Characterization of deep-sea sponge ground (Asconema setubalense) using structure from motion methodology.

IF 2.1 4区 地球科学 Q2 MARINE & FRESHWATER BIOLOGY
Pablo Heres , Pilar Rios , Javier Cristobo , Alberto Abad-Uribarren , Augusto Rodríguez-Basalo , Elena Prado
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引用次数: 0

Abstract

The hexactinellid sponge Asconema setubalense Kent, 1870 is a deep-sea species characterized by its expansive cup-shaped morphology, which contributes significantly to the three-dimensional complexity of the marine ecosystems. This sponge forms grounds that offer protection to pelagic organisms and juvenile stages. Despite its ecological relevance, there is a lack of information on the ecology, behavior and population structure of this species. The research aimed to conduct a multitemporal analysis of this sponge in the Aviles Canyon System over a ten-year period, focusing on spatial distribution and abundance. Changes in fishing pressure were estimated using the presence of fishing gears as a proxy. Additionally, the study sought to provide a detailed morphometric description through 3D photogrammetric reconstructions based on the latest data. The multi-temporal analysis revealed a subtle increase in sponge density, particularly at depths ranging from 320 to 390 m, exhibiting an irregular spatial distribution in 2022, with maximal values of 0.08 individuals/m2. Despite a small decrease on the loss of fishing gears in the overlapping area between samplings in 2012 and 2022, there was not a clear indication of a decline in fishing pressure over the years. Notably, more sightings of fishing gears were found in transect IC222TV_16 (0.07 gears/m2) than in IC222_TV02 (0.04 gears/m2) in 2022, suggesting potential spatial preferences for fishing activities. Visual analysis of temporal populations revealed an increase of 7% in specimen perturbations over ten years, with the population in IC222_TV16 being healthier (9% of the individuals presenting severe deformations) than in IC222_TV02 (40%). High-density fishing gear locations coincided with areas inhabited by sponges displaying the highest perturbation levels in both transects. Morphometric analysis using data from 2022 indicated a prevalence of individuals with heights concentrated between 0.18 and 0.38 m, osculum and flounce diameters reaching 0.4 and 0.56 m and osculum and flounce surfaces of 0.02–0.04 and 0.06–0.19 m2 respectively. Over 80% of measured specimens exhibited a high degree of asymmetry. Strong correlations were observed between heights and osculum and flounce surfaces, but external factors may be included for explaining wall deformities. These findings contribute valuable insights into the characterization of A. setubalense, serving as a foundation for future research in the area. Moreover, this work highlights the promising potential of photogrammetry as an efficient tool for monitoring of vulnerable marine ecosystems (VME) and marine protected areas.

利用运动结构方法确定深海海绵地(Asconema setubalense)的特征。
海鞘(Asconema setubalense Kent,1870 年)是一种深海物种,其特征是具有扩张的杯状形态,这极大地增强了海洋生态系统的三维复杂性。这种海绵形成的地层为浮游生物和幼体提供保护。尽管该物种与生态密切相关,但有关其生态、行为和种群结构的信息却十分匮乏。这项研究旨在对阿维莱斯峡谷系统中的这种海绵进行为期十年的多时空分析,重点是空间分布和丰度。以渔具的存在作为替代,估算捕捞压力的变化。此外,该研究还试图根据最新数据,通过三维摄影测量重建提供详细的形态描述。多时分析表明,海绵密度有了微妙的增加,尤其是在水深 320 至 390 米处,2022 年的海绵密度呈不规则空间分布,最大值为 0.08 个/平方米。尽管 2012 年和 2022 年采样之间重叠区域的渔具损耗略有减少,但这几年并没有明显的捕捞压力下降迹象。值得注意的是,2022 年在 IC222TV_16 号断面(0.07 个渔具/平方米)发现的渔具比 IC222_TV02 号断面(0.04 个渔具/平方米)更多,这表明捕捞活动可能具有空间偏好。对时间种群的目测分析表明,10 年间标本畸变增加了 7%,IC222_TV16 的种群(9%的个体出现严重畸变)比 IC222_TV02 的种群(40%)更健康。在两个横断面上,高密度渔具位置与海绵栖息区域相吻合,显示出最高的扰动水平。利用 2022 年的数据进行的形态计量分析表明,个体高度集中在 0.18 至 0.38 米之间,鳞茎和瓣膜直径分别为 0.4 米和 0.56 米,鳞茎和瓣膜面积分别为 0.02-0.04 平方米和 0.06-0.19 平方米。超过 80% 的测量试样表现出高度不对称。观察到高度与外凸和外翻表面之间存在很强的相关性,但外部因素也可能是墙体变形的原因之一。这些发现为研究 A. setubalense 的特征提供了宝贵的见解,为该领域未来的研究奠定了基础。此外,这项工作还凸显了摄影测量作为监测脆弱海洋生态系统(VME)和海洋保护区的有效工具的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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