IRS LISS3-based study of spatio-temporal land use and land cover changes and their relationship with the Ahiran watershed of Hasdeo River in Central India

S.S Singh; Ankita Singh

doi:10.36808/if/2022/v148i11/165519

IRS LISS3-based study of spatio-temporal land use and land cover changes and their relationship with the Ahiran watershed of Hasdeo River in Central India

Authors

S.S Singh Department of Forestry, Wildlife and Environmental sciences, Guru Ghasidas University, Bilaspur, Chhattisgarh
Ankita Singh Department of Forestry, Wildlife and Environmental sciences, Guru Ghasidas University, Bilaspur, Chhattisgarh

DOI:

https://doi.org/10.36808/if/2022/v148i11/165519

Keywords:

Ahiran sub watershed, LULC, PCA, Spatio-temporal, NDVI- SAVI

Abstract

The Hasdeo River watershed is the source of various land use practices. Human activities have a long-term impact on land use/cover changes and the sustainability of a watershed to research aims to assess changes in land use/land cover (LULC) in the Ahiran subwatershed of the Hasdeo River in Central India, based on temporal analysis of independently produced classified images, Normalized Difference Vegetation Index (NDVI), and Principal Component Analysis (PCA) from 2000 to 2013. The comparison of the LULC change maps over different time periods (2000-2013) shows that the land use structures within the study region have changed. The land use intensity within the study region indicates the degree of human activities on the lands, which may be important indicators of land use pattern. During the thirteen years, the dense forest region rise is hyperbolic due to the establishment of plantations and other tree species in barren and scrublands. Expansion of mining, industrial activities, and settlements has to hydrological changes also. The NDVI and SAVI indicate of healthy and unhealthy vegetation in subwatersheds when compared to various LULC. PCA demonstrates a strong relationship between barren land and riverbed, water resources, and dense forest to conclude, subwatershed is currently due to intensive anthropogenic activities. Good government policies which encourage the growth of forests in the vicinity of mining areas through social forestry should be implemented.

References

Arefin, R., Md. Mohir, M. I. and Alam, J. (2020). Watershed prioritization for soil and water conservation aspect using GIS and remote sensing: PCA-based approach at northern elevated tract Bangladesh, Applied Water Science: https://doi.org/10.1007/s13201-020-1176-5.

Ayeyele, G.T., Demessie, S.S., Mengistu, K.T., Tilahun, S.A. and Melesse, A.M. (2016). Multitemporal land use/land cover change detection for the Batena Watershed, Rift Valley Lakes Basin, Ethiopia. In: Landscape Dynamics, Soils and Hydrological Processes in Varied Climates (M.A. Melesse and W. Abtew eds.), New York, Springer International Publishing, pp. 51â€“72.

Barraza, V., Grings, F. and Salvia, M. (2013). Monitoring and modelling land surface dynamics in Bermejo River Basin, Argentina: Time series analysis of MODIS NDVI data, Int. J. Rem. Sens., 34 (15): 5429â€“5451.

Basha, U.I., Suresh, U., Sudarsana, R., Rajasekhar, M., Veeraswamy, G., and Balaji, E. (2018). Landuse and Landcover Analysis Using Remote Sensing and GIS: A Case Study in Somavathi River, Anantapur District, Andhra Pradesh, India, Nature Environment and Pollution Technology, 17 (3): 1029-1033.

Bazgeera, S., Sharma, P.K., Maheya, R.K., Hundala, S.S. and Sood A. (2008). Assessment of land use changes using remote sensing and GIS and their implications on climatic variability for Balachaur watershed in Punjab, India, Desert, (12): 139â€“147.

Bollasina, M.A. (2014). Hydrology: Probing the monsoon pulse, Nat. Clim. Chang., 4: 422-423.

Bronstert, A., Niehoff, D. and BÃ¼rger, G. (2002). Effects of climate and land-use change on storm runoff generation: Present knowledge and modeling capabilities, Hydrological Processes, 16: 509â€“529.

Butt, Amna, Shabbir, Rabia, Ahmad and Sheikh S. (2015). Land use change mapping and analysis using Remote Sensing and GIS: A case study of Simly watershed, Islamabad, Pakistan, Egypt. J. Remote Sens. Space Sci., 18 (2): 251â€“259.

