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Barry et al. 2005
Barry, J.P., Buck, K.R., Lovera, C., Kuhnz, L. and Whaling, P.J. (2005). Utility of deep sea CO2 release experiments in understanding the biology of a high-CO2 ocean: Effects of hypercapnia on deep sea meiofauna. Journal of Geophysical Research 110: doi: 10.1029/2004JC002629. issn: 0148-0227.

Oceanic CO2 levels are expected to rise during the next 2 centuries to levels not seen for 10--150 million years by the uptake of atmospheric CO2 in surface waters or potentially through the disposal of waste CO2 in the deep sea. Changes in ocean chemistry caused by CO2 influx may have broad impacts on ocean ecosystems. Physiological processes animals use to cope with CO2-related stress are known, but the range of sensitivities and effects of changes in ocean chemistry on most ocean life remain unclear. We evaluate the effectiveness of various designs for in situ CO2 release experiments in producing stable perturbations in seawater chemistry over experimental seafloor plots, as is desirable for evaluating the CO2 sensitivities of deep sea animals. We also discuss results from a subset of these experiments on the impacts of hypercapnia on deep sea meiofauna, in the context of experimental designs. Five experiments off central California show that pH perturbations were greatest for experiments using point source CO2 pools surrounded by experimental plots. CO2 enclosure experiments with experimental plots positioned within a circular arrangement of CO2 pools had more moderate pH variation. The concentration of dissolution plumes from CO2 pools were related to the speed and turbulence of near-bottom currents, which influence CO2 dissolution and advection. Survival of meiofauna (nematodes, amoebae, euglenoid flagellates) was low after episodic severe hypercapnia but lower and variable where pH changes ranged from 0 to 0.2 pH units below normal.

BACKGROUND DATA FILES

Abstract

Keywords
Global Change, Instruments and techniques, Oceanography, General, Marine pollution (0345, 0478), Oceanography, Biological and Chemical, Benthic processes, benthos, Biogeosciences, Ecosystems, structure and dynamics, Biogeosciences, Benthic processes, carbon sequestration, ocean pH, hypercapnia, deep sea biology, meiofauna
Journal
Journal of Geophysical Research
http://www.agu.org/journals/jb/
Publisher
American Geophysical Union
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