高纬度钙化珊瑚藻表现出对酸化的季节性脆弱性,尽管物理上接近非钙化藻类

LE Bell , JB Gómez , E Donham , DL Steller , PW Gabrielson , KJ Kroeker
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引用次数: 1

摘要

脆弱物种对全球变化的紧急反应可能会有所不同,这取决于在增加的压力下支持其生产力的可用资源的相对质量,以及与其他物种可能改变其获取这些资源的生物相互作用。本研究测试了海水二氧化碳分差如何与季节光照可得性相互作用,从而影响高纬度珊瑚藻的光合作用和钙化,以及这些钙化大型藻类的反应是否会因与非钙化海藻的物理关联而改变。通过原位方法,我们的研究首先调查了当前季节性环境变化如何影响阿拉斯加东南部海带森林中林下珊瑚藻(Crusticorallina sp.)和波氏菌(Bossiella orbigniana)的生长。然后,我们通过实验控制pH值来模拟本世纪末的酸化情景,光照制度来模拟底栖动物的季节性光照可用性,并将有肉红藻和没有肉红藻的珊瑚藻进行配对,以检查这些变量对珊瑚生产力和钙化的相互作用。我们的研究结果表明:1)在预测的未来冬季pH值和碳酸盐饱和状态条件下,珊瑚物种可能面临净溶解;2)高纬度生产水域的季节性光照可用性差异可能不足以改变珊瑚藻的净钙化;3)与非钙化红藻的关联不会改变这些珊瑚藻物种对海洋酸化情景的响应。这项研究强调了在预测物种对全球变化的脆弱性时,将环境变异性和群落相互作用纳入当地知情情景的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-latitude calcified coralline algae exhibit seasonal vulnerability to acidification despite physical proximity to a non-calcified alga

The emergent responses of vulnerable species to global change can vary depending on the relative quality of resources available to support their productivity under increased stress, as well as the biotic interactions with other species that may alter their access to these resources. This research tested how seawater pCO2 may interact with seasonal light availability to affect the photosynthesis and calcification of high-latitude coralline algae, and whether the responses of these calcified macroalgae are modified by physical association with a non-calcified seaweed. Through an in situ approach, our study first investigated how current seasonal environmental variation affects the growth of the understory coralline algae Crusticorallina spp. and Bossiella orbigniana in Southeast Alaska's kelp forests. We then experimentally manipulated pH to simulate end-of-century acidification scenarios, light regime to simulate seasonal light availability at the benthos, and pairings of coralline algal species with and without a fleshy red alga to examine the interactive effects of these variables on coralline productivity and calcification. Our results indicate that: 1) coralline species may face net dissolution under projected future winter pH and carbonate saturation state conditions, 2) differences in seasonal light availability in productive, high-latitude waters may not be distinct enough to modify coralline algal net calcification, and 3) association with a non-calcified red alga does not alter the response of these coralline algal species to ocean acidification scenarios. This research highlights the necessity of incorporating locally informed scenarios of environmental variability and community interactions when predicting species’ vulnerability to global change.

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