8 results on '"Yu KeFu"'
Search Results
2. Heat‐tolerant intertidal rock pool coral Porites lutea can potentially adapt to future warming.
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Huang, Wen, Meng, Linqing, Xiao, Zunyong, Tan, Ronghua, Yang, Enguang, Wang, Yonggang, Huang, Xueyong, and Yu, Kefu
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CORAL bleaching ,CORALS ,PORITES ,CORAL reef restoration ,SCLERACTINIA ,CORAL reefs & islands ,BACTERIAL diversity - Abstract
The growing threat of global warming on coral reefs underscores the urgency of identifying heat‐tolerant corals and discovering their adaptation mechanisms to high temperatures. Corals growing in intertidal rock pools that vary markedly in daily temperature may have improved heat tolerance. In this study, heat stress experiments were performed on scleractinian coral Porites lutea from subtidal habitat and intertidal rock pool of Weizhou Island in the northern South China Sea. Thermotolerance differences in corals from the two habitats and their mechanisms were explored through phenotype, physiological indicators, ITS2, 16S rRNA, and RNA sequencing. At the extremely high temperature of 34°C, rock pool P. lutea had a stronger heat tolerance than those in the subtidal habitat. The strong antioxidant capacity of the coral host and its microbial partners was important in the resistance of rock pool corals to high temperatures. The host of rock pool corals at 34°C had stronger immune and apoptotic regulation, downregulated host metabolism and disease‐infection‐related pathways compared to the subtidal habitat. P. lutea, in this habitat, upregulated Cladocopium C15 (Symbiodiniaceae) photosynthetic efficiency and photoprotection, and significantly increased bacterial diversity and coral probiotics, including ABY1, Ruegeria, and Alteromonas. These findings indicate that rock pool corals can tolerate high temperatures through the integrated response of coral holobionts. These corals may be 'touchstones' for future warming. Our research provides new insights into the complex mechanisms by which corals resist global warming and the theoretical basis for coral reef ecosystem restoration and selection of stress‐resistant coral populations. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Short-Term Impact of Decomposing Crown-of-Thorn Starfish Blooms on Reef-Building Corals and Benthic Algae: A Laboratory Study.
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Li, Yuxiao, Hao, Ruoxing, Yu, Kefu, and Chen, Xiaoyan
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SYMBIODINIUM ,CORALS ,STARFISHES ,CORALLINE algae ,CORAL bleaching ,ALGAL growth - Abstract
Outbreaks of crown-of-thorn starfish (COTS) have caused dramatic declines in reefs through predation on corals, but the post-bloom effects of COTS may still potentially threaten the environment and living organisms due to massive organic decomposition. This stimulation experiment showed that the decomposition of COTS debris triggered an extra mineralization process and resulted in acidifying, hypoxic, and eutrophic seawater. Consequently, the photosynthetic efficiency of coral symbionts decreased by 83%, and coral bleached after removing the stress within two days, then the coral skeleton dissolved at rates of 0.02–0.05 mg cm
−2 day−1 . Within two weeks, the photosynthesis and growth of benthic algae were suppressed by 27–86% and 1.5–16%, respectively. The mortality of turf algae and coralline algae indicated compromised primary productivity and limited coral recruitment, respectively. However, macroalgae, as coral competitors, became the only survivors, with increasing chlorophyll content. This study suggests a continuing decline of reefs during the collapse phase of COTS outbreaks and highlights the need for improving control strategies for the COTS population. [ABSTRACT FROM AUTHOR]- Published
- 2024
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4. Metabolic signatures of two scleractinian corals from the northern South China sea in response to extreme high temperature events.
