A利用目视普查和无人机系统对保加利亚黑海沿岸沙丘上人为大凋落物的基线评估

Bogdan Prodanov, Radoslava Bekova
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The baseline assessment is based on a visual census, UAS mapping and manual image screening procedure in a GIS environment for litter mapping in 40 areas of litter monitoring (ALMs) along the Bulgarian Coast. Throughout the five-year monitoring period, the most abundant type of MLD was “Artificial polymer materials,” accounting for 83.4% of the total number, followed by “Paper/Cardboard” (6.2%), “Glass/Ceramics” (2.8%), “Metal” (2.8%), “Processed/Worked wood” (1.83%), “Rubber” (1.29%), and “Cloth/Textile” (1.17%). Generally, 95% of the total litter amount was assessed from Land-based sources and 5% from Sea-based sources. The COVID-19 pandemic indirectly affected the cleanliness of the Bulgarian dunes due to restrictions on foreign travel, which increased the domestic tourist pressure on the Bulgarian beaches, resulting in a more significant amount of waste accumulating on the beaches and dunes. The abundance experienced an increase of 39% between 2018 and 2021. A similar upward trend (+41%) was observed in the density of macrolitter on the dunes. Based on visual census data, the average density was estimated to be 0.54 ± 0.35 items/m2. The spatial distribution of MLD is a complex combination of anthropogenic impact and wind processes that affect various eco-geomorphological elements of the beach-dune system. The embryonic dunes retained only 16% of the total items (Dav: 0.32 ± 0.12 items/m2). The highest litter density was registered on the foredunes (Dav: 0.71 ± 0.21 items/m2; 28% of total items). The backdunes contained the highest litter abundance, accounting for 55% in larger areas (Dav:0.59 items/m2). Density litter maps established that dune vegetation acted as a natural trap, retaining 40% more macrolitter compared to areas without dune plants. A Clean Dune Index (CDI) was developed to evaluate the cleanliness of Bulgarian dunes. 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引用次数: 0

