Geospatial Analysis of Land Use and Land Cover Dynamics and its Impact on Urban Wetland Ecosystems in Delhi NCR Region, India

GEOSPATIAL ANALYSIS OF LULC DYNAMICS & ITS IMPACT ON URBAN WETLANDS

Authors

  • Raghvendra Singh Amity Institute of Geoinformatics and Remote Sensing, (AIGIRS) Amity University, Sector - 125, Noida - 201313, Gautam Buddha Nagar, Uttar Pradesh, India
  • Varun Narayan Mishra Amity Institute of Geo Informatics and Remote Sensing, (AIGIRS) Amity University, Sector - 125, Noida - 201303, Gautam Buddha Nagar, Uttar Pradesh, India
  • Sudhakar Shukla Scientist - SE & Head, School of Geo-informatics, Remote Sensing Applications Centre, Uttar Pradesh, Sector - G, Jankipuram, Kursi Road, Lucknow - 226021, Uttar Pradesh, India

DOI:

https://doi.org/10.56042/jsir.v82i07.1285

Keywords:

Change detection, Ecosystem services, Landsat, LULC, Wetlands

Abstract

Urban wetlands are highly neglected and are encroached upon to accommodate more settlements or to dump waste materials. They are susceptible to encroachment and undergo Land Use/Land Cover (LULC) change thereby diminishing their value. This study aims to examine and assess the spatial-temporal LULC change for selected wetlands of Delhi NCR vis-à-vis ecosystem services. Landsat imageries for the years 1998, 2008 and 2018 are used to understand the change dynamics using supervised classification with overall accuracy of more than 80% for all years. Classification was done separately for Delhi NCR and 5 km buffer around the wetlands. In Delhi NCR the net percent change during the 20-year period was found to be +5.22% and +8.56% for built-up and cropland respectively. During the same period, the plantations/forest cover and water bodies changed by –8.30% and –0.50% respectively. Plantations/forest cover has shown a negative net percent change in six wetlands, with Najafgarh experiencing the highest (–10.75%), followed closely by Surajpur wetland (–10.68%), Bhalswa lake wetland (–9.93%), Yamuna Biodiversity Park (–6.77%), Pusa Hill Forest
(–5.18%) and Asola Wildlife Sanctuary (–5.21%). The LULC change analysis has pointed to the loss of wetland area to built-up and/or cropland which is going to affect the ecosystem services provided by these wetlands. Geospatial tools are an important tool to understand the changing LULC in such sensitive ecosystems. It is needed to manage wetlands sustainably so that the corresponding ecosystem services could be preserved.

Author Biographies

Varun Narayan Mishra, Amity Institute of Geo Informatics and Remote Sensing, (AIGIRS) Amity University, Sector - 125, Noida - 201303, Gautam Buddha Nagar, Uttar Pradesh, India

Varun Narayan Mishra is working as an Assistant Professor II at AIGIRS, Amity University, Noida, UP. He did my Ph.D. from the Indian Institute of Technology (BHU), Varanasi. He have completed my M.Tech. in Remote Sensing from BIT, Mesra, Ranchi, after completing my M.Sc. in Physics. Previously, He worked as a JRF at CSRD, JNU, New Delhi under a DST-funded research project. My research interests are: Basic Concepts of Photogrammetry and Aerial Photography; Fundamentals of Computers; GIS and Remote Sensing in Regional and Urban Planning; Photogrammetry and Image Interpretation; Satellite Based Navigation System & Cartography; Thermal & Hyperspectral Remote Sensing; SAR image processing & analysis; machine learning techniques; LULC mapping; land change modeling; glacier monitoring etc. Technical articles are published in SCI journals and Scopus journals, which are well cited

Sudhakar Shukla, Scientist - SE & Head, School of Geo-informatics, Remote Sensing Applications Centre, Uttar Pradesh, Sector - G, Jankipuram, Kursi Road, Lucknow - 226021, Uttar Pradesh, India

Sudhakar Shukla is working as scientist and Head, School of Geoinformatics at RSAC-U.P., Lucknow, imparting technical education in the field of remote sensing and GIS to post-graduate level students. His proficiency includes applying satellite remote sensing and GIS techniques, especially for surface and groundwater management. He is an expert in geo-environmental assessment by applying remote sensing, LIDAR, GPS, and G.I.S. for hydrological, glaciological, and environmental studies.

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Published

2023-07-07

Issue

Section

Earth, Environment & Atmospheric Sciences