CSIRO Oceans and Atmosphere, Hobart, Tasmania, Australia.
Department of Water, Agriculture and the Environment, Australian Government, Hobart, Tasmania, Australia.
Mar Pollut Bull. 2021 Nov;172:112919. doi: 10.1016/j.marpolbul.2021.112919. Epub 2021 Sep 17.
Anthropogenic debris (AD) including plastics, foams and fishing debris, are an undesirable accompaniment to beaches worldwide, arriving through direct deposition (littering) and oceanic transport. We investigated the standing stocks of 12 types of AD on inhabited islands, uninhabited islands and mainland locations, and the potential factors relating to AD deposition. We undertook beach-transects and sea-surface trawl surveys; comparing 13 uninhabited offshore islands, four inhabited/touristed coastal islands and 81 mainland beaches in Queensland, Australia. The abundance and type of AD differed between sites. Geographic factors had stronger relationships with AD density on islands than mainland beaches. Hard plastic density was linked with forcing from wind and sea surface currents. Beach width and onshore/side-shore forcing were the most important factors affecting AD loads (predominantly hard plastics) on islands. We found an inverse relationship between the density of beached plastic and plastic floating at the sea surface nearby and suggest that islands may act as a local sink for buoyant plastic.
人为垃圾(AD)包括塑料、泡沫和渔具,是世界各地海滩上不受欢迎的伴生物,通过直接沉积(乱扔垃圾)和海洋运输到达。我们调查了有人居住的岛屿、无人居住的岛屿和大陆地点的 12 种 AD 的存量,以及与 AD 沉积有关的潜在因素。我们在澳大利亚昆士兰州进行了海滩横断面和海面拖网调查;比较了 13 个无人居住的近海岛屿、4 个有人居住/旅游的沿海岛屿和 81 个大陆海滩。AD 的数量和类型在不同地点有所不同。地理因素对岛屿上 AD 密度的影响比大陆海滩更强。硬塑料的密度与风和海面流的驱动力有关。海滩宽度和向岸/侧向岸的作用力是影响岛屿上 AD 负荷(主要是硬塑料)的最重要因素。我们发现海滩上塑料的密度与附近海面漂浮的塑料之间存在反比关系,这表明岛屿可能是漂浮塑料的局部汇。