Add to ORKGAcute toxicity tests. with 18 structure-activity chemicals and fathead minnows (Pimephales promelas) as test organisms were completed during the quarter. Tests with o-nitrobenzaldehyde, 2-decanone, and diethyl adipate were rep ated for a check on reproducioility of r sults. Analytical methods for 5 additional chemicals were developed during the quarter
The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects...
Quantitative structure-activity relationships (QSARs) for ecotoxicity can be used to fill data gaps ...
Quantitative Structure-Activity relationship (QSAR) attempt statistically to relate the physico-chem...
Acute toxicity tests with the fathead minnow (Pimephales promela s) as test organism were completed ...
Abstract—In the field of aquatic toxicology, quantitative structure–activity relationships (QSARs) h...
An approach to predict acute aquatic toxicity, in the form of a quantitative structure-activity-acti...
' Considerable progress has been made in recent years in assessing the risk of individual ch...
Seven-day acute renewal toxicity_ tests were conducted using the fathead minnow (Pimephales promel...
The Center for Lake Superior Environmental Studies of the University of Wisconsin-Superior, Superior...
The Center for Lake Superior Environmental Studies of the University of Wisconsin-Superior, Superi...
Functional similarity of chemicals combines toxicological knowledge (which toxicity pathways can hap...
The development of models to predict important environmental properties is easily recognised in the ...
Bioassay procedures to describe, evaluate, and predict the potential hazard of toxic materials to or...
A model based on a Group Contribution Method (GCM) approach developed to correlate aquatic toxicity ...
Herein, we propose models for predicting fish early-life stage (ELS) toxicity from acute Daphnia mag...
The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects...
Quantitative structure-activity relationships (QSARs) for ecotoxicity can be used to fill data gaps ...
Quantitative Structure-Activity relationship (QSAR) attempt statistically to relate the physico-chem...
Acute toxicity tests with the fathead minnow (Pimephales promela s) as test organism were completed ...
Abstract—In the field of aquatic toxicology, quantitative structure–activity relationships (QSARs) h...
An approach to predict acute aquatic toxicity, in the form of a quantitative structure-activity-acti...
' Considerable progress has been made in recent years in assessing the risk of individual ch...
Seven-day acute renewal toxicity_ tests were conducted using the fathead minnow (Pimephales promel...
The Center for Lake Superior Environmental Studies of the University of Wisconsin-Superior, Superior...
The Center for Lake Superior Environmental Studies of the University of Wisconsin-Superior, Superi...
Functional similarity of chemicals combines toxicological knowledge (which toxicity pathways can hap...
The development of models to predict important environmental properties is easily recognised in the ...
Bioassay procedures to describe, evaluate, and predict the potential hazard of toxic materials to or...
A model based on a Group Contribution Method (GCM) approach developed to correlate aquatic toxicity ...
Herein, we propose models for predicting fish early-life stage (ELS) toxicity from acute Daphnia mag...
The use of Quantitative Structure-Activity Relationships in assessing the potential negative effects...
Quantitative structure-activity relationships (QSARs) for ecotoxicity can be used to fill data gaps ...
Quantitative Structure-Activity relationship (QSAR) attempt statistically to relate the physico-chem...