Contrasting heat stress response patterns of coral holobionts across the Red Sea suggest distinct mechanisms of thermal tolerance

Voolstra, Christian R.; Valenzuela, Jacob J.; Turkarslan, Serdar; Cárdenas, Anny; Hume, Benjamin C. C.; Perna, Gabriela; Buitrago-López, Carol; Rowe, Katherine; Orellana, Mónica V.; Baliga, Nitin S.; Paranjape, Suman; Banc-Prandi, Guilhem; Bellworthy, Jessica; Fine, Maoz; Frias-Torres, Sarah; Barshis, Daniel J.

doi:10.1111/mec.16064

Cited by 95 publications

(105 citation statements)

References 100 publications

(166 reference statements)

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“…While these temperatures are not representative of the typical temperatures encountered by corals during a natural bleaching event, they do serve as reliable proxies of relative thermal tolerance [28], allowing us to compare differences among individuals. The 2.57°C difference between the least and most thermotolerant individuals found here is comparable to the 2.7°C difference in average ED50 observed between two populations of Stylophora pistillata from the northern and central Red Sea (34.1-36.8°C), also measured using CBASS [24]. The latter populations are separated by approximately 900 km and a MMM temperature gradient of 3.7°C (5 km data product), making it remarkable that the Florida population, spanning just approximately 300 km and only 1°C in MMM, contains an equivalent range in thermal tolerance among individuals.…”

Section: Discussionsupporting

confidence: 86%

“…Overcoming these challenges requires a better understanding of the natural variation in coral heat tolerance, the distribution of heat-tolerant genotypes and phenotypes and the degree to which heat tolerance is determined by a coral's genes, symbiotic interactions and environment. There is extensive variation in coral heat tolerance across latitudinal and environmental gradients [19][20][21][22][23][24][25], with populations from warmer locations having higher tolerance. However, such differences can also occur over reefal scales of just 10s to 100s of metres [26][27][28], indicating strong selection across habitats and microenvironments over small spatial scales, and/or an important role for acclimatization [29,30].…”

Section: Introductionmentioning

confidence: 99%

“…Specifically, sets of portable experimental tanks termed coral bleaching automated stress systems (CBASS; [28]), can facilitate the application of standardized, rapid thermal tolerance assays on corals in remote field settings. Importantly, these rapid, acute assays can recapitulate outcomes of longer-term, ecologically relevant bleaching scenarios [24,41], indicating they can be used to generate meaningful, quantitative and comparable metrics of thermal tolerance. Such efforts are now beginning to be applied to broadly census thermal tolerance in wild coral populations [42], from which the identification of tolerant individuals could inform targeted nursery development [13], and other active conservation interventions.…”

Section: Introductionmentioning

confidence: 99%

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Census of heat tolerance among Florida's threatened staghorn corals finds resilient individuals throughout existing nursery populations

et al. 2021

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The rapid loss of reef-building corals owing to ocean warming is driving the development of interventions such as coral propagation and restoration, selective breeding and assisted gene flow. Many of these interventions target naturally heat-tolerant individuals to boost climate resilience, but the challenges of quickly and reliably quantifying heat tolerance and identifying thermotolerant individuals have hampered implementation. Here, we used coral bleaching automated stress systems to perform rapid, standardized heat tolerance assays on 229 colonies of Acropora cervicornis across six coral nurseries spanning Florida's Coral Reef, USA. Analysis of heat stress dose–response curves for each colony revealed a broad range in thermal tolerance among individuals (approx. 2.5°C range in F v /F m ED50), with highly reproducible rankings across independent tests ( r = 0.76). Most phenotypic variation occurred within nurseries rather than between them, pointing to a potentially dominant role of fixed genetic effects in setting thermal tolerance and widespread distribution of tolerant individuals throughout the population. The identification of tolerant individuals provides immediately actionable information to optimize nursery and restoration programmes for Florida's threatened staghorn corals. This work further provides a blueprint for future efforts to identify and source thermally tolerant corals for conservation interventions worldwide.

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Section: Discussionsupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Census of heat tolerance among Florida's threatened staghorn corals finds resilient individuals throughout existing nursery populations

et al. 2021

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“…This approach has been shown to determine differences in coral thermotolerance similarly to a classic longterm heat stress assay (Voolstra et al, 2020;Evensen et al, 2021). We chose to use this 1-day ramp-hold assay in 2019 rather than repeat the 2014-style assay due to the logistical advantage of a 1-day assay and to be more comparable to recent studies using CBASS (Voolstra et al, 2020(Voolstra et al, , 2021Cunning et al, 2021;Evensen et al, 2021;Savary et al, 2021). This assay consists of four replicate tanks to test three experimental temperature treatments and one control, for a total of eight tanks.…”

