Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA.
ISME J. 2013 Jun;7(6):1248-51. doi: 10.1038/ismej.2013.12. Epub 2013 Feb 14.
Many reef-building corals form symbioses with dinoflagellates from the diverse genus Symbiodinium. There is increasing evidence of functional significance to Symbiodinium diversity, which affects the coral holobiont's response to changing environmental conditions. For example, corals hosting Symbiodinium from the clade D taxon exhibit greater resistance to heat-induced coral bleaching than conspecifics hosting the more common clade C. Yet, the relatively low prevalence of clade D suggests that this trait is not advantageous in non-stressful environments. Thus, clade D may only be able to out-compete other Symbiodinium types within the host habitat when conditions are chronically stressful. Previous studies have observed enhanced photosynthesis and fitness by clade C holobionts at non-stressful temperatures, relative to clade D. Yet, carbon-centered metrics cannot account for enhanced growth rates and patterns of symbiont succession to other genetic types when nitrogen often limits reef productivity. To investigate the metabolic costs of hosting thermally tolerant symbionts, we examined the assimilation and translocation of inorganic (15)N and (13)C in the coral Acropora tenuis experimentally infected with either clade C (sub-type C1) or D Symbiodinium at 28 and 30 °C. We show that at 28 °C, C1 holobionts acquired 22% more (15)N than clade D. However, at 30 °C, C1 symbionts acquired equivalent nitrogen and 16% less carbon than D. We hypothesize that C1 competitively excludes clade D in hospite via enhanced nitrogen acquisition and thus dominates coral populations despite warming oceans.
许多造礁珊瑚与来自多样的 Symbiodinium 属的甲藻形成共生关系。越来越多的证据表明 Symbiodinium 多样性具有功能意义,这会影响珊瑚共生体对环境变化的响应。例如,与宿主同种但共生甲藻为更常见的 clade C 的珊瑚相比,宿主共生 clade D 甲藻的珊瑚对热诱导的珊瑚白化表现出更强的抗性。然而,clade D 的相对低流行率表明,在非胁迫环境中,这种特性没有优势。因此,当环境长期处于胁迫状态时,clade D 可能只能在宿主栖息地内与其他 Symbiodinium 类型竞争。先前的研究观察到 clade C 共生体在非胁迫温度下具有增强的光合作用和适应性,相对 clade D。然而,当氮通常限制珊瑚生产力时,以碳为中心的指标无法解释对其他遗传类型共生体的增强生长率和演替模式。为了研究宿主耐热共生体的代谢成本,我们在 28 和 30°C 下,实验感染 clade C(亚型 C1)或 D Symbiodinium 的 Acropora tenuis 珊瑚,研究了无机 (15)N 和 (13)C 的同化和转运。我们表明,在 28°C 时,C1 共生体比 clade D 共生体多获得 22%的 (15)N。然而,在 30°C 时,C1 共生体获得的氮与 D 共生体相同,但碳含量比 D 共生体少 16%。我们假设 C1 通过增强的氮获取在宿主中竞争排斥 clade D,因此尽管海洋变暖,仍能主导珊瑚种群。