Metabolic recovery and compensatory shell growth of juvenile Pacific geoduck Panopea generosa following short-term exposure to acidified seawater
METABOLIC RECOVERY AND COMPENSATORY SHELL GROWTH OF JUVENILE PACIFIC GEODUCK PANOPEA GENEROSA FOLLOWING SHORT-TERM EXPOSURE TO ACIDIFIED SEAWATER Samuel J. Gurr1*, Brent Vadopalas2, Steven B. Roberts3, Hollie M. Putnam1 1 University of Rhode Island, College of the Environment and Life Sciences, 120...
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| Other Authors: | , , |
| Format: | Dataset |
| Language: | English |
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2019
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| Online Access: | https://zenodo.org/record/3588326 https://doi.org/10.5281/zenodo.3588326 |
| Summary: | METABOLIC RECOVERY AND COMPENSATORY SHELL GROWTH OF JUVENILE PACIFIC GEODUCK PANOPEA GENEROSA FOLLOWING SHORT-TERM EXPOSURE TO ACIDIFIED SEAWATER Samuel J. Gurr1*, Brent Vadopalas2, Steven B. Roberts3, Hollie M. Putnam1 1 University of Rhode Island, College of the Environment and Life Sciences, 120 Flagg Rd, Kingston, RI 02881 USA 2 University of Washington, Washington Sea Grant, 3716 Brooklyn Ave NE, Seattle, WA 98105 USA 3 University of Washington, School of Aquatic and Fishery Sciences, 1122 NE Boat St, Seattle, WA 98105 USA *Corresponding author: Fax: Phone:1-401-874-9510 Email: samuel_gurr@uri.edu Abstract While acute stressors can be detrimental, environmental stress conditioning can improve performance. To test the hypothesis that physiological status is altered by stress conditioning, we subjected juvenile Pacific geoduck, Panopea generosa, to repeated exposures of elevated pCO2 in a commercial hatchery setting followed by a period in ambient common garden. Respiration rate and shell length were measured for juvenile geoduck periodically throughout short-term repeated reciprocal exposure periods in ambient (~550 µatm) or elevated (~2400 µatm) pCO2 treatments and in common, ambient conditions, five months after exposure. Short-term exposure periods comprised an initial 10-day exposure followed by 14 days in ambient before a secondary 6-day reciprocal exposure. The initial exposure to elevated pCO2 significantly reduced respiration rate by 25% relative to ambient conditions, but no effect on shell growth was detected. Following 14 days in common garden, ambient conditions, reciprocal exposure to elevated or ambient pCO2 did not alter juvenile respiration rates, indicating ability for metabolic recovery under subsequent conditions. Shell growth was negatively affected during the reciprocal treatment in both exposure histories, however clams exposed to the initial elevated pCO2 showed compensatory growth with 5.8% greater shell length (on average between the two secondary exposures) after five months in ... |
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