Spatial and Intergeneric Variation in Physiological Indicators of Corals in the South China Sea: Insights Into Their Current State and Their Adaptability to Environmental Stress

Qin, Zhenjun; Yu, Kefu; Wang, Yinghui; Xu, Lijia; Huang, Xueyong; Chen, Biao; Yang, Li; Wang, Wenhuan; Pan, Zhiyi

doi:10.1029/2018jc014648

Cited by 57 publications

(42 citation statements)

References 72 publications

(153 reference statements)

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“…That is to say, higher ZD may be lead to higher reactive oxygen species production under high‐temperature condition and then exacerbate climate‐change‐induced coral bleaching (Cunning & Baker, 2013). Nevertheless, the intergeneric variation pattern of ZD in our study is consistent with the results of previous studies in field conditions in the SCS that ZD of relatively stress‐tolerant massive corals are significantly higher than that of relatively vulnerable plating and branching corals (Li et al, a, ; Qin et al, ; Xu et al, ).…”

Section: Discussionsupporting

confidence: 92%

Intergeneric Differences in Trophic Status of Scleractinian Corals From Weizhou Island, Northern South China Sea: Implication for Their Different Environmental Stress Tolerance

Zhang

et al. 2020

JGR Biogeosciences

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The knowledges of trophic status (i.e., autotrophy/heterotrophy) of corals are helpful for understanding the mechanisms driving their environmental stress tolerance and bleaching resilience. We conducted this study to elucidate the differences in trophic status among corals of different genera and then explore the implication of trophic status for their different environmental stress tolerance. In this study, 117 coral samples including five genera (i.e., relatively stress-tolerant massive genera Porites, Favites, and Favia and relatively vulnerable plating genus Pavona and branching genus Acropora) were collected from Weizhou Island, northern South China Sea. The symbiotic zooxanthellae density, δ 13 C of host tissues (δ 13 C h ), and symbiotic zooxanthellae (δ 13 C z ) were measured. Besides, the difference in values between δ 13 C h and δ 13 C z (i.e., △ h-z 13 C) was analyzed. Our results indicated that both zooxanthellae density and δ 13 C z values of Porites, Favites, and Favia are higher than that of Pavona and Acropora and indicate that autotrophic photosynthesis intensity of symbiotic zooxanthellae of Porites, Favites, and Favia is higher than that of Pavona and Acropora. Besides, both δ 13 C h and △ h-z 13 C of Porites, Favites, and Favia are lower than that of Pavona and Acropora and indicate a higher contribution of heterotrophic predation to the coral host of Porites, Favites, and Favia. These comparisons suggest that trophic status of relatively stress-tolerant Porites, Favites, and Favia is more plasticity than vulnerable Pavona and Acropora, which is conducive to maintain a positive energy budget. This is one of important factors leading to different environmental stress tolerance and bleaching resilience among corals of different genera.

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Section: Discussionsupporting

confidence: 92%

Intergeneric Differences in Trophic Status of Scleractinian Corals From Weizhou Island, Northern South China Sea: Implication for Their Different Environmental Stress Tolerance

Zhang

et al. 2020

JGR Biogeosciences

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“…In the Nansha Islands (i.e., the Spratly Islands, southern South China Sea (SCS)), coral bleaching events, such as GCBEs, are one of the main threats to coral health, and lead to coral reef degradation and macroalgae occupation (e.g., Li et al, 2011;Yu et al, 2006). In situ observation during an investigation in June 2015 found that corals were in a healthy state such that almost no bleaching corals were found (e.g., Qin et al, 2019). In June 2016, the global El Niño event resulted in high SST anomalies such that corals suffered from high thermal stress.…”

Section: 1029/2019jc015579mentioning

confidence: 99%

Significant Changes in Microbial Communities Associated With Reef Corals in the Southern South China Sea During the 2015/2016 Global‐Scale Coral Bleaching Event

Qin

Liang

et al. 2020

JGR Oceans

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Microbial communities play important roles as coral symbionts, but their changes among coral species in response to thermal bleaching events are not well understood. Therefore, we focused on the microbial communities associated with coral species in the southern South China Sea (SCS) during the 2015/2016 global‐scale coral bleaching event (GCBE). Samples of eight typical coral species were collected before and during the GCBE, and the microbial communities, potential gene functions, and zooxanthellae densities (ZDs) were analyzed. We found that ZDs significantly decreased among all coral species during the GCBE. Alpha diversities of the microbial communities also significantly decreased at different taxonomic levels among these coral species. Principal coordinates analysis revealed significant differences in beta diversity among coral specimens, which were divided into two groups before and during the GCBE. Microbial gene functional prediction showed that microbial community physiology significantly changed during the GCBE, with decreased coverage in metabolism, membrane transport, replication and repair, and increased coverage in cell motility and signal transduction. Moreover, the abundance of potential pathogens such as the genus Vibrio greatly increased (from ~0.28% to ~52.92%) during the GCBE, whereas the abundance of several beneficial microbes such as Endozoicomonas significantly decreased (from ~26.10% to ~0.91%), resulting in an obvious decline in the coral‐holobiont physiological functions. Thus, the GCBE greatly affected the health of coral species in the southern SCS, by reducing the biodiversity of associated microbial communities and increasing the abundance of potential pathogens.