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Huang, Shan, Luo, Li, Wen, Beihua, Liu, Xurui, Yu, Kefu, and Zhang, Man
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SCLERACTINIA , *THERMAL tolerance (Physiology) , *AMINO acid metabolism , *CORAL bleaching , *HIGH temperatures , *METABOLIC disorders - Abstract
Coral bleaching events are becoming increasingly common worldwide, causing widespread coral mortality. However, not all colonies within the same coral taxa show sensitivity to bleaching events, and the current understanding of the metabolic mechanisms underlying thermal bleaching in corals remains limited. We used untargeted metabolomics to analyze the biochemical processes involved in the survival of two bleaching phenotypes of the common corals Pavona decussata and Acropora pruinosa , during a severe bleaching event in the northern South China Sea in 2020. During thermal bleaching, P. decussata and A. pruinosa significantly accumulated energy products such as succinate and EPA, antioxidants and inflammatory markers, and reduced energy storage substances like glutamate and thymidine. KEGG analysis revealed enrichment of energy production pathways such as ABC transporters, nucleotide metabolism and lipid metabolism, suggesting the occurrence of oxidative stress and energy metabolism disorders in bleached corals. Notably, heat stress exerted distinct effects on metabolic pathways in the two coral species, e.g., P. decussata activating carbohydrate metabolism pathways like glycolysis and the TCA cycle, along with amino acid metabolism pathways, whereas A. pruinosa significantly altered the content of multiple small peptides affected amino acid metabolism. Furthermore, the osmoregulatory potential of corals correlates with their ability to survive in heat-stress environments in the wild. This study provides valuable insights into the metabolic mechanisms linked to thermal tolerance in reef-building corals, contributes to the understanding of corals' adaptive potential to heat stress induced by global warming and lays the foundation for developing targeted conservation strategies in the future. • Metabolic profiles differed between unbleached and bleached corals. • Bleached corals consumed energy reserves like nucleotides and lipids. • Coral bleaching led to oxidative damage and immune response activation. • Osmotic substances were crucial in coral response to heat stress. • New insights into metabolic response of reef-building corals to heat stress. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Short-term thermal acclimation improved the thermal tolerance of three species of scleractinian corals in the South China Sea.
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Huang, Wen, Xiao, Zunyong, Liu, Xu, Yu, Kefu, Wang, Yonggang, Meng, Linqing, Wang, Lirong, and Wu, Zhiqiang
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ACCLIMATIZATION , *CORAL bleaching , *SCLERACTINIA , *CORAL reef restoration , *PHYSIOLOGY , *CORAL reefs & islands , *GLUTAMINE synthetase - Abstract
Investigating the potential and mechanisms of thermal adaptability in scleractinian corals is critical for aiding corals in dealing with global warming and improving the efficiency of coral reef restoration efforts. Although thermal acclimation facilitates the resistance of branching corals to thermal stress, little is known about the physiological processes of massive and platy corals in the South China Sea or their ability to adapt to heat stress. In this study, we conducted indoor short-term thermal acclimation simulation experiments on three types of corals: massive Porites lutea , platy Pavona decussata , and branching Pocillopora damicornis. Subsequently, we studied the responses and adaptive mechanisms of the three corals to heat stress and explored the effects of short-term thermal acclimation using physiological and biochemical markers. The results showed that the three corals exhibited comparable phenotypic and physiological responses to heat stress, including tentacle retraction and decreases in zooxanthellae density, maximum quantum efficiency of photosystem II, and glutathione content, along with increases in antioxidant activity (catalase and superoxide dismutase), ammonium assimilation (glutamine synthetase), and apoptosis (lipid peroxide and caspase-3). Additionally, heat tolerance differed among the different species of coral. Furthermore, the physiological markers performed better in all three coral types after acclimation, and the effects of short-term acclimation decreased from P. lutea to P. damicornis to P. decussata. We propose that short-term thermal acclimation enhances the heat tolerance of corals by affecting their metabolism and antioxidant capacity. Leveraging short-term thermal acclimation in coral reef restoration efforts could help corals adapt to the threats posed by global warming and enhance restoration efficiency. • Coral reefs are in rapid decline in the context of global pressures. • Different types of scleractinian corals display similar responses to heat stress. • Short-term thermal acclimation enhances the coral antioxidant capacity. • Porites lutea and Pocillopora damicornis have better thermal acclimatization. [ABSTRACT FROM AUTHOR]
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- 2024
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6. SST and ENSO activity 282,000 years ago reconstructed from Porites coral in the South China Sea.