Section: Ramp-hold Heat Stress Assaymentioning

confidence: 99%

Variation in Coral Thermotolerance Across a Pollution Gradient Erodes as Coral Symbionts Shift to More Heat-Tolerant Genera

et al. 2021

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Phenotypic plasticity is one mechanism whereby species may cope with stressful environmental changes associated with climate change. Reef building corals present a good model for studying phenotypic plasticity because they have experienced rapid climate-driven declines in recent decades (within a single generation of many corals), often with differential survival among individuals during heat stress. Underlying differences in thermotolerance may be driven by differences in baseline levels of environmental stress, including pollution stress. To examine this possibility, acute heat stress experiments were conducted on Acropora hyacinthus from 10 sites around Tutuila, American Samoa with differing nutrient pollution impact. A threshold-based heat stress assay was conducted in 2014 and a ramp-hold based assay was conducted in 2019. Bleaching responses were measured by assessing color paling. Endosymbiont community composition was assessed at each site using quantitative PCR. RNA sequencing was used to compare differences in coral gene expression patterns prior to and during heat stress in 2019. In 2014, thermotolerance varied among sites, with polluted sites holding more thermotolerant corals. These differences in thermotolerance correlated with differences in symbiont communities, with higher proportions of heat-tolerant Durusdinium found in more polluted sites. By 2019, thermotolerance varied less among sites, with no clear trend by pollution level. This coincided with a shift toward Durusdinium across all sites, reducing symbiont community differences seen in 2014. While pollution and symbiont community no longer could explain variation in thermotolerance by 2019, gene expression patterns at baseline levels could be used to predict thermotolerance thresholds. These patterns suggest that the mechanisms underlying thermotolerance shifted between 2014 and 2019, though it is possible trends may have also been affected by methodological differences between heat stress assays. This study documents a shift in symbiont community over time and captures potential implications of that shift, including how it affects variation in thermotolerance among neighboring reefs. This work also highlights how gene expression patterns could help identify heat-tolerant corals in a future where most corals are dominated by Durusdinium and symbiont-driven thermotolerance has reached an upper limit.

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“…Therefore, we suggest a complex networking effect of wind, light and depth on bleaching response across and within individual reefs, further underlined by high-frequency diel temperature variability (DTR). This complex network of environmental differences may further inlfuence species-specific physiological limits that determine adaptive mechanism and upper thermal limits, such as genotypic predisposition (Dixon et al 2015), hostspecific physiological traits (Fitt et al, 2009), and associations with specific symbionts and holobionts (Baker et al, 2004;Voolstra et al, 2021). Thus, species identity played a factor for numerous, but not all taxa.…”

Section: Bleaching Response On Biophysical Reef Scalementioning

confidence: 99%

Highly variable response of hard coral taxa to successive coral bleaching events (2019-2020) and rising ocean temperatures in Northeast Peninsular Malaysia

Szereday¹,

Amri²

2021

Preprint

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Based on current greenhouse gas emission trajectories, Malaysian coral reefs are predicted to experience severe annual coral bleaching events by 2043, imminently threatening the survival of Malaysian coral reefs within this century. However, there is no field data on how Malaysian coral reefs respond to successive sequences of coral bleaching. Numerous scleractinian taxa have shown the ability to acclimatize to thermal stress events after previous exposure to heat disturbances. Nonetheless, thermal tolerance and acclimatization potentials might corroborate with accelerating warming rates and increasing frequencies of thermal stress anomalies, necessitating repeated field studies at reef scale to investigate thermal tolerance and acclimatization of scleractinian taxa. Here, we studied two successive thermal stress events during the 2019 El Niño Southern Oscillation (ENSO) and during the onset of the La Niña Oscillation in 2020. We recorded the bleaching susceptibility of scleractinian taxa to document bleaching trajectories across fine temporal and environmental gradients in Northeast Peninsular Malaysia. In addition, we analyzed historic temperature trends to demonstrate rapid warming rates (0.17°C per decade) and high return frequencies of thermal stress anomalies. Despite high maximum temperatures in both years (31.07°C and 31.74°C, respectively), accumulated thermal stress was relatively low during the bleaching episodes (Degree Heating Weeks 1.05°C-weeks and 0.61°C-weeks, respectively) and marginally varied across reef scales (0.94°C-weeks, 0.76°C-weeks, 0.48°C-weeks in 2020), suggesting a widespread thermal sensitivity of most scleractinian taxa (55.21% and 26.63% bleaching incidence in 2019 and 2020, respectively). However, significant discrepancies between satellite and in-situ temperature data were found (0.63°C; SD±0.26). Bleaching susceptibility was highly taxon-specific and contrasted historical bleaching patterns (e.g., Acropora and Montipora showed high thermal tolerance). In 2020, successive heat disturbance moderately increased bleaching susceptibility of three taxa (Galaxea, Leptastrea and Platygyra) despite lower heat stress, while Heliopora was highly susceptible in both years. Bleaching analysis of taxa on biophysical reef scales revealed significant difference across depth, wind sites (e.g., leeward and windward), and the combined interactions of wind and depth (e.g., leeward shallow) on bleaching response were significant for numerous taxa. Findings suggest thermal acclimatization of fast-growing taxa, whereby successive bleaching events and accelerating warming rates selectively pressure scleractinian assemblages.

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Contrasting heat stress response patterns of coral holobionts across the Red Sea suggest distinct mechanisms of thermal tolerance

Cited by 95 publications

References 100 publications

Census of heat tolerance among Florida's threatened staghorn corals finds resilient individuals throughout existing nursery populations

Census of heat tolerance among Florida's threatened staghorn corals finds resilient individuals throughout existing nursery populations

Variation in Coral Thermotolerance Across a Pollution Gradient Erodes as Coral Symbionts Shift to More Heat-Tolerant Genera

Highly variable response of hard coral taxa to successive coral bleaching events (2019-2020) and rising ocean temperatures in Northeast Peninsular Malaysia

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