Expression plasticity regulates intraspecific variation in the acclimatization potential of a reef-building coral

Drury, Crawford; Dilworth, Jenna; Majerová, Eva; Caruso, Carlo; Greer, Justin B.

doi:10.1038/s41467-022-32452-4

Cited by 20 publications

(18 citation statements)

References 88 publications

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“…Our ndings are consistent with recent reports that show that coral communities can acclimatize to increasing levels of thermal stress (17,23), which can be explained by the potential ability of corals to enhance their thermal tolerance through multiple mechanisms (30,31). For example, shifts in gene expression enable corals to acclimate to thermal stress (22,32). Such acclimatization processes can be anticipated at community scales and may vary among reef zones (33) or even regions such as the reefs of the eastern tropical Paci c, which have shown to be highly resilient after encountering acute thermal stress (34).…”

Section: Discussionsupporting

confidence: 92%

“…However, the cumulative stress of past disturbances is also a key determinant of the responses of organisms and ecological communities to stress. This is known as the ecological memory of previous events, and can be generated by various biological mechanisms, including acclimatization, adaptation, or even shifts in species composition (5,22). In the Great Barrier Reef, it has been recently shown that the severity of coral bleaching depends on the heat exposure of previous bleaching events (17).…”

Section: Introductionmentioning

confidence: 99%

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Anthropogenic disturbances and ecological memory modulate dynamics in the world’s coral reefs

González‐Barrios

Estrada‐Saldívar

Pérez‐Cervantes

et al. 2022

Preprint

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Rapidly changing conditions alter disturbance patterns, highlighting the need to better understand how the transition from pulse disturbances to more persistent stress will impact ecosystem dynamics. We conducted a global analysis of the impacts of eleven acute disturbances on reef integrity using the rate of change of coral cover as a measure of damage. Then, we evaluated how the magnitude of the damage due to thermal stress, cyclones, and diseases varied among tropical Atlantic and Indo-Pacific reefs and whether the cumulative impact of thermal stress and cyclones was able to modulate the responses of reefs to future events. We found that reef damage largely depends on the condition of a reef before a disturbance, disturbance intensity, and biogeographic region, regardless of the type of disturbance. Changes in coral cover after bleaching events were largely influenced by the cumulative stress of past disturbances and did not depend on disturbance intensity or initial coral cover, which suggests that an ecological memory is present within coral communities. In contrast, the effect of cyclones (and likely other physical impacts) was primarily modulated by the initial reef condition and did not appear to be influenced by previous impacts. Our findings also underscore that coral reefs can recover if stressful conditions decrease, yet the lack of action to reduce anthropogenic impacts and greenhouse gas emissions continues to trigger reef degradation. We uphold that evidence-based strategies can guide managers to make better decisions to prepare for future disturbances.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Anthropogenic disturbances and ecological memory modulate dynamics in the world’s coral reefs

González‐Barrios

Estrada‐Saldívar

Pérez‐Cervantes

et al. 2022

Preprint

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“…Like most organisms, corals have the ability to acclimatize to environmental change, which reduces the severity of bleaching and mortality during thermal stress (Middlebrook et al, 2008;Bellantuono et al, 2012;Palumbi et al, 2014;Bay and Palumbi, 2015;Foo and Byrne, 2016;Schoepf et al, 2019;Majerova et al, 2021). However, this natural phenomenon is genotype-specific (Dilworth et al, 2021;Drury et al, 2022) and could be lost under future climate-change scenarios (Ainsworth et al, 2016). One of the main obstacles to the application of this strategy for conservation (van Oppen et al, 2015 Transcriptomic data from acclimatized corals shed light on the main gene families and cellular pathways that play a role in the bleaching process, but functional studies have been largely missing in reef-building corals (Bellantuono et al, 2012;Palumbi et al, 2014;Bay and Palumbi, 2015;Thomas et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

“…As sedentary animals, they have only a limited ability to avoid stressful environmental conditions, thus their potential to react to dynamic changes in their surrounding is crucial for their survival. An increasing body of knowledge demonstrates various mechanisms (gene expression or morphological plasticity, i.e (Kenkel and Matz, 2017;Drury et al, 2022;Brambilla et al, 2022).) that corals employ to promote resilience.…”

Section: Introductionmentioning

confidence: 99%

Thermal preconditioning in a reef-building coral alleviates oxidative damage through a BI-1-mediated antioxidant response

Majerová

Drury

2022

Front. Mar. Sci.

