Effect of ocean warming and acidification on the early life stages of subtropical Acropora spicifera
Foster, T., Gilmour, J.P., Chua, C.M., Falter, J.L., and McCulloch, M.T. (2015) Effect of ocean warming and acidification on the early life stages of subtropical Acropora spicifera. Coral Reefs, 34 (4). pp. 1217-1226.
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Abstract
This study investigated the impacts of acidified seawater (pCO2 ~ 900 μatm) and elevated water temperature (+3 °C) on the early life history stages of Acropora spicifera from the subtropical Houtman Abrolhos Islands (28°S) in Western Australia. Settlement rates were unaffected by high temperature (27 °C, ~250 μatm), high pCO2 (24 °C, ~900 μatm), or a combination of both high temperature and high pCO2 treatments (27 °C, ~900 μatm). There were also no significant differences in rates of post-settlement survival after 4 weeks of exposure between any of the treatments, with survival ranging from 60 to 70 % regardless of treatment. Similarly, calcification, as determined by the skeletal weight of recruits, was unaffected by an increase in water temperature under both ambient and high pCO2 conditions. In contrast, high pCO2 significantly reduced early skeletal development, with mean skeletal weight in the high pCO2 and combined treatments reduced by 60 and 48 %, respectively, compared to control weights. Elevated temperature appeared to have a partially mitigative effect on calcification under high pCO2; however, this effect was not significant. Our results show that rates of settlement, post-settlement survival, and calcification in subtropical corals are relatively resilient to increases in temperature. This is in marked contrast to the sensitivity to temperature reported for the majority of tropical larvae and recruits in the literature. The subtropical corals in this study appear able to withstand an increase in temperature of 3 °C above ambient, indicating that they may have a wider thermal tolerance range and may not be adversely affected by initial increases in water temperature from subtropical 24 to 27 °C. However, the reduction in skeletal weight with high pCO2 indicates that early skeletal formation will be highly vulnerable to the changes in ocean pCO2 expected to occur over the twenty-first century, with implications for their longer-term growth and resilience.
Item ID: | 44371 |
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Item Type: | Article (Research - C1) |
ISSN: | 1432-0975 |
Keywords: | coral, climate change, acidification, juveniles, subtropical |
Funders: | ARC Centre of Excellence for Coral Reef Studies, James Cook University (JCU) |
Projects and Grants: | ARC Centre of Excellence for Coral Reef Studies CE140100020 |
Date Deposited: | 17 Jun 2016 01:34 |
FoR Codes: | 06 BIOLOGICAL SCIENCES > 0602 Ecology > 060205 Marine and Estuarine Ecology (incl Marine Ichthyology) @ 100% |
SEO Codes: | 96 ENVIRONMENT > 9608 Flora, Fauna and Biodiversity > 960808 Marine Flora, Fauna and Biodiversity @ 100% |
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