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archivedata_GCB_JJM_22.xlsx (50.06 kB)

Minutietal2022_GCB_heatwaves and effects on larvae development

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posted on 2022-07-26, 01:43 authored by Jay Joan Minuti, Maria Byrne, Deevesh Ashley Hemraj, Hamish Campbell, Bayden Dwight RussellBayden Dwight Russell


With rising ocean temperatures, extreme weather events such as marine heatwaves (MHW) are increasing in frequency and duration, pushing marine life beyond their physiological limits. The potential to respond to extreme conditions through physiological acclimatization, and pass on resistance to the next generation, fundamentally depends on the capacity of an organism to cope within their thermal tolerance limits. To elucidate whether heat-conditioning of parents could benefit offspring development, we exposed adult sea urchins (Heliocidaris erythrogramma) to ambient summer (23°C), moderate (25°C) or strong (26°C) marine heatwave conditions for 10 days. Offspring were then reared at constant temperature along a thermal gradient (22-28°C) and development was tracked to the 14-day juvenile stage. Progeny from the MHW conditioned adults developed through to metamorphosis faster than those of ambient conditioned parents, with most individuals from the moderate and strong heatwaves developing to the larval stage across all temperatures. In contrast, the majority of offspring from the control summer temperature died before metamorphosis at temperatures above 25°C (moderate MHW). Juveniles produced from the strong MHW conditioned adults were also larger across all temperatures, with the largest juveniles in the 26°C treatment. In contrast, the smallest juveniles were from control (current-day summer) parents (and reared at 22 and 25°C. Surprisingly, initial survival was higher in the progeny of MHW exposed parents, even at temperatures hotter than predicted MHWs (28°C). Importantly, however, there was substantial mortality of juveniles from the strong MHW parents by day 14. Therefore, while carryover effects of parental conditioning to MHWs resulted in faster growing, larger progeny, this benefit will only persist beyond the more sensitive juvenile stage and enhance survival if conditions return promptly to normal ambient/thermal tolerance levels. 


Faculty of Science Pilot Scheme on International Experience for Ph.D. students to JJM

University of Hong Kong Post-Doctoral Fellowship to DAH

Faculty of Science (HKU) Rising Star Fund to BDR

Hong Kong Research Grants Council General Research Fund grant to BDR (GRF17122916)

Australian Research Council Discovery Grant to MB (DP150102771)


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