Spatio-Temporal Analysis of Land Use Change and Its Driving Factors in Layyah, Punjab, Pakistan

Authors

  • M. Sajid Department of Geography, Govt. Graduate College, Chowk Azam, Layyah, Punjab, Pakistan
  • M. Mohsin Department of Geography, Govt. Sadiq Egerton Graduate College, Bahawalpur, Punjab, Pakistan
  • M. Mobeen Department of Earth Sciences, University of Sargodha, Punjab, Pakistan
  • A. Rehman Department of Earth Sciences, University of Sargodha, Punjab, Pakistan
  • A. Rafique Department of Geography, Govt. Associate College for Women, Mela Mandi, Sargodha, Pakistan
  • M. Rauf Department of Earth Sciences, University of Sargodha, Punjab, Pakistan
  • G. Ali Department of Political Science, Govt. Graduate College, Chowk Azam, Layyah, Punjab, Pakistan

Abstract

Specific objective of this study was to find out the distribution of various land use changes in District Layyah from 2000 to 2020 using geographic information system (GIS) and remote sensing (RS) techniques, and the forces or factors that lead to land use change. District Layyah has experienced remarkable land use and land cover (LULC) changes for the past three decades. Three Landsat satellite images i.e. thematic mapper (TM), Landsat enhanced thematic mapper plus (ETM+) and operational land imager (OLI)/ TIRS for the years 2000, 2010 and 2020 were acquired from USGS website in order to detect the land use changes. By using ERDAS Imagine software, the maximum likelihood classification was employed in order to classify the images. The spatial and spectral distribution of five land use types was made including i.e. Water, Built-up, Vegetation, Desert, Bare and Sparse land. Ground Truth points were noted and these points were used for the validation and classification of the images. This accuracy showed an overall accuracy rate of 85% with a Kappa coefficient of 0.9 which demonstrated the basic classification method because the images used in the research were highly good. Results showed that the rise was revealed in Vegetation, Built-up and Water land uses from the year 2000 to 2020. On the other side, the decrease in Bare and Sparse land and Desert land use was calculated. The main driving factors behind these LULC changes were found the growth in population, agro-technological advancement and various physical factors (e.g. availability of water and so on), resulting an increase in built-up area. Present research will be beneficial in understanding the most important land use changes to estimate the future change trends in various land use classes for policy making and land use management.

References

T.M. Lillesand and R.W. Kiefer, "Remote Sensing and Image Analysis", John Wiley and Sons: New York, NY, USA, Vol. 46, p. 736, 2000.

M. Sahana, R. Ahmed and H. Sajjad, "Analyzing land surface temperature distribution in response to land use/land cover change using split window algorithm and spectral radiance model in Sundarban Biosphere Reserve, India", Modeling Earth Systems and Environment, 2(2), p. 1-11, 2016.

W. T. Dibaba, T.A. Demissie and K. Miegel, "Drivers and implications of land use/land cover dynamics in Finchaa catchment, northwestern Ethiopia", Land, 9(4), p. 113-133, 2020.

Z.M. Fan and S.B. Li, "Change pattern of land cover and its driving force since 2001 in the New Eurasian Continental Bridge Economic Corridor", Acta Ecol. Sin, 39, p. 5015-5027, 2019.

M. Mohsin, "Urban growth and conversion of farmland in Bahawalpur City, Pakistan: Causes, Rates and Remedies", LAP LAMBERT Academic Publishing: Saarbrücken, Germany, 2014.

M. Mohsin, M.M. Anwar, M. Dawood, M.A.A. Shah, F. Jamal and M. Basit, "Impact of land use change on land values: A case of Jhangiwala, Bahawalpur City, Pakistan", Journal of Biodiversity and Environmental Sciences, 14(6), p. 152-160, 2019.

R. Hoyer and H. Chang, "Assessment of freshwater ecosystem services in the Tualatin and Yamhill basins under climate change and urbanization", Applied Geography, 53, p. 402-416, 2014.

S. Hishe, W. Bewket, J. Nyssen and J. Lyimo, "Analysing past land use land cover change and CA-Markov-based future modelling in the Middle Suluh Valley, Northern Ethiopia", Geocarto International, 35(3), p. 225-255, 2020.

H.J. Geist and E.F. Lambin, "Proximate causes and underlying driving forces of Tropical deforestation", Bio Science, 52(2), p. 143-150, 2002.

J. Zheng, X. Chen, Y. Du, X. Li and J. Zhang, "Short text sentiment analysis of micro-blog based on bert", In: Advanced Multimedia and Ubiquitous Engineering (pp. 390-396). Springer: Singapore, 2019.

