Low light induces distinct energy and resource allocation in calcareous macroalgae Halimeda opuntia and Amphiroa fragilissima
ID:800 View Protection:ATTENDEE Updated Time:2024-10-13 10:24:12 Hits:925 Poster Presentation

Start Time:2025-01-16 17:05(Asia/Shanghai)

Duration:15min

Session:S19 Session 19-Marine Plankton Ecosystem and Global Climate Change » S19-PMarine Plankton Ecosystem and Global Climate Change

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Abstract
Benthic calcareous macroalgae are vital primary producers and reef-builders in global reef ecosystems. Light availability is a critical factor for their growth, and reductions in light due to human activities pose significant challenges to their reproduction. However, there is limited research in this area. Here, we investigated the proteomic and physiological responses of the green macroalga Halimeda opuntia and the red microalga Amphiroa fragilissima under different light intensities. In H. opuntia, we observed no significant variation of Chl a and Fv/Fm values but a decrease in tissue carbonate content and calcification rate. In contrast, A. fragilissima showed increased Chl a and Fv/Fm values, and an elevated calcification rate. The two species exhibited distinct strategies in response to light limitation, as reflected by the differential enrichment of processes such as translation, signal transduction, peptidases, membrane trafficking, and exosome in H. opuntia, and transporters, photosynthesis, oxidative phosphorylation, nitrogen metabolism, and exosome in A. fragilissima. Both species downregulated proteins related to photosynthesis, light harvesting, and carbon fixation, likely as an adaptive response to reduced light input. Notably, H. opuntia upregulated plasma membrane-type Ca²⁺-ATPase and intracellular carbonic anhydrase (CA) to enhance the concentration of calcifying ions, thereby sustaining calcification under low light. On the other hand, A. fragilissima appeared to allocate more energy to calcification through the upregulation of glycolysis, the TCA cycle, and oxidative phosphorylation. Our findings reveal distinct strategies for maintaining growth and calcification under low light conditions between the two macroalgae. This suggests a potential advantage for Halimeda in adapting to future reductions in ocean light availability.
 
Keywords
Proteomics,Light, reef, calcification, Macroalgae
Speaker
Hao Zhang
Associate professor South China Sea Institute of Oceanology, Chinese Academy of Sciences

Submission Author
Hao Zhang South China Sea Institute of Oceanology, Chinese Academy of Sciences
Lijuan Long South China Sea Institute of Oceanology, Chinese Academy of Sciences
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Important Date
  • Conference Date

    Jan 13

    2025

    to

    Jan 17

    2025

  • Sep 27 2024

    Draft paper submission deadline

  • Feb 17 2025

    Registration deadline

Sponsored By
State Key Laboratory of Marine Environmental Science, Xiamen University
Organized By
State Key Laboratory of Marine Environmental Science, Xiamen University
Department of Earth Sciences, National Natural Science Foundation of China
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