Add to ORKGSpecies Sensitivity Distribution (SSD) is a key metric for understanding the potential ecotoxicological impacts of chemicals. However, SSDs have been developed to estimate for only handful of chemicals due to the scarcity of experimental toxicity data. Here we present a novel approach to expand the chemical coverage of SSDs using Artificial Neural Network (ANN). We collected over 2000 experimental toxicity data in Lethal Concentration 50 (LC50) for 8 aquatic species and trained an ANN model for each of the 8 aquatic species based on molecular structure. The R2 values of resulting ANN models range from 0.54 to 0.75 (median R2 = 0.69). We applied the predicted LC50 values to fit SSD curves using bootstrapping method, generating SSDs for 8424 ...
Most quantitative structure-activity relationship (QSAR) models are linear relationships and signifi...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...
Ecotoxicological safety assessment of chemicals requires toxicity data on multiple species, despite ...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
Humans are exposed to thousands of chemicals, including environmental chemicals. Unfortunately, litt...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
The present paper considers the collection and use of ecotoxicity data for risk assessment with Spec...
Machine Learning (ML) is increasingly applied to fill data gaps in assessments to quantify impacts a...
Machine Learning (ML) is increasingly applied to fill data gaps in assessments to quantify impacts a...
The present paper considers the collection and use of ecotoxicity data for risk assessment with Spec...
A species sensitivity distribution (SSD) is a probability model of the variation of species sensitiv...
Most quantitative structure-activity relationship (QSAR) models are linear relationships and signifi...
Life Cycle Assessment (LCA) is a tool that can be used to assess the impacts of chemicals over the e...
Most quantitative structure-activity relationship (QSAR) models are linear relationships and signifi...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...
Ecotoxicological safety assessment of chemicals requires toxicity data on multiple species, despite ...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
Humans are exposed to thousands of chemicals, including environmental chemicals. Unfortunately, litt...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
We applied machine learning methods to predict chemical hazards focusing on fish acute toxicity acro...
The present paper considers the collection and use of ecotoxicity data for risk assessment with Spec...
Machine Learning (ML) is increasingly applied to fill data gaps in assessments to quantify impacts a...
Machine Learning (ML) is increasingly applied to fill data gaps in assessments to quantify impacts a...
The present paper considers the collection and use of ecotoxicity data for risk assessment with Spec...
A species sensitivity distribution (SSD) is a probability model of the variation of species sensitiv...
Most quantitative structure-activity relationship (QSAR) models are linear relationships and signifi...
Life Cycle Assessment (LCA) is a tool that can be used to assess the impacts of chemicals over the e...
Most quantitative structure-activity relationship (QSAR) models are linear relationships and signifi...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...
Facing billions of tons of pollutants entering the ocean each year, aquatic toxicity is becoming a c...