Geomorphological management strategies for cyclone-impacted sea turtle nesting habitat along the eastern seaboard of India.

IF 5.8 3区 环境科学与生态学 0 ENVIRONMENTAL SCIENCES Environmental Science and Pollution Research Pub Date : 2024-11-27 DOI:10.1007/s11356-024-35555-1
Rabindra Kumar Sahoo, Subhajit Barik, Samiran Mandal, Subhasis Pradhan, Thanabalan Palanisamy, Uma Sankar Panda, Pratap Kumar Mohanty, Ramana Murthy Mallavarapu Venkata
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Abstract

Sea turtles are globally vulnerable due to climate change uncertainties and anthropogenic threats. The present study highlights the impacts of a very severe tropical cyclone (VSCS) on a potential sea turtle rookery and suggests management strategy for protection and conservation of rookery habitat under changing spit geomorphology. The results show that VSCS has short-term impact on rookery and spit geomorphology, while long-term precarious impact over the coastal sedimentology due to debris pollution. Study on geomorphology, sedimentology, and debris pollution indicates that plastic pollution and change in sediment characteristics are the most probable cause for failure of arribada events during post-cyclone year. Further, study identified that reduced estuary mouth and elongation of sand spit are the potential cause for coastal flooding and loss of nesting habitat. Therefore, locational stability of estuary cross-section under varying dimension of inlet channel and width are estimated for better management of uncertainties arises from the extreme events. Results of stability analysis show that observed cross Sect. (207-1728 m2) is often fall within unstable regimes compared to the estimated equilibrium cross-sectional area (790-1085 m2) under natural estuary condition. Considering the severity of long-shore transport and fast migration of sand spit, study further recommends cross-sectional area of magnitude (951-965 m2) is highly essential while inlet channel oscillates between 3500 and 7500 m. Similarly, for siltation issues, cross-sectional area (769-969 m2) is highly required for the varying dimension of estuary widths (50-600 m). In addition, involvement of local community in cleaning coast following cyclonic storm could be best approach instead of mechanical way to unalter the rookery sedimentology. This comprehensive approach addresses immediate cyclone-induced threats while promoting the long-term sustainability of sea turtle nesting habitats, offering actionable management recommendations for maintaining estuary stability and preserving critical nesting environments in face of increasing coastal disasters.

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印度东部沿海地区受飓风影响的海龟筑巢栖息地地貌管理策略。
由于气候变化的不确定性和人为威胁,海龟在全球范围内都很脆弱。本研究强调了非常严重的热带气旋(VSCS)对潜在海龟栖息地的影响,并提出了在海湾地貌不断变化的情况下保护和养护海龟栖息地的管理策略。研究结果表明,VSCS 对海龟栖息地和海湾地貌有短期影响,但由于碎片污染,对沿岸沉积学有长期的不稳定影响。对地貌、沉积物和碎屑污染的研究表明,塑料污染和沉积物特性的变化是气旋后年份里礁盘活动失败的最可能原因。此外,研究还发现,河口变小和沙嘴变长是造成沿海洪水和筑巢栖息地丧失的潜在原因。因此,为了更好地管理极端事件带来的不确定性,需要估算河口横截面在入口河道尺寸和宽度变化情况下的位置稳定性。稳定性分析结果表明,与自然河口条件下估计的平衡横截面面积(790-1085 平方米)相比,观测到的横截面面积(207-1728 平方米)经常处于不稳定状态。考虑到长岸运移的严重性和沙嘴的快速迁移,研究进一步建议,当入口河道在 3500 米至 7500 米之间摆动时,951-965 平方米的横截面积是非常必要的。同样,对于淤积问题,横截面积(769-969 平方米)在河口宽度变化(50-600 米)时也是非常必要的。此外,让当地社区参与气旋风暴后的海岸清理工作,可能是最好的方法,而不是用机械方法来改变珊瑚礁沉积物。这种综合方法既能解决气旋引起的直接威胁,又能促进海龟筑巢栖息地的长期可持续发展,为在日益严重的沿海灾害面前保持河口稳定和保护重要的筑巢环境提供了可行的管理建议。
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来源期刊
CiteScore
8.70
自引率
17.20%
发文量
6549
审稿时长
3.8 months
期刊介绍: Environmental Science and Pollution Research (ESPR) serves the international community in all areas of Environmental Science and related subjects with emphasis on chemical compounds. This includes: - Terrestrial Biology and Ecology - Aquatic Biology and Ecology - Atmospheric Chemistry - Environmental Microbiology/Biobased Energy Sources - Phytoremediation and Ecosystem Restoration - Environmental Analyses and Monitoring - Assessment of Risks and Interactions of Pollutants in the Environment - Conservation Biology and Sustainable Agriculture - Impact of Chemicals/Pollutants on Human and Animal Health It reports from a broad interdisciplinary outlook.
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