- Author
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Tao, Shichen, Liu, Kam-biu, Yan, Hongqiang, Meng, Min, Zhang, Huiling, Wu, Yi, Yu, Kefu, and Shi, Qi
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PORITES , *LITTLE Ice Age , *CORAL bleaching , *OCEAN temperature , *CORALS , *GLOBAL warming ,EL Nino - Abstract
The El Niño-Southern Oscillation (ENSO) is the most influential climatic phenomenon on an interannual timescale. Studying the relationship between sea surface temperature (SST) and ENSO events during typical geological periods is helpful for understanding the trends of ENSO activities in the future, especially under the background of global warming. Here we quantitatively reconstructed a 115-year history of SST and ENSO activity around 282 ka during Marine Isotope Stage 8 (MIS8) by using the growth rate of Porites corals from Xisha Islands in the South China Sea. The results show that the average coral growth rate (6.0 ± 1.0 mm/yr (1σ)) around 282 ka was only 56.1% of the modern average value (10.7 ± 0.9 mm/yr; 1937–2014 CE), and the average SST (26.0 ± 0.3 °C (1σ)) was 0.7 ± 0.4 °C and 1.1 ± 0.4 °C lower than that in the Little Ice Age (LIA; 1520–1676 CE; 26.7 ± 0.2 °C) and the present (1937–2014; 27.1 ± 0.2 °C), respectively. The reconstructed results show that there was significant ENSO activity with moderate intensity or above at 282 ka, while the frequency of ENSO activity at that time was lower than that of the LIA and the present. This seems to indicate that the frequency of moderate intensity ENSO activity increases with rising SST. Given the current rapid warming, the future trend of ENSO activities deserves close attention. • The growth rate of Porites coral is a reliable paleoenvironmental proxy. • The coral growth rate at 282 ka was only equivalent to 56.1% of the present. • Coral–SST at 282 ka was 0.7 °C and 1.1 °C lower than the LIA and present, respectively. • The ENSO frequency at 282 ka was lower than the present. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Exposure to pentachlorophenol destructs the symbiotic relationship between zooxanthellae and host and induces pathema in coral Porites lutea.
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Zhang, Yuanyuan, Luo, Lan, Gan, Pin, Chen, Xuan, Li, Xiaoli, Pang, Yan, Yu, Xiaopeng, and Yu, Kefu
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- 2024
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8. New insights into the on-site monitoring of probiotics eDNA using biosensing technology for heat-stress relieving in coral reefs.
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Wang, Liwei, Bin, Qi, Liu, Hongjie, Zhang, Yibo, Wang, Shaopeng, Luo, Songlin, Chen, Zhenghua, Zhang, Man, and Yu, Kefu
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CORAL reefs & islands , *CORALS , *CORAL bleaching , *DNA probes , *GLOBAL warming , *PROBIOTICS - Abstract
Coral probiotics can improve the tolerance of corals to heat stress, thus mitigating the process of coral thermal bleaching. Sensitive and specific detection of coral probiotics at low abundances is highly desirable but remains challenging, especially for rapid and on-site detection of coral probiotics. Since the electrochemical biosensor has been recently used in the field of environmental DNA (eDNA) detection, herein, an efficient electrochemical biosensor was developed based on CoS 2 /CoSe 2 -NC HNCs electrode material with a specific DNA probe for the C. marina detection. After optimization, the lower limit of detection (LOD) values of such biosensors for the target DNA and genomic DNA were 1.58 fM and 6.5 pM, respectively. On this basis, a portable device was constructed for the practical detection of C. marina eDNA, and its reliability and accuracy were verified by comparison with the ddPCR method (P > 0.05). For each analysis, the average cost was only ∼ $1.08 and could be completed within 100 min with reliable sensitivity and specificity. Overall, the biosensor could reflect the protective effect of probiotics on coral heat stress, and the proposed technique will put new insights into the rapid and on-site detection of coral probiotics to assist corals against global warming. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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