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“…In the South China Sea, coral reefs at low latitudes are also often subjected to unusually high temperatures. Statistics show that the Nansha Islands (where XyR and SjR are located) had annual maximum temperatures between 30 and 31 • C from 1985 to 2015 (Qin et al, 2019). The coral reefs located in high-latitude regions (e.g., Lht and DyB) are affected by human activities all year, resulting in serious eutrophication of the surrounding seawater.…”

Section: Discussionmentioning

confidence: 99%

“…The coral reefs located in high-latitude regions (e.g., Lht and DyB) are affected by human activities all year, resulting in serious eutrophication of the surrounding seawater. The live coral cover rapidly decreased from greater than 60% to less than 20% from 1984 to 2015 (Zhao et al, 2012;Qin et al, 2019). Diazotrophs are essential components of coral holobionts, which are involved in the nitrogen cycle (Piniak et al, 2003;Olson et al, 2009) and are important for energy supply (Hamilton et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Diazotroph Diversity Associated With Scleractinian Corals and Its Relationships With Environmental Variables in the South China Sea

Liang

Wang

et al. 2020

Front. Physiol.

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Coral reef ecosystems cannot operate normally without an effective nitrogen cycle. For oligotrophic coral reef areas, coral-associated diazotrophs are indispensable participants in the nitrogen cycle. However, the distribution of these diazotrophs and the correlation with the physical and chemical variables of the surrounding seawater remain unclear. To this end, 68 scleractinian coral colonies were sampled from 6 coral reef areas with different environmental variables in the South China Sea to investigate the composition of associated diazotrophs based on nifH gene amplification using highthroughput sequencing. The six coral reefs can be clearly divided into two types (fringing reefs and island reefs), are affected by varying degrees of human activities and are located at different latitudes from 9 • 20'06"N to 22 • 34'55"N with different seawater temperatures. Alpha-and beta-diversity analyses showed that the distribution of diazotrophs among coral reefs exhibited significant geographical fluctuations (p ≤ 0.05) and non-significant interspecific fluctuations (p > 0.05). The predominant bacterial phyla included Proteobacteria, Chlorobi, Cyanobacteria, and two unclassified phyla. Chlorobi exhibited a relative abundance of 47-96% in coral samples from the highlatitude Daya Bay fringing reef affected by eutrophication. Unclassified bacteria II, with a relative abundance of 28-87%, was found in all coral samples from the midlatitude Luhuitou fringing reef affected by eutrophication. However, unclassified bacteria I and Proteobacteria dominated (>80% relative abundance) in most of the coral samples from the Weizhou Island fringing reef, which is far from land, and three island reefs (Huangyan Island, Xinyi Reef, and Sanjiao Reef) at relatively low latitudes. At the genus level, some core diazotrophs were found in different coral sample groups. In addition, correlation analysis with various environmental variables revealed that the variables were positively or negatively correlated with different diazotrophic genera. Coral-associated diazotrophs were common among coral individuals. However, their composition was closely related to the different environmental variables. These results provide insights into the geographical distribution characteristics of coral-associated diazotrophs and their evolutionary trends in response to environmental change in the South China Sea.

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Spatial and Intergeneric Variation in Physiological Indicators of Corals in the South China Sea: Insights Into Their Current State and Their Adaptability to Environmental Stress

Cited by 57 publications

References 72 publications

Intergeneric Differences in Trophic Status of Scleractinian Corals From Weizhou Island, Northern South China Sea: Implication for Their Different Environmental Stress Tolerance

Intergeneric Differences in Trophic Status of Scleractinian Corals From Weizhou Island, Northern South China Sea: Implication for Their Different Environmental Stress Tolerance

Significant Changes in Microbial Communities Associated With Reef Corals in the Southern South China Sea During the 2015/2016 Global‐Scale Coral Bleaching Event

Diazotroph Diversity Associated With Scleractinian Corals and Its Relationships With Environmental Variables in the South China Sea

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