Detecting the unexpected: A research framework for ocean acidification

Patrizia Ziveri; Catherine A. Pfister; Andrew J. Esbaugh; Christina A. Frieder; Hannes Baumann; Emily E. Bockmon; Meredith M. White; Brendan R. Carter; Heather M. Benway; Carol A. Blanchette; Emily Carrington; James B. McClintock; Daniel C. McCorkle; Wade R. McGillis; T. Aran Mooney

doi:10.1021/es501936p

Detecting the unexpected: A research framework for ocean acidification

Patrizia Ziveri, Catherine A. Pfister, Andrew J. Esbaugh, Christina A. Frieder, Hannes Baumann, Emily E. Bockmon, Meredith M. White, Brendan R. Carter, Heather M. Benway, Carol A. Blanchette, Emily Carrington, James B. McClintock, Daniel C. McCorkle, Wade R. McGillis, T. Aran Mooney

Research output: Contribution to journal › Article › Research › peer-review

35 Citations (Scopus)

Abstract

The threat that ocean acidification (OA) poses to marine ecosystems is now recognized and U.S. funding agencies have designated specific funding for the study of OA. We present a research framework for studying OA that describes it as a biogeochemical event that impacts individual species and ecosystems in potentially unexpected ways. We draw upon specific lessons learned about ecosystem responses from research on acid rain, carbon dioxide enrichment in terrestrial plant communities, and nitrogen deposition. We further characterize the links between carbon chemistry changes and effects on individuals and ecosystems, and enumerate key hypotheses for testing. Finally, we quantify how U.S. research funding has been distributed among these linkages, concluding that there is an urgent need for research programs designed to anticipate how the effects of OA will reverberate throughout assemblages of species. © 2014 American Chemical Society.

Original language	English
Pages (from-to)	9982-9994
Journal	Environmental Science and Technology
Volume	48
Issue number	17
DOIs	https://doi.org/10.1021/es501936p
Publication status	Published - 2 Sept 2014

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Ziveri, P., Pfister, C. A., Esbaugh, A. J., Frieder, C. A., Baumann, H., Bockmon, E. E., White, M. M., Carter, B. R., Benway, H. M., Blanchette, C. A., Carrington, E., McClintock, J. B., McCorkle, D. C., McGillis, W. R., & Mooney, T. A. (2014). Detecting the unexpected: A research framework for ocean acidification. Environmental Science and Technology, 48(17), 9982-9994. https://doi.org/10.1021/es501936p

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title = "Detecting the unexpected: A research framework for ocean acidification",

abstract = "The threat that ocean acidification (OA) poses to marine ecosystems is now recognized and U.S. funding agencies have designated specific funding for the study of OA. We present a research framework for studying OA that describes it as a biogeochemical event that impacts individual species and ecosystems in potentially unexpected ways. We draw upon specific lessons learned about ecosystem responses from research on acid rain, carbon dioxide enrichment in terrestrial plant communities, and nitrogen deposition. We further characterize the links between carbon chemistry changes and effects on individuals and ecosystems, and enumerate key hypotheses for testing. Finally, we quantify how U.S. research funding has been distributed among these linkages, concluding that there is an urgent need for research programs designed to anticipate how the effects of OA will reverberate throughout assemblages of species. {\textcopyright} 2014 American Chemical Society.",

author = "Patrizia Ziveri and Pfister, {Catherine A.} and Esbaugh, {Andrew J.} and Frieder, {Christina A.} and Hannes Baumann and Bockmon, {Emily E.} and White, {Meredith M.} and Carter, {Brendan R.} and Benway, {Heather M.} and Blanchette, {Carol A.} and Emily Carrington and McClintock, {James B.} and McCorkle, {Daniel C.} and McGillis, {Wade R.} and Mooney, {T. Aran}",

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Ziveri, P, Pfister, CA, Esbaugh, AJ, Frieder, CA, Baumann, H, Bockmon, EE, White, MM, Carter, BR, Benway, HM, Blanchette, CA, Carrington, E, McClintock, JB, McCorkle, DC, McGillis, WR & Mooney, TA 2014, 'Detecting the unexpected: A research framework for ocean acidification', Environmental Science and Technology, vol. 48, no. 17, pp. 9982-9994. https://doi.org/10.1021/es501936p

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T1 - Detecting the unexpected: A research framework for ocean acidification

AU - Ziveri, Patrizia

AU - Pfister, Catherine A.

AU - Esbaugh, Andrew J.

AU - Frieder, Christina A.

AU - Baumann, Hannes

AU - Bockmon, Emily E.

AU - White, Meredith M.

AU - Carter, Brendan R.

AU - Benway, Heather M.

AU - Blanchette, Carol A.

AU - Carrington, Emily

AU - McClintock, James B.

AU - McCorkle, Daniel C.

AU - McGillis, Wade R.

AU - Mooney, T. Aran

PY - 2014/9/2

Y1 - 2014/9/2

N2 - The threat that ocean acidification (OA) poses to marine ecosystems is now recognized and U.S. funding agencies have designated specific funding for the study of OA. We present a research framework for studying OA that describes it as a biogeochemical event that impacts individual species and ecosystems in potentially unexpected ways. We draw upon specific lessons learned about ecosystem responses from research on acid rain, carbon dioxide enrichment in terrestrial plant communities, and nitrogen deposition. We further characterize the links between carbon chemistry changes and effects on individuals and ecosystems, and enumerate key hypotheses for testing. Finally, we quantify how U.S. research funding has been distributed among these linkages, concluding that there is an urgent need for research programs designed to anticipate how the effects of OA will reverberate throughout assemblages of species. © 2014 American Chemical Society.

AB - The threat that ocean acidification (OA) poses to marine ecosystems is now recognized and U.S. funding agencies have designated specific funding for the study of OA. We present a research framework for studying OA that describes it as a biogeochemical event that impacts individual species and ecosystems in potentially unexpected ways. We draw upon specific lessons learned about ecosystem responses from research on acid rain, carbon dioxide enrichment in terrestrial plant communities, and nitrogen deposition. We further characterize the links between carbon chemistry changes and effects on individuals and ecosystems, and enumerate key hypotheses for testing. Finally, we quantify how U.S. research funding has been distributed among these linkages, concluding that there is an urgent need for research programs designed to anticipate how the effects of OA will reverberate throughout assemblages of species. © 2014 American Chemical Society.

U2 - 10.1021/es501936p

DO - 10.1021/es501936p

M3 - Article

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VL - 48

SP - 9982

EP - 9994

JO - Environmental Science & Technology

JF - Environmental Science & Technology

IS - 17

ER -

Detecting the unexpected: A research framework for ocean acidification

Abstract

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