S. Das and R. Sarkar, "Predicting the land use and land cover change using Markov model: A catchment level analysis of the Bhagirathi-Hugli River", Spatial Information Research, 27(4), p. 439-452, 2019.

J. Tan, D. Yu, Q. Li, X. Tan and W. Zhou, "Spatial relationship between land-use/land-cover change and land surface temperature in the Dongting Lake area, China", Scientific Reports, 10(1), p. 1-9, 2020.

B.J. Zoungrana, C. Conrad, L.K. Amekudzi, M. Thiel, E.D. Da, G. Forkuor and F. Löw, "Multi-temporal landsat images and ancillary data for land use/cover change (LULCC) detection in the Southwest of Burkina Faso, West Africa", Remote Sensing, 7(9), p. 12076-12102, 2015.

A.M.A. Athick and K. Shankar, "Data on land use and land cover changes in Adama Wereda, Ethiopia, on ETM+, TM and OLI-TIRS Landsat sensor using PCC and CDM techniques", Data in Brief, 24, 2019.

Z. Szantoi, G.N. Geller, N.E. Tsendbazar, L. See, P. Griffiths, S. Fritz, P. Gong, M. Herold, B. Mora and A. Obregón, "Addressing the need for improved land cover map products for policy support", Environmental Science & Policy, 112, p. 28-35, 2020.

S. Twisa and M.F.J.L. Buchroithner, "Land-use and land-cover (LULC) change detection in Wami river basin, Tanzania", Land, 8(9), p. 136, 2019.

S. Nunez, J. Verboom and R. Alkemade, "Assessing land-based mitigation implications for biodiversity", Environmental Science & Policy, 106, p. 68-76, 2020.

N.T. Huyen, L.H. Tu, N.D. Liem, V.N.Q. Tram, D.N. Minh and N.K. Loi, "Assessing impacts of land use and climate change on soil and water resources in the Srepok watershed, Central Highland of Vietnam", Policy Brief Series, p. 1-4, 2016.

B.L. Turner II, W.B. Meyer and D.L. Skole, "Global Land use/Land-cover Change: Towards an Integrated Study", Ambio, 23, p. 91-95, 1994.

P. Krajewski, I. Solecka and K. Mrozik, "Forest landscape change and preliminary study on its driving forces in Ślęża Landscape Park (Southwestern Poland) in 1883–2013", Sustainability, 10(12), p. 1-21, 2018.

M.T.U. Rahman, F. Tabassum, M. Rasheduzzaman, H. Saba, L. Sarkar, J. Ferdous and A.Z. Islam, "Temporal dynamics of land use/land cover change and its prediction using CA-ANN model for southwestern coastal Bangladesh", Environmental Monitoring and Assessment, 189(11), p. 1-18, 2017.

M. Rani, P. Kumar, P.C. Pandey, P.K. Srivastava, B.S. Chaudhary, V. Tomar and V.P. Mandal, "Multi-temporal NDVI and surface temperature analysis for Urban Heat Island inbuilt surrounding of sub-humid region: A case study of two geographical regions", Remote Sensing Applications: Society and Environment, 10, p. 163-172, 2018.

M.J. Khan, M.M. Zeeshan and S.S. Ali, "GIS-based change detection of coastal features along Karachi coast Pakistan", Pakistan Journal of Science, 72(2), p. 124-133, 2020.

M. Almazroui, A. Mashat, M.E. Assiri and M.J. Butt, "Application of Landsat data for urban growth monitoring in Jeddah", Earth Systems and Environment, 1(2), p. 1-11, 2017.

R. Bhagyanagar, B.M. Kawal, G.S. Dwarakish, and S. Surathkal, "Land use/land cover change and urban expansion during 1983-2008 in the coastal area of Dakshina Kannada district, South India", Journal of Applied Remote Sensing, 6(1), p. 063576, 2012.

Z. Zhang, S. Liu, J. Wei, J. Xu, W. Guo, W. Bao and Z. Jiang, "Mass change of glaciers in Muztag Ata–Kongur Tagh, Eastern Pamir, China from 1971/76 to 2013/14 as derived from remote sensing data", PloS One, 11(1), p. e0147327, 2016.

Z. Khan, A. Saeed and M.H. Bazai, "Land use/land cover change detection and prediction using the CA-Markov model: A case study of Quetta city, Pakistan", Journal of Geography and Social Sciences, 2(2), p. 164-182, 2020.