摘要

Beach-dune系统是世界上沿海生态系统中最具活力和最敏感的因素之一。它们代表了人类活动、动植物和旅游业经济利益之间的交集。保加利亚黑海海岸线长518.7公里,包括131公里(25%)的沉积海岸,包括海滩和46个沙丘系统。在过去的三十年中,已经观察到严重的人为影响,显着改变了保加利亚黑海海岸(BBSC)海滩-沙丘系统的清洁度。研究最初是利用无人机系统(UAS)对沙丘上的大型凋落物进行初步评估。然而,由于第一年获得的数据不足,它转变为2018年至2022年期间进行的中期监测计划。基线评估基于目视普查、UAS制图和地理信息系统环境下的人工图像筛选程序,以便在保加利亚沿海40个凋落物监测地区进行凋落物制图。在5年的监测期内,最丰富的MLD类型是“人造高分子材料”,占总数的83.4%,其次是“纸/纸板”(6.2%)、“玻璃/陶瓷”(2.8%)、“金属”(2.8%)、“加工/加工木材”(1.83%)、“橡胶”(1.29%)和“布/纺织品”(1.17%)。总体而言,95%的凋落物来自陆源,5%来自海源。由于限制国外旅行,新冠肺炎大流行间接影响了保加利亚沙丘的清洁度,这增加了保加利亚海滩上的国内游客压力,导致海滩和沙丘上堆积的废物量更大。从2018年到2021年,储量增加了39%。沙丘上的大型凋落物密度也有类似的上升趋势(+41%)。根据目测普查数据,估计平均密度为0.54±0.35只/m2。MLD的空间分布是人为影响和风过程的复杂组合,影响着滩沙系统的各种生态地貌要素。胚胎沙丘仅保留了16%的物质(Dav: 0.32±0.12)。凋落物密度最高的是前丘(日:0.71±0.21件/m2;占总数的28%)。沙丘凋落物丰度最高,占面积的55%,达0.59件/m2。密度凋落物图表明,沙丘植被起着天然陷阱的作用,与没有沙丘植物的地区相比,沙丘植被多保留了40%的大型凋落物。制定了清洁沙丘指数(CDI)来评价保加利亚沙丘的清洁度。根据2018-2022年的综合CDI数据,保加利亚海岸沙丘的清洁度被归类为“中等”(CDIav:10.89)。游客最多的度假胜地附近的沙丘系统被归为“极脏”,CDI值最高的是Kavatsite(27.22)、Nessebar - South(25.01)、Bolata(24.69)、Asparuhovo - Varna(24.33)和Slanchev bryag(24.09)。Ropotamo和Lipite沙丘系统的CDI最低,分别为0.95和1.2。沙丘是敏感的生境,需要的人为影响最小,这就需要加强使用高分辨率遥感方法进行凋落物制图。所提供数据的质量和所获得的结果概述了无人机作为未来海滩和沙丘调查的主要工具。
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A baseline assessment of anthropogenic macrolitter on dunes along the Bulgarian Black Sea Coast using visual census and Unmanned Aerial Systems
 Beach-dune systems are among the most dynamic and sensitive elements of coastal ecosystems in the world. They represent an intersection between human activities, flora, fauna and economic interests in tourism. The Bulgarian Black Sea shoreline spans 518.7 km and comprises 131 km (25%) of the depositional coast, including beaches and 46 dune systems. Over the past three decades, heavy anthropogenic impacts have been observed, significantly altering the cleanliness of the beach-dune systems along the Bulgarian Black Sea Coast (BBSC). The research initially began as an initial assessment of macrolitter on dunes (MLD) using Unmanned Aerial Systems (UAS). However, due to concerning data obtained in the first year, it transitioned into a mid-term monitoring program conducted between 2018 and 2022. The baseline assessment is based on a visual census, UAS mapping and manual image screening procedure in a GIS environment for litter mapping in 40 areas of litter monitoring (ALMs) along the Bulgarian Coast. Throughout the five-year monitoring period, the most abundant type of MLD was “Artificial polymer materials,” accounting for 83.4% of the total number, followed by “Paper/Cardboard” (6.2%), “Glass/Ceramics” (2.8%), “Metal” (2.8%), “Processed/Worked wood” (1.83%), “Rubber” (1.29%), and “Cloth/Textile” (1.17%). Generally, 95% of the total litter amount was assessed from Land-based sources and 5% from Sea-based sources. The COVID-19 pandemic indirectly affected the cleanliness of the Bulgarian dunes due to restrictions on foreign travel, which increased the domestic tourist pressure on the Bulgarian beaches, resulting in a more significant amount of waste accumulating on the beaches and dunes. The abundance experienced an increase of 39% between 2018 and 2021. A similar upward trend (+41%) was observed in the density of macrolitter on the dunes. Based on visual census data, the average density was estimated to be 0.54 ± 0.35 items/m2. The spatial distribution of MLD is a complex combination of anthropogenic impact and wind processes that affect various eco-geomorphological elements of the beach-dune system. The embryonic dunes retained only 16% of the total items (Dav: 0.32 ± 0.12 items/m2). The highest litter density was registered on the foredunes (Dav: 0.71 ± 0.21 items/m2; 28% of total items). The backdunes contained the highest litter abundance, accounting for 55% in larger areas (Dav:0.59 items/m2). Density litter maps established that dune vegetation acted as a natural trap, retaining 40% more macrolitter compared to areas without dune plants. A Clean Dune Index (CDI) was developed to evaluate the cleanliness of Bulgarian dunes. Based on aggregated CDI data for 2018–2022, the cleanliness of the dunes along the Bulgarian Coast was categorised as “moderate” (CDIav:10.89). Dune systems near the most visited resorts were classified as “extremely dirty”, with the highest CDI values recorded at Kavatsite (27.22), Nessebar – South (25.01), Bolata (24.69), Asparuhovo - Varna (24.33) and Slanchev bryag (24.09). On the other hand, the dune systems at Ropotamo and Lipite were rated with the lowest CDI – 0.95 and 1.2. Dunes are sensitive habitats and require minimal anthropogenic impact, which requires the intensification of the use of high-resolution remote sensing methods for litter mapping. The quality of the presented data and the results obtained outline drones as a future primary tool for beach and dune surveys.
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