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Global coral reef decline is largely driven by the breakdown of the coral-algal symbiosis during temperature stress. Corals can acclimatize to higher temperatures, but the cellular processes underlying this ability are poorly understood. We show that preconditioning-based improvements in thermal tolerance in Pocillopora acuta are accompanied by increases in host glutathione reductase (GR) activity and gene expression, which prevents DNA damage. A strong correlation between GR and BI-1 expressions in heat-stressed preconditioned corals and the presence of an antioxidant response element (ARE) in the GR promoter suggest BI-1 could regulate GR expression through Nrf2/ARE pathway. To fortify this link, we developed and GFP-validated an siRNA-mediated gene knockdown protocol and targeted the coral BI-1 gene. BI-1 knock-down specifically decreased GR expression and activity and increased oxidative DNA damage in heat-stressed preconditioned corals, showing that a BI-1-mediated, enhanced antioxidant response during acute heat stress is a key mechanism that prevents oxidative DNA damage after preconditioning.

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“…For example, the influences of thermal stress on coral growth plasticity, bleaching tolerance, and skeletal properties may be related to zooxanthellae communities, microbiome composition, and coral gene expression patterns [20][21][22]. Hermatypic coral adapt to the rising temperature through positive regulation of innate immune responses, protein ubiquitination and apoptosis [23]. At present, it is universally admitted that transcriptome sequencing technology is beneficial for enlightening and evaluating how ecological factors affect scleractinian corals.…”

Section: Introductionmentioning

confidence: 99%

Effects of Caulerpa Taxifolia on Physiological Processes and Gene Expression of Acroproa Hyacinthus during Thermal Stress

Fu¹,

Zhou²,

Zhang³

et al. 2022

Preprint

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An increasing ecological phase-shift from coral dominated reefs to macroalgae dominated reefs as a result of anthropogenic impacts, such as eutrophication, sedimentation, and overfishing, has been observed in many reef systems around the world. Ocean warming is a universal threat to both corals and macroalgae, which may alter the outcome of competition between them. Therefore, in order to explore the effects of indirect and direct exposure to macroalgae on the physiological, biochemical, and genetic expression of corals at elevated temperature, the coral Acroproa hyacinthus and highly invasive green algae Caulerpa taxifolia have been chosen. Physiologically, the results exhibited that distinguish from control and direct contact treatments, the density and chlorophyll a content of zooxanthella decreased by 53.1% and 71.2% respectively, when coral indirect contacted with algae at ambient temperature (27°C). Besides, enzyme activities of superoxide dismutase (SOD) and catalase (CAT) in coral tissue were enhanced by interacting with algae. After an increase of 3°C, the density and chlorophyll a content of zooxanthella reduced by 84.4% and 93.8% respectively, whereas the enzmy activities of SOD and CAT increased by 2.3 and 3.1-fold. However, only the zooxanthellae density and pigment content decreased when C.taxifolia co-culture with A.hyacinthus at 30°C. Molecularly, different from the control group, the differentially expressed genes (DEGs) such as Rab family, ATG family and Casp7 were significantly enriched in endocytosis, autophagy and apoptosis pathways , regardless whether A.hyacinthus was indirect or indirect exposure to C.taxifolia at 27°C. Under thermal stress without algae interaction, the DEGs were significantly enriched in microbial immune signal transduction pathways, such as Toll-like receptor signaling pathway and TNF signaling pathway, while multiple cellular immunity (IFI47, TRAF family) and oxidative stress (CAT, SODC, HSP70) genes were up-regulated. Inversely, compared with corals without interaction with algae at 30°C, the DEGs of corals interacted with C.taxifolia at 30°C, were remarkably enriched in apoptosis, NOD-like receptor signaling pathway, including the transcription factors such as Casp family, TRAF family. In conclusion, the density and chlorophyll a content of zooxanthella remained a fading tendency induced by macroalgae at ambient temperature. The oxidative stress and immune response levels of coral has been elevated at 30°C, but macroalgae alleviated the negative effects triggered by thermal stress.

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Expression plasticity regulates intraspecific variation in the acclimatization potential of a reef-building coral

Cited by 20 publications

References 88 publications

Anthropogenic disturbances and ecological memory modulate dynamics in the world’s coral reefs

Anthropogenic disturbances and ecological memory modulate dynamics in the world’s coral reefs

Thermal preconditioning in a reef-building coral alleviates oxidative damage through a BI-1-mediated antioxidant response

Effects of <em>Caulerpa Taxifolia</em> on Physiological Processes and Gene Expression<em> </em>of <em>Acroproa Hyacinthus</em> during Thermal Stress

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