用于评估环境因素对群落水平珊瑚代谢影响的连续流完全混合系统

Hiroyuki Fujimura , Tomihiko Higuchi , Kazuyo Shiroma , Takemitsu Arakaki , Asha Mansour Hamdun , Yoshikatsu Nakano , Tamotsu Oomori
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引用次数: 17

摘要

设计了一个小型室内实验系统,研究温度对珊瑚群落代谢的影响。该系统持续不断地向腔室供应新鲜海水,在那里它立即与已经存在的海水完全混合。这种连续流动完全混合系统(CFCM系统)与理论方程相结合,可以定量确定珊瑚在受控环境条件下的化学物质吸收和释放率。我们使用巨大的两性珊瑚Goniastrea aspera,在27°C和受控光强度(300和0µmol m−2 s−1)下检测了16天的pH、总碱度和总无机碳的变化。我们证实了CFCM系统在珊瑚光合作用和钙化通量方面的稳定性。此外,我们还获得了不同温度(27°C、29°C、31°C和33°C)下的日光合速率和钙化速率。当海水温度从31℃升高到33℃时,2 d内总初级产量(Pgross)下降29.5%,钙化率(G)下降85.7%。CFCM系统可以定量评估珊瑚群落的化学物质释放和吸收速率以及新陈代谢。
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Continuous-flow complete-mixing system for assessing the effects of environmental factors on colony-level coral metabolism

A small-scale chamber experimental system was designed to study the effects of temperature on colony-level coral metabolism. The system continuously supplies fresh seawater to the chamber, where it is mixed immediately and completely with the seawater already present. This continuous-flow complete-mixing system (CFCM system), in conjunction with theoretical equations, allows quantitative determination of chemical uptake and release rates by coral under controlled environmental conditions. We used the massive hermatypic coral Goniastrea aspera to examine variations in pH, total alkalinity, and total inorganic carbon for 16 days at 27 °C under controlled light intensities (300 and 0 µmol m 2 s 1). We confirmed the stability of the CFCM system with respect to coral photosynthetic and calcification fluxes. In addition, we obtained daily photosynthetic and calcification rates at different temperatures (27 °C, 29 °C, 31 °C, and 33 °C). When seawater temperature was raised from 31 °C to 33 °C, the gross primary production rate (Pgross) decreased 29.5%, and the calcification rate (G) decreased 85.7% within 2 days. The CFCM system allows quantitative evaluation of coral colony chemical release and uptake rates, and metabolism.

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