利用多时卫星成像评估马塘红树林保护区的红树林动态

Nurul Asyikin Ibharim, M. A. Roslani, Muzzneena Ahmad Mustapha
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引用次数: 0

摘要

红树林生态系统为多种陆地和海洋生物提供食物、繁殖栖息地和培育环境。马塘红树林保护区(MMFR)面积超过 40,000 公顷,为有效管理和评估整个区域带来了挑战。因此,我们采用遥感技术来有效监测和绘制红树林区域内土地利用和土地覆盖的时间波动图。在本研究中,利用 RapidEye 2011 和 Landsat 8 (OLI) 2020 卫星图像对红树林生态系统九(9)年间(2011 年至 2020 年)的动态进行了评估。采用逐像素建模分析法进行了变化检测。本研究显示,红树林转化为水体的面积为 4625.1 公顷(16.7%),旱地森林为 1886.1 公顷(6.8%),油棕种植园为 186.9 公顷(0.7%)。面积变化的原因包括水土流失、伐木作业、建立水产养殖设施和农业耕作。因此,获取与红树林物种现状以及研究区域的时间波动有关的数据,对所有参与保护这一生态系统的利益相关者都具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mangrove Dynamics Evaluation at Matang Mangrove Forest Reserved by Multi-temporal Satellite Imageries
Mangrove ecosystems support a wide range of terrestrial and marine organisms by offering sustenance, reproductive habitats, and nurturing environments. The Matang Mangrove Forest Reserve (MMFR), spanning over 40,000 ha, poses challenges in effectively managing and evaluating the entire area. Hence, remote sensing techniques are employed to effectively monitor and map the temporal fluctuations of land use and land cover occurring within mangrove forest areas. In this study, dynamics over nine (9) years (2011to 2020) of the mangrove ecosystem were evaluated using RapidEye 2011 and Landsat 8 (OLI) 2020 satellite imageries. Change detection was implemented using pixel-by-pixel modelling analysis. The present study revealed the conversion of mangrove area to waterbody at 4625.1 ha (16.7%), dryland forest at 1886.1 ha (6.8%), and oil palm plantations at 186.9 ha (0.7%). The area conversion was attributed to erosion, logging operations, the establishment of aquaculture facilities, and agricultural practices. Hence,the acquisition of data pertaining to the present condition of mangrove forest species, as well as the temporal fluctuations in the study area, holds significant importance for all stakeholders involved in the preservation of this ecosystem.
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