Spatio-Temporal Analysis of Mangrove Extents in Hai Phong City, Vietnam
- July 2, 2020
- Posted by: RSIS
- Categories: IJRISS, Social Science
International Journal of Research and Innovation in Social Science (IJRISS) | Volume IV, Issue VI, June 2020 | ISSN 2454–6186
Spatio-Temporal Analysis of Mangrove Extents in Hai Phong City, Vietnam
Amena Easmin1*, Ned Horning2
1Institute of Forestry Research and Development, Thai Nguyen University of Agriculture and Forestry, Vietnam
2Applied Biodiversity Informatic, American Museum of Natural History, USA
Abstract: The comprehension of mangrove status is based on the ability to separate plant, land and water objects in remotely sensed data in the view of the reflectivity or radiation of the object. The application of GIS and remote sensing technology to analyze mangrove fluctuations has been widely used in the world. High population growth and migration into coastal areas are found to be one of the most extensive land use changes in recent decades and could result in the destructive of the coastal areas of Hai Phong, Vietnam. Coastal areas are at risk of climate change impact and the future trend of this land use could cause coastal erosion, and land degradation. This study provides an assessment of spatiotemporal changes of mangrove extent using remotely sensed data and identifies the drivers. In this study, Landsat and Sentinel-2 data were utilized to quantify the spatiotemporal changes in land use and land cover (LULCC). The study focused on the periods of 1994-2001, 2001-2010, 2010-2015 and 2015-2018, and decadal changes. Unsupervised classification was selected to determine the land use and land cover. Error-matrix based accuracy assessment was accomplished after ground truthing. Comparing two case study sites, Tien Lang district was found to be the most vulnerable to socio-economic development and natural disaster. This paper demonstrates the congruous development of relevant key drivers of coastal mangrove change, with an emphasis on land use change drivers. This study will be helpful for future research but also illustrates an applicable plan for sustainable mangrove management.
Keywords: Remote Sensing, Spatial resolution, Sentinel-2, Sustainable mangrove management, Mangroves extents, Land use land cover change.
I. INTRODUCTION
Mangroves are the beating heart of the Earth surface, providing numerous ecosystem services for humans such as protection from natural disasters as tsunamis and tropical cyclones are broadly used for timber extraction, fisheries, and fodder collection [1], [2], [3]. Without a doubt, mangroves play a vital role in maintaining both regional and global ecological integrity. Simulation results show that mangroves ecosystems are defenseless from pollution such as residual wastes from mining activities, oil spillage from marine transport, heavy metals pollution from sunken ships and other industrial activities such as construction of dams, barrage and embankments for water diversions upstream [4], [5], [6], [7].