body mortality N/I N/I N/I N/I NOEC 3rd instar larvae Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 9729 L midge larvae N/I Chlorpyrifos 2921-88-2 N N/I N/I aqueous 240 ng/L N/I N/I 0.24 whole body mortality N/I N/I N/I N/I NOEC 2nd instar larvae Buchwalter et al. 2004. Roles of uptake, biotransformation, and .... Aquat Toxicol 66:129-157.
Chironomus riparius 5771 L midge larvae W Dieldrin 60-57-1 N Y FW aqueous 20 µg/L 1x 2 hr 1.9 whole body mortality INC N/R 100% N/R N/R 100% mortality; assumed residue was wet weight Estenik and Collins. 1979. In vivo and in vitro studies of mixed fu...