Comparison of two modeling frameworks for unifying the toxicant‐affected percentage of aquatic species, individuals, and time into a single metric

Author:

Delos Charles G.1ORCID

Affiliation:

1. Great Lakes Environmental Center Traverse City Michigan USA

Publisher

Wiley

Subject

General Environmental Science,General Medicine,Geography, Planning and Development

Reference19 articles.

1. Delos C. G.(2020).Modeling frameworks for assessing aquatic population effects from time‐variable exposure to toxicants.https://doi.org/10.13140/RG.2.2.30323.55843/1 https://www.researchgate.net/publication/342081896_Modeling_Frameworks_for_Assessing_Aquatic_Population_Effects_from_Time-Variable_Exposure_to_Toxicants?channel=doi%26linkId=6148ea353c6cb310697fcbc5%26showFulltext=true

2. FISH RECRUITMENT IS INFLUENCED BY RIVER FLOWS AND FLOODPLAIN INUNDATION AT APALACHICOLA RIVER, FLORIDA

3. Erickson R.(2015). Applying the assemblage toxicity index concept to assessing the risk of atrazine to aquatic plant communities.https://www.epa.gov/sites/default/files/2016-01/documents/06_erickson_2015alwqcmeeting_atrazineatitalk_secure.pdf

4. Erickson R. J.(2007).Quantification of toxic effects for water‐concentration‐based aquatic life criteria; Part A(EPA/600/R‐07/065). National Health and Environmental Effects Laboratory US EPA Duluth MN.

5. Faruggia F. T. Rossmeisi C. M. Hetrick J. A. &Biscoe M.(2016).Refined ecological risk assessment for Atrazine. USEPA Office of Pesticide Programs Washington DC.https://www.regulations.gov/document/EPA-HQ-OPP-2013-0266-0315

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