深海木质残骸上的β多样性反映了能量可利用性的梯度变化。
Beta-diversity on deep-sea wood falls reflects gradients in energy availability.
作者信息
McClain Craig, Barry James
机构信息
National Evolutionary Synthesis Center, , 2024 West Main St., Durham, NC 27705, USA.
出版信息
Biol Lett. 2014 Apr 9;10(4):20140129. doi: 10.1098/rsbl.2014.0129. Print 2014.
Abstract
Wood falls on the deep-sea floor represent a significant source of energy into the food-limited deep sea. Unique communities of primarily wood- and sulfide-obligate species form on these wood falls. However, little is known regarding patterns and drivers of variation in the composition of wood fall communities through space and time, and thus, how wood falls contribute to deep-sea biodiversity. Eighteen Acacia logs varying in size were placed and retrieved after five years at a 3200 m site in the Pacific Ocean. We found that the taxonomic composition and structure of deep-sea wood fall communities varied considerably and equated with considerable differences in energy usage and availability. Our findings suggest that natural variability in wood falls may contribute significantly to deep-sea diversity.
摘要
落在深海海底的木材是能量进入食物匮乏的深海的一个重要来源。在这些木材沉降区形成了以主要依赖木材和硫化物的物种为主的独特群落。然而,关于木材沉降区群落组成随时间和空间变化的模式及驱动因素,以及木材沉降如何促进深海生物多样性,我们所知甚少。在太平洋3200米深处的一个地点放置了18根大小各异的相思木原木,五年后将其取回。我们发现,深海木材沉降区群落的分类组成和结构差异很大,这与能量利用和可获得性的显著差异相当。我们的研究结果表明,木材沉降的自然变异性可能对深海多样性有重大贡献。
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