Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 1 of 1
Full-Text Articles in Biology
Snails From Heavy-Metal Polluted Environments Have Reduced Sensitivity To Carbon Dioxide-Induced Acidity, Hugh Lefcort, David A. Cleary, Aaron M. Marble, Morgan V. Phillips, Timothy J. Stoddard, Lara M. Tuthill, James R. Winslow
Snails From Heavy-Metal Polluted Environments Have Reduced Sensitivity To Carbon Dioxide-Induced Acidity, Hugh Lefcort, David A. Cleary, Aaron M. Marble, Morgan V. Phillips, Timothy J. Stoddard, Lara M. Tuthill, James R. Winslow
Biology Faculty Scholarship
Anthropogenic atmospheric CO2 reacts with water to form carbonic acid (H2CO3) which increases water acidity. While marine acidification has received recent consideration, less attention has been paid to the effects of atmospheric carbon dioxide on freshwater systems—systems that often have low buffering potential. Since many aquatic systems are already impacted by pollutants such as heavy metals, we wondered about the added effect of rising atmospheric CO2 on freshwater organisms. We studied aquatic pulmonate snails (Physella columbiana) from both a heavy-metal polluted watershed and snails from a reference watershed that has not experienced mining pollution. We used gaseous CO2 …