Improving satellite monitoring of coastal inundations of pelagic Sargassum algae with wind and citizen science data

IF 1.9 4区 生物学 Q2 MARINE & FRESHWATER BIOLOGY
Nathan F. Putman , R. Taylor Beyea , Lowell Andrew R. Iporac , Joaquin Triñanes , Emilie G. Ackerman , Maria J. Olascoaga , Christian M. Appendini , Jaime Arriaga , Ligia Collado-Vides , Rick Lumpkin , Chuanmin Hu , Gustavo Goni
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引用次数: 3

Abstract

Massive blooms of pelagic Sargassum algae have caused serious problems to coastal communities and ecosystems throughout the tropical Atlantic, Caribbean Sea, and Gulf of Mexico since 2011. Efforts to monitor and predict these occurrences are challenging owing to the vast area impacted and the complexities associated with the proliferation and movement of Sargassum. Sargassum Inundation Reports (SIRs) were first produced in 2019 to estimate the potential risk to coastlines throughout the Intra-American Sea at weekly intervals at 10 km resolution. SIRs use satellite-based data products to estimate beaching risk from the amount of offshore Sargassum (quantified by a Floating Algal density index). Here we examine whether including wind metrics improves the correspondence between the offshore Floating Algal density index and observations of Sargassum along the coastline. For coastal observations, we quantified the percent coverage of Sargassum in photos obtained from the citizen science project "Sargassum Watch" that collects time-stamped, georeferenced photos at beaches throughout the region. Region-wide analyses indicate that including shoreward wind velocity with SIR risk indices greatly improves the correspondence with coastal observations of Sargassum beaching compared to SIR risk indices alone. Site-specific analyses of photos from southeast Florida, USA, and data from a continuous video monitoring study at Puerto Morelos, Mexico, suggest potential uncertainties in the suite of factors controlling Sargassum beaching. Nonetheless, the inclusion of wind velocity in the SIR algorithm appears to be a promising avenue for improving regional risk indices.

利用风和公民科学数据改进沿海海洋马尾藻淹没的卫星监测
自2011年以来,远洋马尾藻的大量繁殖给整个热带大西洋、加勒比海和墨西哥湾的沿海社区和生态系统带来了严重的问题。监测和预测这些事件的工作具有挑战性,因为受影响的地区很大,马尾藻的扩散和移动也很复杂。马尾藻淹没报告(SIRs)于2019年首次发布,以每周10公里的分辨率估计整个美洲海海岸线的潜在风险。SIRs使用基于卫星的数据产品来估计近海马尾藻数量的搁浅风险(通过浮动藻密度指数量化)。在这里,我们研究是否包括风指标改善近海浮藻密度指数和马尾藻沿海岸线的观测之间的对应关系。对于海岸观测,我们量化了马尾藻在公民科学项目“马尾藻观察”中获得的照片中所占的百分比,该项目收集了整个地区海滩上带有时间戳的地理参考照片。区域范围的分析表明,与单独使用SIR风险指数相比,将海岸风速纳入SIR风险指数大大提高了马尾藻滩涂观测结果与海岸观测结果的一致性。对美国佛罗里达州东南部的特定地点照片和墨西哥莫雷洛斯港连续视频监测研究数据的分析表明,控制马尾藻海滩的一系列因素存在潜在的不确定性。尽管如此,在SIR算法中加入风速似乎是改进区域风险指数的一个有希望的途径。
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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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