M.H. Bazai and S. Panezai, "Assessment of urban sprawl and land use change dynamics through GIS and remote sensing in Quetta, Balochistan, Pakistan", Journal of Geography and Social Sciences, 2(1), p. 31-50, 2020.

M.A. Mahboob, I. Atif and J. Iqbal, "Remote sensing and GIS applications for assessment of urban sprawl in Karachi, Pakistan", Science Technology and Development, 34(3), p. 179-188, 2017.

GOP, "District Layyah", Government of the Punjab, 2023, Available from: http://www.punjab.gov.pk/layyah (9 January, 2023).

GOP, "District Census Report Layyah", 2017, Government of the Punjab, Available from: http://www.pbs.gov.pk/census-2017-district-wise/results/069 (9 January, 2023).

M.S. Sajid, Z. Iqbal, M.N. Khan, G. Muhammad, G. Needham and M.K. Khan. "Prevalence, associated determinants, and in vivo chemotherapeutic control of hard ticks (Acari: Ixodidae) infesting domestic goats (Capra hircus) of lower Punjab, Pakistan", Parasitological Research, 108, p. 601-609, 2011.

Q. Safder and U. Babar, "Assessment of Urbanization and Urban Sprawl Analysis through Remote Sensing and GIS: A Case Study of Faisalabad, Punjab Pakistan", International Journal of Academic Research in Business and Social Sciences, 9(4), p. 16-36, 2019.

S. Talukdar, P. Singha, S. Mahato, Shahfahad, S. Pal, Y. Liou, and A. Rahman. "Land-Use Land-Cover Classification by Machine Learning Classifiers for Satellite Observations-A Review", Remote Sensing, 12, p. 1135, 2020.

B. Kumari, M. Tayyab, H.T. Hang, M.F. Khan and A. Rahman, "Assessment of public open spaces (POS) and landscape quality based on per capita POS index in Delhi, India", SN Applied Sciences, 1(4), p. 1-13, 2019.

R. Kharazmi, A. Tavili, M.R. Rahdari, L. Chaban, E. Panidi and J. Rodrigo-Comino, "Monitoring and assessment of seasonal land cover changes using remote sensing: A 30-year (1987–2016) case study of Hamoun Wetland, Iran", Environmental Monitoring and Assessment, 190(6), p. 1-23, 2018.

M. Romaguera, R.G. Vaughan, J. Ettema, E. Izquierdo-Verdiguier, C.A. Hecker and F.D. Van der Meer, "Detecting geothermal anomalies and evaluating LST geothermal component by combining thermal remote sensing time series and land surface model data", Remote Sensing of Environment, 204, p. 534-552, 2018.

Y. Liu, "Analysis of Four Change Detection Algorithms in Bi-Temporal Space with a Case Study", International Journal of Remote Sensing, 25(11), p. 2121-2139, 2004.

D. Ameta, "Integration of Remote Sensing Data with Geographic Information System (GIS): Applications and Change Detection Techniques", International Journal of Managing Public Sector Information and Communication Technologies, 6(4), p. 15-24, 2015.

A. Harris, A.S. Carr, and J. Dash, "Remote sensing of vegetation cover dynamics and resilience across southern Africa", International Journal of Applied Earth Observation and Geoinformation, 28, p. 131-139, 2014.

G.T. Ayele, A.K. Tebeje, S.S. Demissie, M.A. Belete, M.A. Jemberrie, W.M. Teshome and E. Teshale, "Time series land cover mapping and change detection analysis using geographic information system and remote sensing, Northern Ethiopia", Air, Soil and Water Research, 11, p. 1178622117751603, 2018.

C. Chew, R. Shah, C. Zuffada, G. Hajj, D. Masters and A.J. Mannucci, "Demonstrating soil moisture remote sensing with observations from the UK Tech DemoSat-1 satellite mission", Geophysical Research Letters, 43(7), p. 3317-3324, 2016.

M.S. Saleem, S.R. Ahmad and M.A. Javed, "Impact assessment of urban development patterns on land surface temperature by using remote sensing techniques: a case study of Lahore, Faisalabad and Multan district", Environmental Science and Pollution Research, 27(32), p. 39865-39878, 2020.

M. Aboelnour and B.A. Engel, "Application of remote sensing techniques and geographic information systems to analyze land surface temperature in response to land use/land cover change in Greater Cairo Region, Egypt", Journal of Geographic Information System, 10(1), p. 57-88, 2018.

