Nietch, C.T.; Smucker, N.J.; Gains-Germain, L.; Peck, C.P.; Guglielmi, S.; DeCelles, S.; Lazorchak, J.; Johnson, B.; Weaver, P.
Using Single-Species and Whole Community Stream Mesocosm Exposures for Identifying Major Ion Effects in Doses Mimicking Resource Extraction Wastewaters. Water 2023, 15, 249.
https://doi.org/10.3390/w15020249
AMA Style
Nietch CT, Smucker NJ, Gains-Germain L, Peck CP, Guglielmi S, DeCelles S, Lazorchak J, Johnson B, Weaver P.
Using Single-Species and Whole Community Stream Mesocosm Exposures for Identifying Major Ion Effects in Doses Mimicking Resource Extraction Wastewaters. Water. 2023; 15(2):249.
https://doi.org/10.3390/w15020249
Chicago/Turabian Style
Nietch, Christopher T., Nathan J. Smucker, Leslie Gains-Germain, Christopher P. Peck, Stefania Guglielmi, Susanna DeCelles, James Lazorchak, Brent Johnson, and Paul Weaver.
2023. "Using Single-Species and Whole Community Stream Mesocosm Exposures for Identifying Major Ion Effects in Doses Mimicking Resource Extraction Wastewaters" Water 15, no. 2: 249.
https://doi.org/10.3390/w15020249
APA Style
Nietch, C. T., Smucker, N. J., Gains-Germain, L., Peck, C. P., Guglielmi, S., DeCelles, S., Lazorchak, J., Johnson, B., & Weaver, P.
(2023). Using Single-Species and Whole Community Stream Mesocosm Exposures for Identifying Major Ion Effects in Doses Mimicking Resource Extraction Wastewaters. Water, 15(2), 249.
https://doi.org/10.3390/w15020249