22 Papers
231 Citations
C. Lovera is an academic researcher from Monterey Bay Aquarium Research Institute. The author has contributed to research in topics: Biology & Seawater. The author has an hindex of 12, co-authored 19 publications.
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Papers
Effects of Direct Ocean CO 2 Injection on Deep-Sea Meiofauna
James P. Barry,Kurt R. Buck,C. Lovera,Linda A. Kuhnz,P. J. Whaling,Edward T. Peltzer,Peter Walz,Peter G. Brewer +7 more
TL;DR: In this paper, the effects of CO2 injection on infaunal deep-sea organisms were evaluated during a field experiment in 3600 m depth off California, in which liquid CO2 was released on the seafloor.
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Species-Specific Responses of Juvenile Rockfish to Elevated pCO2: From Behavior to Genomics.
Scott L. Hamilton,Cheryl A. Logan,Hamilton W. Fennie,Susan M. Sogard,James P. Barry,April D. Makukhov,Lauren R. Tobosa,Kirsten Boyer,C. Lovera,Giacomo Bernardi +9 more
TL;DR: The capacity of long-lived, late to mature, commercially important fish to acclimatize and adapt to changing ocean chemistry over the next 50–100 years is likely dependent on species-specific physiological tolerances.
Use of a free ocean CO₂ enrichment (FOCE) system to evaluate the effects of ocean acidification on the foraging behavior of a deep-sea urchin.
James P. Barry,C. Lovera,Kurt R. Buck,Edward T. Peltzer,Josi R. Taylor,Peter Walz,P. J. Whaling,Peter G. Brewer +7 more
TL;DR: It is suggested that the chemosensory behavior of a deep-sea urchin may be impaired by ocean acidification, and the utility of the FOCE system approach is demonstrated.
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Utility of deep sea CO2 release experiments in understanding the biology of a high-CO2 ocean: Effects of hypercapnia on deep sea meiofauna
TL;DR: In this paper, the authors 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.
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Physiological effects of environmental acidification in the deep-sea urchin Strongylocentrotus fragilis
TL;DR: Investigation of the effects of elevated p CO 2 and variable O 2 on the deep-sea urchin Strongylocentrotus fragilis suggests that the acidosis found during experiment one does not directly correlate with adverse effects during exposure to realistic future pCO 2 levels.