S.M. Malik, S. Arshad, A. Khan and O. Bilal, "Monitoring urban growth and land use changes using GIS and remote sensing: A case study of Tehsil Burewala", Journal of Himalayan Earth Sciences, 53(1), p. 140-152, 2020.

A. Rehman, M. Mobeen, S. Bashir, M. Rauf, F. Ullaha, A. Aziz, T. Aziz and O. Riaz, "Impact of land use change on water quality of Jhang District", Journal of Biodiversity and Environmental Sciences, 13(6), p. 174-182, 2018.

M. Waleed, M. Sajjad, A.O. Acheampong, and M.T. Alam, "Towards Sustainable and Livable Cities: Leveraging Remote Sensing, Machine Learning and Geo-Information Modelling to Explore and Predict Thermal Field Variance in Response to Urban Growth", Sustainability, 15, p. 1416, 2023.

M. Sajid, M. Mohsin, T. Jamal, M. Mobeen, A. Rehman and A. Rafique, "Impact of Land-use Change on Agricultural Production & Accuracy Assessment through Confusion Matrix", International Journal of Innovations in Science & Technology, 04(01), p. 233-245, 2022.

T.T. Vu and Y. Shen, "Land‐Use and Land‐Cover Changes in Dong Trieu District, Vietnam, during Past Two Decades and their Driving Forces", Land, 10, p. 798, 2021.

A.A. Khan, S. Arshad and M. Mohsin, "Population Growth and Its Impact on Urban Expansion: A Case Study of Bahawalpur, Pakistan", Universal Journal of Geoscience, 2(8), p. 229-241, 2014.

Y. Xie, M. Batty, and K. Zhao, "Simulating Emergent Urban Form Using Agent-Based Modeling: Desakota in the Suzhou-Wuxian Region in China", Annals of the Association of American Geographers, 97(3), p. 477-495, 2007.

C. Homer, J. Dewitz, S. Jin, G. Xian, C. Costello, P. Danielson and K. Riitters, "Conterminous United States land cover change patterns 2001–2016 from the 2016 national land cover database", ISPRS Journal of Photogrammetry and Remote Sensing, 162, p. 184-199, 2020.

S. Tiwari, C. Singh, S. Boudh, P.K. Rai, V.K. Gupta, and J.S. Singh, "Land use change: A key ecological disturbance declines soil microbial biomass in dry tropical uplands", Journal of Environmental Management, 242, p. 1-10, 2019.

H. Long and Y. Qu, "Land use transitions and land management: A mutual feedback perspective", Land Use Policy, 74, p. 111-120, 2018.

J. Cao, X. Zhang, R. Deo, Y. Gong and Q. Feng, "Influence of stand type and stand age on soil carbon storage in China’s arid and semi-arid regions", Land Use Policy, 78, p. 258-265, 2018.

D. Yan, R.L. Scott, D.J.P. Moore, J.A. Biederman and W.K. Smith, "Understanding the relationship between vegetation greenness and productivity across dryland ecosystems through the integration of PhenoCam, satellite, and eddy covariance data", Remote Sensing of Environment, 223, p. 50-62, 2019.

A. Veldkamp and E.F. Lambin, "Predicting land-use change", Agriculture, Ecosystems and Environment, 85, p. 1-6, 2001.

X. Fu, X. Wang and Y.J. Yang, "Deriving suitability factors for CA-Markov land use simulation model based on local historical data", Journal of Environmental Management, 206, p. 10-19, 2018.

M. Jiao, M. Hu and B. Xia, "Spatiotemporal dynamic simulation of land-use and landscape-pattern in the Pearl River Delta, China", Sustainable Cities and Society, 49, 101581, p. 1-35, 2019.

D. Choudhury, K. Das and A. Das, "Assessment of land use land cover changes and its impact on variations of land surface temperature in Asansol-Durgapur Development Region", The Egyptian Journal of Remote Sensing and Space Science, 22(2), p. 203-218, 2019.

R.J. Corner, A.M. Dewan and S. Chakma, "Monitoring and prediction of land-use and land-cover (LULC) change", In: Dhaka Megacity, A. Dewan, and R. Corner (Eds.), pp. 75-97, Springer, Dordrecht, The Netherlands, DOI: 10.1007/978-94-007-6735-5_5, 2014.

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Published

27-01-2023

How to Cite

[1]
M. Sajid, “Spatio-Temporal Analysis of Land Use Change and Its Driving Factors in Layyah, Punjab, Pakistan”, The Nucleus, vol. 60, no. 1, pp. 15–23, Jan. 2023.

Issue

Vol. 60 No. 1 (2023)

Section

Articles