Sediment carbon storage in subtidal beds of the invasive seagrass Halophila stipulacea along an extreme water depth gradient, St. Thomas, U.S. Virgin Islands

IF 1.9 4区 生物学 Q2 MARINE & FRESHWATER BIOLOGY Aquatic Botany Pub Date : 2024-05-08 DOI:10.1016/j.aquabot.2024.103778
Kelsey M. Vaughn , Allie Durdall , Demian A. Willette , Marilyn Brandt , Sophia Costa , Kristin Wilson Grimes
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Abstract

Blue carbon ecosystems such as mangroves, salt marshes, and seagrass beds are found globally and are fundamental to fisheries production, storm surge protection, and carbon sequestration. The contribution of seagrass ecosystems to global carbon stocks is still not well understood, including in the United States Virgin Islands (USVI). No study has been published to-date assessing the sediment carbon density (SCD) in seagrass beds in the USVI. This study focused on the carbon storage ability of the invasive species, Halophila stipulacea, which is compact in size compared to common native seagrasses and has spread rapidly to become a dominant seagrass in the USVI. This species forms dense mats across a wide depth range (<1 m to 50 m) typically uninhabitable to its native counterparts (Syringodium filiforme and Thalassia testudinum). Several biotic and abiotic factors influence the carbon storage ability of seagrass, yet little is known about carbon storage sequestration along a depth gradient for H. stipulacea. This study provides the first assessment of the biological characteristics (shoot density, leaf area, leaf height, and percent cover) and carbon storage ability of H. stipulacea across a depth gradient (shallow: 5–10 m; medium: 15–20 m; deep: 25–30 m) at two sites in St. Thomas, USVI. Mean sediment carbon density (SCD) values per core reported for H. stipulacea in this study ranged from 3.88 to 15.67mgC/cm3; these were comparable to regional and global seagrass studies. Biological characteristics were not an accurate predictor of SCD. A significant interaction between water depth and site was found to affect mean SCD of H. stipulacea beds. It is likely that site-specific factors most likely account for variations seen within the data. Although carbon values in this study compared to values reported in the literature, other factors such as land use, proximity to carbon sources, sediment microbial community, and water current patterns may be driving SCD values. These findings highlight the need for site and species-specific carbon storage assessments on local to regional scales to accurately estimate current and forecasted blue carbon stocks.

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美属维尔京群岛圣托马斯岛入侵海草 Halophila stipulacea 沿极端水深梯度潮下海床的沉积碳储量
红树林、盐沼和海草床等蓝碳生态系统遍布全球,是渔业生产、风暴潮防护和碳固存的基础。包括美属维尔京群岛(USVI)在内,人们对海草生态系统对全球碳储量的贡献仍不甚了解。迄今为止,尚未有任何研究对美属维尔京群岛海草床的沉积碳密度(SCD)进行评估。该研究重点关注入侵物种 Halophila stipulacea 的碳储存能力,与常见的本地海草相比,Halophila stipulacea 体型小巧,并已迅速蔓延,成为美属维尔京群岛的主要海草。该物种在很宽的水深范围(1 米至 50 米)内形成密集的垫层,其本地同类(Syringodium filiforme 和 Thalassia testudinum)通常无法在此栖息。有几个生物和非生物因素会影响海草的碳储存能力,但人们对H. stipulacea沿深度梯度的碳储存固存却知之甚少。本研究首次评估了美属维尔京群岛圣托马斯岛两处海草深度梯度(浅:5-10 米;中:15-20 米;深:25-30 米)的生物特征(嫩枝密度、叶面积、叶高和覆盖率)和碳储存能力。本研究报告的 H. stipulacea 每个岩芯的平均沉积碳密度 (SCD) 值从 3.88 到 15.67mgC/cm3 不等;这些值与区域和全球海草研究结果相当。生物特征并不能准确预测 SCD。研究发现,水深与地点之间存在明显的交互作用,会影响 H. stipulacea 藻床的平均 SCD。数据中出现的变化很可能是由特定地点的因素造成的。尽管本研究中的碳值与文献中报告的碳值相比较,但其他因素,如土地利用、靠近碳源、沉积物微生物群落和水流模式等,也可能是 SCD 值的驱动因素。这些发现突出表明,需要在地方到区域范围内对特定地点和物种进行碳储存评估,以准确估算当前和预测的蓝碳储量。
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来源期刊
Aquatic Botany
Aquatic Botany 生物-海洋与淡水生物学
CiteScore
3.80
自引率
5.60%
发文量
70
审稿时长
6 months
期刊介绍: Aquatic Botany offers a platform for papers relevant to a broad international readership on fundamental and applied aspects of marine and freshwater macroscopic plants in a context of ecology or environmental biology. This includes molecular, biochemical and physiological aspects of macroscopic aquatic plants as well as the classification, structure, function, dynamics and ecological interactions in plant-dominated aquatic communities and ecosystems. It is an outlet for papers dealing with research on the consequences of disturbance and stressors (e.g. environmental fluctuations and climate change, pollution, grazing and pathogens), use and management of aquatic plants (plant production and decomposition, commercial harvest, plant control) and the conservation of aquatic plant communities (breeding, transplantation and restoration). Specialized publications on certain rare taxa or papers on aquatic macroscopic plants from under-represented regions in the world can also find their place, subject to editor evaluation. Studies on fungi or microalgae will remain outside the scope of Aquatic Botany.
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