期刊
GLOBAL CHANGE BIOLOGY
卷 21, 期 1, 页码 236-249出版社
WILEY
DOI: 10.1111/gcb.12706
关键词
bleaching; climate change; community disturbance; coral-algal symbiosis; functional redundancy; heat tolerance; resilience; Symbiodinium
资金
- Graduate Research Fellowships from the National Science Foundation
- University of Miami Graduate Fellowships
- RSMAS Alumni Award
- Captain Harry D. Vernon Memorial Scholarship
- Garden Club of America Ecological Restoration Fellowship
- Reitmeister Award
- Rowlands Research Fellowship
- NSF [OCE-0547169]
- Wildlife Conservation Society
- Lenfest Ocean Program
- Pew Fellowship in Marine Conservation
- Division Of Ocean Sciences [1358699] Funding Source: National Science Foundation
Mutualistic organisms can be particularly susceptible to climate change stress, as their survivorship is often limited by the most vulnerable partner. However, symbiotic plasticity can also help organisms in changing environments by expanding their realized niche space. Coral-algal (Symbiodinium spp.) symbiosis exemplifies this dichotomy: the partnership is highly susceptible to bleaching' (stress-induced symbiosis breakdown), but stress-tolerant symbionts can also sometimes mitigate bleaching. Here, we investigate the role of diverse and mutable symbiotic partnerships in increasing corals' ability to thrive in high temperature conditions. We conducted repeat bleaching and recovery experiments on the coral Montastraea cavernosa, and used quantitative PCR and chlorophyll fluorometry to assess the structure and function of Symbiodinium communities within coral hosts. During an initial heat exposure (32 degrees C for 10days), corals hosting only stress-sensitive symbionts (Symbiodinium C3) bleached, but recovered (at either 24 degrees C or 29 degrees C) with predominantly (>90%) stress-tolerant symbionts (Symbiodinium D1a), which were not detected before bleaching (either due to absence or extreme low abundance). When a second heat stress (also 32 degrees C for 10days) was applied 3months later, corals that previously bleached and were now dominated by D1a Symbiodinium experienced less photodamage and symbiont loss compared to control corals that had not been previously bleached, and were therefore still dominated by Symbiodinium C3. Additional corals that were initially bleached without heat by a herbicide (DCMU, at 24 degrees C) also recovered predominantly with D1a symbionts, and similarly lost fewer symbionts during subsequent thermal stress. Increased thermotolerance was also not observed in C3-dominated corals that were acclimated for 3months to warmer temperatures (29 degrees C) before heat stress. These findings indicate that increased thermotolerance post-bleaching resulted from symbiont community composition changes, not prior heat exposure. Moreover, initially undetectable D1a symbionts became dominant only after bleaching, and were critical to corals' resilience after stress and resistance to future stress.
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