Dynamicity of Land Use/Land Cover (LULC) An analysis from peri-urban and rural neighbourhoods of Durgapur Municipal Corporation (DMC) in India

Q1 Social Sciences Regional Sustainability Pub Date : 2023-06-01 DOI:10.1016/j.regsus.2023.05.001
Subrata Haldar , Somnath Mandal , Subhasis Bhattacharya , Suman Paul
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引用次数: 4

Abstract

The availability of better economic possibilities and well-connected transportation networks has attracted people to migrate to peri-urban and rural neighbourhoods, changing the landscape of regions outside the city and fostering the growth of physical infrastructure. Using multi-temporal satellite images, the dynamics of Land Use/Land Cover (LULC) changes, the impact of urban growth on LULC changes, and regional environmental implications were investigated in the peri-urban and rural neighbourhoods of Durgapur Municipal Corporation in India. The study used different case studies to highlight the study area's heterogeneity, as the phenomenon of change is not consistent. Landsat TM and OLI-TIRS satellite images in 1991, 2001, 2011, and 2021 were used to analyze the changes in LULC types. We used the relative deviation (RD), annual change intensity (ACI), uniform intensity (UI) to show the dynamicity of LULC types (agriculture land; built-up land; fallow land; vegetated land; mining area; and water bodies) during 1991–2021. This study also applied the Decision-Making Trial and Evaluation Laboratory (DEMATEL) to measure environmental sensitivity zones and find out the causes of LULC changes. According to LULC statistics, agriculture land, built-up land, and mining area increased by 51.7, 95.46, and 24.79 ​km2, respectively, feom 1991 to 2021. The results also suggested that built-up land and mining area had the greatest (LST), whereas water bodies and vegetated land showed the lowest LST. Moreover, this study looked at the relationships among LST, spectral indices (Normalized Differenced Built-up Index (NDBI), Normalized Difference Vegetation Index (NDVI), and Normalized Difference Water Index (NDWI)), and environmental sensitivity. The results showed that all of the spectral indices have the strongest association with LST, indicating that built-up land had a far stronger influence on the LST. The spectral indices indicated that the decreasing trends of vegetated land and water bodies were 4.26 and 0.43 km2/a, respectively, during 1991–2021. In summary, this study can help the policy-makers to predict the increasing rate of temperature and the causes for the temperature increase with the rapid expansion of built-up land, thus making effective peri-urban planning decisions.

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土地利用/土地覆盖动态(LULC):来自印度杜尔加普尔市政公司(DMC)城郊和农村社区的分析
更好的经济可能性和良好的交通网络吸引了人们迁移到城郊和农村社区,改变了城市以外地区的面貌,促进了有形基础设施的发展。利用多时相卫星图像,对印度杜尔加普尔市政公司的城市周边和农村社区的土地利用/土地覆盖变化的动态、城市增长对土地利用变化的影响以及区域环境影响进行了调查。该研究使用了不同的案例研究来强调研究区域的异质性,因为变化现象并不一致。利用1991年、2001年、2011年和2021年的Landsat TM和OLI-TIRS卫星图像分析了LULC类型的变化。我们使用相对偏差(RD)、年变化强度(ACI)和均匀强度(UI)来显示1991-2021年间LULC类型(农业用地、建成区用地、休耕地、植被地、矿区和水体)的动态性。本研究还应用决策试验与评估实验室(DEMATEL)测量环境敏感区,找出LULC变化的原因。根据LULC的统计,农业用地、建筑用地和采矿面积分别增加了51.7、95.46和24.79​1991年至2021年,面积分别为km2。结果还表明,建成区和矿区的地表温度最高,而水体和植被区的地表温度最低。此外,本研究考察了LST、光谱指数(归一化差异累积指数(NDBI)、归一化差异植被指数(NDVI)和归一化差异水分指数(NDWI))与环境敏感性之间的关系。结果表明,所有光谱指数与地表温度的相关性最强,表明建成区对地表温度的影响要大得多。光谱指数表明,1991-2021年间,植被覆盖的土地和水体的减少趋势分别为4.26和0.43 km2/a。总之,本研究可以帮助决策者预测随着建成区用地的快速扩张,气温的上升速度以及气温上升的原因,从而做出有效的城郊规划决策。
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来源期刊
Regional Sustainability
Regional Sustainability Social Sciences-Urban Studies
CiteScore
3.70
自引率
0.00%
发文量
20
审稿时长
21 weeks
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