Monitoring land use change and its drivers in Delhi, India using multi-temporal satellite data

详细信息    查看全文

• 作者：Madhavi Jain ; Dorje Dawa ; Rajender Mehta…
• 关键词：Land Use/Land Cover (LULC) ; Urbanization ; Remote sensing ; Delhi ; Economic reform
• 刊名：Modeling Earth Systems and Environment
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：2
• 期：1
• 全文大小：15,960 KB
• 参考文献：Alberti M (2005) The effects of urban patterns on ecosystem function. Int Reg Sci Rev 28(2):168–192CrossRef
  Census of India, New Delhi (2011). http://​www.​censusindia.​gov.​in . Accessed 5 Feb 2012
  Cohen B (2006) Urbanization in developing countries: current trends, future projections, and key challenges for sustainability. Technol Soc 28(1):63–80CrossRef
  Currit N (2005) Development of a remotely sensed, historical land-cover change database for rural Chihuahua, Mexico. Int J Appl Earth Obs Geoinf 7(3):232–247CrossRef
  Davis K (1955) The origin and growth of urbanization in the world. Am J Sociol 60(5):429–437CrossRef
  Delhi Census Handbook (1991) Directorate of census operations, Delhi
  Delhi Human Development Report (2006). http://​planningcommissi​on.​nic.​in/​plans/​stateplan/​sdr_​pdf/​shdr_​del06.​pdf . Accessed 24 Apr 2012
  Fox J, Vogler JB (2005) Land-use and land-cover change in montane mainland Southeast Asia. Environ Manag 36(3):394–403
  Guerschman JP, Paruelo JM, Bella CD, Giallorenzi MC, Pacin F (2003) Land cover classification in the Argentine Pampas using multi-temporal Landsat TM data. Int J Remote Sens 24(17):3381–3402CrossRef
  Jat MK, Garg PK, Khare D (2008) Monitoring and modelling of urban sprawl using remote sensing and GIS techniques. Int J Appl Earth Obs Geoinf 10(1):26–43CrossRef
  Kendall MG (1948) Rank correlation methods. Griffin, Oxford, England
  Lasaponara R, Lanorte A (2012) Satellite time-series analysis. Int J Remote Sens 33(15):4649–4652CrossRef
  Lillesand TM, Kiefer RW, Chipman JW (2003) Remote sensing and image interpretation. Wiley, New York, pp 1–722
  Master Plan for Delhi-2021 (2007) Delhi Development Authority. https://​dda.​org.​in/​ddanew/​pdf/​Planning/​reprint%20​mpd2021.​pdf . Accessed 26 Apr 2012
  Mazumdar S (2010) Industry and services in growth and structural change in India: some unexplored features. MPRA paper no. 20401. http://​mpra.​ub.​uni-muenchen.​de/​20401/​
  Miller RB, Small C (2003) Cities from space: potential applications of remote sensing in urban environmental research and policy. Environ Sci Policy 6(2):129–137CrossRef
  Namperumal S, Taubenböck H, Jain M (2011) Seamless urbanisation and knotted city growth: Delhi metropolitan region. In: Proceedings real CORP 2011 Tagungsband, 18–20 May 2011. ISBN: 978-3-9503110-1-3 
  Olorunfemi JF (1983) Monitoring urban land use in developing countries—an aerial photographic approach. Environ Int 9(1):27–32CrossRef
  Pandit MK, Sodhi NS, Koh LP, Bhaskar A, Brook BW (2007) Unreported yet massive deforestation driving loss of endemic biodiversity in Indian Himalaya. Biodivers Conserv 16(1):153–163CrossRef
  Rahman A, Kumar S, Fazal S, Siddiqui MA (2012) Assessment of land use/land cover change in the North-West District of Delhi using remote sensing and GIS techniques. J Indian Soc Remote Sens 40(4):689–697CrossRef
  Shahraki SZ, Sauri D, Serra P, Modugno S, Seifolddini F, Pourahmad A (2011) Urban sprawl pattern and land-use change detection in Yazd. Iran. Habitat International 35(4):521–528CrossRef
  Sudhira HS, Ramachandra TV, Jagadish KS (2004) Urban sprawl: metrics, dynamics and modelling using GIS. Int J Appl Earth Obs Geoinf 5(1):29–39CrossRef
  Yang X, Lo CP (2002) Using a time series of satellite imagery to detect land use and land cover changes in the Atlanta, Georgia metropolitan area. Int J Remote Sens 23(9):1775–1798CrossRef
  Zeng C, Zhou Y, Wang S, Yan F, Zhao Q (2011) Population spatialization in China based on night-time imagery and land use data. Int J Remote Sens 32(24):9599–9620CrossRef
  
• 作者单位：Madhavi Jain (1)
  Dorje Dawa (2)
  Rajender Mehta (2)
  A. P. Dimri (1)
  M. K. Pandit (2)
  
  1. School of Environmental Sciences, Jawaharlal Nehru University, New Delhi, India
  2. Centre for Interdisciplinary Studies of Mountain and Hill Environment (CISMHE), University of Delhi, New Delhi, India
  
• 刊物类别：Earth System Sciences; Math. Appl. in Environmental Science; Statistics for Engineering, Physics, Co
• 刊物主题：Earth System Sciences; Math. Appl. in Environmental Science; Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences; Mathematical Applications in the Physical Sciences; Ec
• 出版者：Springer International Publishing
• ISSN：2363-6211

文摘

Urbanization is the primary driver of Land Use/Land Cover (LULC) changes throughout the world. It is arguably the most dramatic and prevalent form of irreversible land transformation. In a fast growing city like Delhi, land use changes are tremendous. Therefore, it is imperative to analyze the driving forces of such change. Along with Delhi, the South West District of Delhi has been chosen for a comparative study of LULC change from 1977 to 2014. Landsat and Indian Remote Sensing (IRS) satellite scenes were used to perform both supervised and unsupervised classification and an overall accuracy of over 90 % was achieved for all the years. In Delhi, net percent change from 1977 to 2014 was found to be +30.61 % for built-up area, −22.75 % for cultivated area, −5.31 % for dense forest, −2.76 % for wasteland and +2.41 % for road/rail network. No major net percent change was seen in open forest, scrubs/degraded forest, plantations and river/waterbody. The LULC results provide evidence of relationship between built-up area, agricultural land and wasteland over the past four decades. The effect of economic reforms of 1991 has manifested itself as a change in LULC. Overall it illustrates a characteristic picture of LULC change and its dynamics.