Field collections and environmental DNA surveys reveal topographic complexity of coral reefs as a predictor of cryptobenthic biodiversity across small spatial scales

Q1 Agricultural and Biological Sciences Environmental DNA Pub Date : 2024-05-17 DOI:10.1002/edn3.545
O. B. Brodnicke, M. R. Jensen, P. F. Thomsen, T. Brorly, B. L. Andersen, S. W. Knudsen, K. Præbel, S. J. Brandl, M. J. Sweet, P. R. Møller, K. Worsaae
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Abstract

Coral reefs represent some of the most biodiverse ecosystems in the world but are currently undergoing large-scale degradation due to anthropogenic stressors. Such degradation usually begins with coral bleaching, and if the stress condition is inflicted for too long may eventually result in loss of structural complexity (or “flattening”) of the reef, dramatically changing habitat availability for reef-associated fauna. Despite having been linked to important ecosystem functions, cryptobenthic organisms are often overlooked in ecological monitoring programs, and their microhabitat dependencies are poorly understood. Here, we combined collection-based biodiversity monitoring techniques with five different environmental DNA (eDNA) sampling techniques (Reef water, sediment, crevice water, slurp gun, and bulk sediment) to survey cryptobenthic fishes and annelids on a Maldivian fringing coral reef. Collectively, 176 fish and 140 annelid taxa were detected with eDNA across 14 surveyed sites, more than doubling the reported annelid taxa in the region with 88 new occurrences. Water filtered near the reef structure revealed the highest species richness out of the five eDNA sampling techniques tested. Furthermore, we found correlations between fish species richness and topographic complexity for both collection- and eDNA-based techniques. This suggests that detection by eDNA may be linked to site-specific predictors and reveal community differences across small spatial scales (tens of meters). We also report that reef flattening (going from structural complex to less complex sites) can cause a 50% reduction in fish diversity and that cryptobenthic fish species richness was highly associated with branching corals. In contrast, annelid communities showed no clear correlations with environmental predictors, but co-amplification of non-target, non-annelid taxa may have distorted such correlations if present. This suggest that the predictive powers of eDNA for environmental gradients may be dependent on the targeted taxa.

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野外采集和环境 DNA 调查显示,珊瑚礁的地形复杂性可预测小空间尺度上的隐底栖生物多样性
珊瑚礁是世界上生物多样性最丰富的生态系统之一,但由于人为的压力因素,珊瑚礁目前正在经历大规模的退化。这种退化通常从珊瑚白化开始,如果压力条件持续时间过长,最终可能导致珊瑚礁结构复杂性的丧失(或 "扁平化"),从而极大地改变珊瑚礁相关动物的栖息地可用性。尽管隐底栖生物与重要的生态系统功能有关,但在生态监测项目中却经常被忽视,人们对它们的微生境依赖性也知之甚少。在这里,我们将基于采集的生物多样性监测技术与五种不同的环境 DNA(eDNA)取样技术(礁水、沉积物、缝隙水、啧啧枪和大块沉积物)相结合,调查了马尔代夫边缘珊瑚礁上的隐翅鱼和无脊椎动物。在 14 个调查地点共检测到 176 种鱼类和 140 种环体类群的 eDNA,比该地区报告的环体类群增加了一倍多,新出现了 88 种。在所测试的五种 eDNA 采样技术中,礁石结构附近的过滤水显示出最高的物种丰富度。此外,我们还发现鱼类物种丰富度与基于采集和 eDNA 技术的地形复杂性之间存在相关性。这表明,eDNA 的检测可能与特定地点的预测因素有关,并能揭示小空间尺度(数十米)上的群落差异。我们还报告说,珊瑚礁扁平化(从结构复杂的地点到不太复杂的地点)会导致鱼类多样性减少 50%,而且隐底栖生物鱼类物种丰富度与分支珊瑚高度相关。相比之下,无环节动物群落与环境预测因子之间没有明显的相关性,但如果存在非目标、非通道类群的共同扩增,则可能会扭曲这种相关性。这表明,eDNA 对环境梯度的预测能力可能取决于目标分类群。
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来源期刊
Environmental DNA
Environmental DNA Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
11.00
自引率
0.00%
发文量
99
审稿时长
16 weeks
期刊最新文献
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