Pemodelan Pergerakan Mikroplastik di Selat Bali

Journal of Marine and Aquatic Sciences Pub Date : 2020-12-01 DOI:10.24843/jmas.2020.v06.i02.p7

I. G. D. Bagaskara, Yulianto Suteja, I. G. Hendrawan

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引用次数: 4

Abstract

The Bali Strait has an important role for the coastal society of East Java and Bali, because as a supplier of lemuru fish. However, the quality of lemuru fish is decrease due to the presence of plastic waste that flow into the Bali Strait. Plastic is a material that’s difficult to decompose, but by using oxidation or mechanical processes causing plastic break to micrometer. Microplastic will be more easily eaten and have a direct impact on the food chain and cause morphological damage or chemical effects that carried by plastic. Based on these problems, its important to conduct research on spatial and temporal microplastic movements in the Bali Strait. However, the wide area of the Bali Strait and the amount of time needed to collect data in the field directly, numerical modeling method was use to solve this problem by using the Finite Volume Ocean Coastal Model (FVCOM) modeled in 3-D and microplastic divided into 3 sizes (0.3 mm, 1 mm, 5 mm). Spatially the movement of microplastic with a size of 0.3 mm, 1 mm, and 5 mm has a relatively similar movement, but has different position based on depth. Temporally the highest total number of microplastic sites is in the potential area of Blimbing Sari catching in the third week, and the potential area for catching Bukit on second week. Whereas in the potential areas of capture Senggrong, Anyir, Watu Anyir and Pang-Pang Bay were not found microplastic.

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巴厘岛海峡对东爪哇和巴厘岛的沿海社会有着重要的作用，因为它是狐猴鱼的供应地。然而，由于流入巴厘岛海峡的塑料废物的存在，狐猴鱼的质量下降了。塑料是一种难以分解的材料，但通过氧化或机械过程使塑料破裂到微米级。微塑料将更容易被食用，并对食物链产生直接影响，造成塑料携带的形态损伤或化学效应。基于这些问题，开展巴厘岛海峡微塑性运动的时空研究具有重要意义。然而，由于巴厘岛海峡面积广阔，现场直接采集数据需要大量时间，因此采用三维有限体积海洋海岸模型(FVCOM)，将微塑料分为0.3 mm、1 mm、5 mm 3种尺寸，采用数值模拟方法解决了这一问题。在空间上，0.3 mm、1 mm和5 mm尺寸的微塑料的运动相对相似，但在深度上有不同的位置。从时间上看，第三周布林宾沙丽潜在捕捞区和第二周武吉潜在捕捞区的微塑料站点总数最高。而在潜在捕鲸区，未发现微塑料，如圣荣、安吉尔、瓦图安吉尔和庞庞湾。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Marine and Aquatic Sciences

自引率

0.00%

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审稿时长

24 weeks