A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
[PDF][PDF] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash… - Conservation …, 2014 - academic.oup.com
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
[HTML][HTML] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash… - Conservation …, 2014 - ncbi.nlm.nih.gov
Ocean acidification, resulting from increasing anthropogenic CO 2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
[PDF][PDF] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash, SA Watson… - researchgate.net
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
[PDF][PDF] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash, SA Watson… - core.ac.uk
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DD Heinrich, JL Rummer, AJ Morash, SA Watson… - 2014 - hero.epa.gov
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental C [O. sub. 2]
DDU Heinrich, JL Rummer, AJ Morash… - Conservation …, 2014 - go.gale.com
Ocean acidification, resulting from increasing anthropogenic C [O. sub. 2] emissions, is
predicted to affect the physiological performance of many marine species. Recent studies …
predicted to affect the physiological performance of many marine species. Recent studies …
A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2.
DD Heinrich, JL Rummer, AJ Morash… - Conservation …, 2014 - europepmc.org
Ocean acidification, resulting from increasing anthropogenic CO 2 emissions, is predicted to
affect the physiological performance of many marine species. Recent studies have shown …
affect the physiological performance of many marine species. Recent studies have shown …
[PDF][PDF] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash, SA Watson… - pdfs.semanticscholar.org
H. ocellatum individuals to control (390 µatm) or one of two near-future CO2 treatments (600
or 880 µatm) for a minimum of 60 days and then measured key aspects of their respiratory …
or 880 µatm) for a minimum of 60 days and then measured key aspects of their respiratory …
[PDF][PDF] A product of its environment: the epaulette shark (Hemiscyllium ocellatum) exhibits physiological tolerance to elevated environmental CO2
DDU Heinrich, JL Rummer, AJ Morash, SA Watson… - academia.edu
Ocean acidification, resulting from increasing anthropogenic CO2 emissions, is predicted to
afect the physiological performance of many marine species. Recent studies have shown …
afect the physiological performance of many marine species. Recent studies have shown …