Hierarchical drivers of cryptic biodiversity on coral reefs

IF 7.1 1区 环境科学与生态学 Q1 ECOLOGY
Kennedy Wolfe, Tania M. Kenyon, Amelia Desbiens, Kimberley de la Motte, Peter J. Mumby
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引用次数: 3

Abstract

Declines in habitat structural complexity have marked ecological outcomes, as currently observed in many of the world's ecosystems. Coral reefs have provided a model for such changes in marine ecosystems; still our understanding has been centered on corals and fishes at broad spatial scales when metazoan diversity on coral reefs is dominated by small cryptic taxa (herein: “cryptofauna”). Given the paucity of studies and high taxonomic complexity of the cryptofauna, both of which limit a priori hypotheses, we asked whether hierarchical structuring theory provides a compelling framework to impose order and quantify patterns. In general terms, we explored whether cryptic communities are sufficiently described by broad seascape parameters or limited by a set of processes operating at their distinctly nested microhabitat scale. To address this theory and gaps in knowledge for the cryptofauna, we characterized community structure in coral rubble, an eroded coral condition where biodiversity proliferates. Rubble was sampled along a depth and exposure gradient at Heron Island on the Great Barrier Reef, Australia, to parameterize environmental and morphological indicators of sessile taxa and motile cryptofauna communities. We used a hierarchical study framework from microhabitat to seascape scales, which were evaluated using nonstructured multivariate analyses and Bayesian structural equation modeling. While the nonstructured analyses showed the effects of seascape on the cryptobenthos and its community, this approach overlooked the finer hierarchical patterns in rubble ecology revealed only in the structured model. Seascape parameters (exposure and depth) influenced microhabitat complexity (i.e., rubble branchiness), which determined the cover of sessile organisms on rubble pieces, which shaped the motile cryptofauna community. Rubble is likely to be increasingly prevalent on coral reefs in the Anthropocene and is typically associated with low seascape-level complexity and reduced macrofaunal richness. Parallel with hierarchical structuring theory, we showed a similar response operating at the microhabitat scale whereby low rubble complexity (i.e., branchiness) reduced cryptobenthic structure, diversity and size spectra. In a future ocean, we expect there may be an initial increase in biodiversity and trophodynamic processes derived from branching rubble, but a delay in ecosystem-scale outcomes if coral, and thus rubble, generation and complexity is not sustained.

Abstract Image

珊瑚礁上隐秘生物多样性的等级驱动因素
正如目前在世界上许多生态系统中所观察到的那样,栖息地结构复杂性的下降已经带来了显著的生态后果。珊瑚礁为海洋生态系统的这种变化提供了一个模型;然而,我们的认识仍然集中在广泛的空间尺度上的珊瑚和鱼类,而珊瑚礁上的后生动物多样性主要是小型的隐动物群(此处称为“隐动物群”)。考虑到研究的缺乏和隐动物群分类的高度复杂性,这两者都限制了先验假设,我们问层次结构理论是否提供了一个令人信服的框架来强加秩序和量化模式。总的来说,我们探讨了隐群落是否被广泛的海景参数充分描述,还是受到在其独特的嵌套微生境尺度上运行的一系列过程的限制。为了解决这一理论和隐动物群知识的空白,我们描述了珊瑚碎石中的群落结构,这是一种生物多样性激增的侵蚀珊瑚条件。在澳大利亚大堡礁Heron岛沿深度和暴露梯度取样碎石,以参数化无根分类群和活动隐动物群群落的环境和形态指标。我们采用了从微生境到海景尺度的分层研究框架,利用非结构化多变量分析和贝叶斯结构方程模型对其进行了评估。虽然非结构化分析显示了海景对隐底生物及其群落的影响,但这种方法忽略了只有在结构化模型中才能揭示的碎石生态中更精细的分层模式。海景参数(暴露度和深度)影响微生境复杂性(即碎石枝度),从而决定了碎石片上无根生物的覆盖,从而形成了活动隐动物群。在人类世,碎石可能在珊瑚礁上越来越普遍,并且通常与海平面复杂性低和大型动物丰富度减少有关。与层次结构理论平行,我们在微生境尺度上显示了类似的响应,即低碎石复杂性(即分枝)降低了隐底生物的结构、多样性和尺寸谱。在未来的海洋中,我们预计可能会有最初的生物多样性和滋养动力学过程的增加,但如果珊瑚和碎石的产生和复杂性不能持续,生态系统规模的结果可能会延迟。
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来源期刊
Ecological Monographs
Ecological Monographs 环境科学-生态学
CiteScore
12.20
自引率
0.00%
发文量
61
审稿时长
3 months
期刊介绍: The vision for Ecological Monographs is that it should be the place for publishing integrative, synthetic papers that elaborate new directions for the field of ecology. Original Research Papers published in Ecological Monographs will continue to document complex observational, experimental, or theoretical studies that by their very integrated nature defy dissolution into shorter publications focused on a single topic or message. Reviews will be comprehensive and synthetic papers that establish new benchmarks in the field, define directions for future research, contribute to fundamental understanding of ecological principles, and derive principles for ecological management in its broadest sense (including, but not limited to: conservation, mitigation, restoration, and pro-active protection of the environment). Reviews should reflect the full development of a topic and encompass relevant natural history, observational and experimental data, analyses, models, and theory. Reviews published in Ecological Monographs should further blur the boundaries between “basic” and “applied” ecology. Concepts and Synthesis papers will conceptually advance the field of ecology. These papers are expected to go well beyond works being reviewed and include discussion of new directions, new syntheses, and resolutions of old questions. In this world of rapid scientific advancement and never-ending environmental change, there needs to be room for the thoughtful integration of scientific ideas, data, and concepts that feeds the mind and guides the development of the maturing science of ecology. Ecological Monographs provides that room, with an expansive view to a sustainable future.
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