海床的守护者:近海风电场冲刷保护的自然包容性设计可提高底栖生物的多样性

IF 2.1 4区 地球科学 Q2 MARINE & FRESHWATER BIOLOGY Journal of Sea Research Pub Date : 2024-05-06 DOI:10.1016/j.seares.2024.102502
Enzo M. Kingma , Remment ter Hofstede , Edwin Kardinaal , Rebecca Bakker , Oliver Bittner , Babeth van der Weide , Joop W.P. Coolen
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引用次数: 0

摘要

过去,北海南部的大部分海床被硬底质覆盖,包括牡蛎床、粗泥炭滩和冰川碎屑。人类活动,尤其是底拖网渔业,导致这些硬底质的大部分消失,从而也导致了相关的多种底栖生物的消失。不过,北海海上风电场等人造结构的引入,为提供与以前的硬底质功能类似的生境提供了机会。海上风电场的基础设施一般都在风力涡轮机基础和电缆交叉点的底部铺设了一层岩石材料,即所谓的冲刷保护层,目的是防止海床受到侵蚀。冲刷保护层为生活在岩石中的底栖生物提供了一个独特的栖息地,而其他地方大多是软底环境。通过将冲刷保护设计得更具有自然包容性,可以增加底栖生物的生物多样性。在这项研究中,我们考察了底质材料和冲刷保护层的等级对现场底栖生物多样性的影响。具体方法是在荷兰北海的一个海上风电场内的冲刷保护层上放置装有不同类型基质(混凝土、花岗岩和大理石)的板条箱(n = 15)的研究笼。研究表明,可用底质表面(卵石大小)与分类丰富度之间存在明显的正相关关系(p < 0.05)。此外,对生活习性(管栖、穴居、自由生活、缝隙栖息、外生/内生和附着)的生物特征评估显示,不同基质类型的习性模式存在差异,其中大理石和混凝土样本的差异最大。大理石样本中管栖生物的比例较高,而混凝土样本中自由生活生物、外生/内生生物和缝隙栖生物的比例相对较高。研究结果支持自然包容性冲刷防护设计的价值,强调通过增加冲刷防护的可用表面积并结合各种基质类型,可以提高分类和功能多样性。通过采用这些自然包容性设计元素,可再生能源生产与多样化海洋底栖生物群落的共存可以得到进一步优化。
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Guardians of the seabed: Nature-inclusive design of scour protection in offshore wind farms enhances benthic diversity

In the past, a large part of the seabed of the southern North Sea was covered by hard substrates, including oyster beds, coarse peat banks, and glacial erratics. Human activities, particularly bottom trawl fisheries, led to the disappearance of most of these hard substrates, resulting in the loss of its associated diverse benthic life as well. However, the introduction of human-made structures such as offshore wind farms in the North Sea, offers a chance to provide habitat of similar functionality as the former hard substrates. The offshore wind farm infrastructure generally contains layers of rock material deployed at the base of the wind turbine foundations and cable crossings, so-called scour protection, aiming to prevent seabed erosion. The scour protection offers a unique habitat for rock-dwelling benthic organisms in an otherwise mostly soft-bottom environment. By designing the scour protection to be more nature-inclusive, the biodiversity of benthic life can be increased. In this study we examined the effect of substrate material and grading of the scour protection on the epibenthic biodiversity in situ. This was done by deploying research cages containing crates (n = 15) with different types of substrates (concrete, granite, and marble) on the scour protection within an offshore wind farm in the Dutch North Sea. The study revealed a significant (p < 0.05) positive relation between available substrate surface (pebble size) and taxonomic richness. Furthermore, a biological trait assessment of living habits (Tube dwelling, Burrowing, Free living, Crevice dwelling, Epi/endobiotic, and Attached) revealed variations in habit modes across substrate types, with marble and concrete samples showing greatest divergence. Marble samples contained a higher prevalence of tube dwelling organisms, whereas concrete samples contained a relatively higher prevalence of free living, epi/endobiotic and crevice dwelling organisms. The findings support the value of nature-inclusive scour protection designs, emphasizing that both taxonomic and functional diversity can be enhanced by increasing the available surface area of the scour protection and incorporating a variety of substrate types. By adopting these nature-inclusive design components, the coexistence of renewable energy production and a diverse marine benthic community can be further optimized.

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来源期刊
Journal of Sea Research
Journal of Sea Research 地学-海洋学
CiteScore
3.20
自引率
5.00%
发文量
86
审稿时长
6-12 weeks
期刊介绍: The Journal of Sea Research is an international and multidisciplinary periodical on marine research, with an emphasis on the functioning of marine ecosystems in coastal and shelf seas, including intertidal, estuarine and brackish environments. As several subdisciplines add to this aim, manuscripts are welcome from the fields of marine biology, marine chemistry, marine sedimentology and physical oceanography, provided they add to the understanding of ecosystem processes.
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