Caruso, G., Rounsevell, M.D.A. and Cojacarus, G. (2005). Exploring a spatio dynamic neighbourhood-based model of residential behaviour in the Brussels peri-urban area, Int. J. Geograph. Inf. Sci., 19: 103â€“ 123.

Chen, G., Hay, G.J., Carvalho, L.M.T. and Wulder, M.A. (2012). Object-based change detection, Int. J. Rem. Sens., (33): 4434â€“4457.

Cifaldi, R.L., Allan, J.D., Duh, J.D. and Brown, D.G. (2004). Spatial patterns inland cover of exurbanizing watersheds in south eastern Michigan, Landscape Urban Planning, 66 (2): 107â€“123.

Congalton, R.G. (1991). A review of assessing the accuracy of classifications of remotely sensed data, Remote Sensing of Environment, 37: 35â€“46.

Coops, N.C., Wulder, M.A. and White, J.C. (2006). Identifying and Describing Forest Disturbance and Spatial Pattern. Understanding Forest Disturbance and Spatial Pattern, CRC Press, 31â€“61.

Dewan, A.M. and Yamaguchi, Y. (2009). Using remote sensing and GIS to detect and monitor land use and land cover change in Dhaka Metropolitan of Bangladesh during 1960-2005, Environ. Monit. Assess., 150 (1-4): 237-49.

Dwivedi, R.S., Sreenivas K. and Ramana K.V. (2005). Landuse/land-cover change analysis in part of Ethiopia using Landsat Thematic Mapper data, International Journal of Remote Sensing, 2(7): 1285â€“1287.

Eklundh L. and Singh, A. (1993). A comparative analysis of standardised and unstandardized principal component analysis in remote sensing, Int. J. Rem. Sens., 14 (7): 1359-1370.

El-Hattab M. M. (2015). Change detection and resolution alternatives for the Egyptian lake Maryut, Egypt. J. Rem. Sens. Space Sci., 18: 9-16.

El-Hattab M. M. (2016). Applying post classification change detection technique to monitor an Egyptian coastal zone (Abu Qir Bay), Egypt. J. Rem. Sens. Space Sci., 19: 31-36.

FAO (2007). A framework for land evaluation, FAO soil bulletin no. 6 Rome, Italy.

Fung T. (1990). An assessment of TM imagery for land-cover change detection, IEEE Transactions on Geoscience and Remote Sensing, 28 (4): 681-684.

Gajbhiye S. and Sharma S.K. (2012). Land use and land cover change detection of Indira river watershed through remote sensing using multi-temporal satellite data, Int. J. Geomatics Geosci., 3: 89â€“96.

Gao, J. and Liu Y. (2010). Determination of land degradation causes in Tongyu County, Northeast China via land cover change detection, Int. J. Appl. Earth Obs. Geoinf., 12 (1): 9-16.

Gu, Z.L. (1999). Study on phenomena and mechanism of land use/cover change in Beijing, Journal of Natural Resources, 14: 307â€“312.

Hansen, M.C., DeFries, R.S., Townshed, J.R.G. and Sohlberg, R. (2000). Global land cover classification at 1km spatial resolution using a classification tree approach, Int. J. Remote Sens., 21: 1331-1364.

Huete, A.R. (1988). A soil-adjusted vegetation index (SAVI), Remote Sensing of Environment, 25(3): 259-309.

Hu, H.B., Liu, H.Y., Hao, J.F. and An, J. (2012). Analysis of land use change characteristics based on remote sensing and GIS in the Jiuxiang river watershed, Int. J. Smart Sens. Intell. Syst., 5: 811â€“823.

Imbernon, J. (1999). Pattern and development of land use changes in theKenyan highlands since the 1950s, Agriculture, Ecosystems and Environment, 76: 67â€“73.

Ingebritsen, S.E. and Lyon, J.P. (1985). Principle component analysis of multispectral image pairs, International Journal of Remote Sensing, 6: 687â€“696.

Ispikoudis, I., Lyrintzis, G. and Kyriakakis, S. (1993). Impact of human activities on Mediterranean landscape in western Crete, Landscape and Urban Planning, 24: 259â€“271.

Jacob, M.A., Frankl, A.E., Hurni, H.B., Lanckriet, S.A., De Ridder, M.C., Guyassa, E.A.D., Beeckman, H.C. and Nyssen, J.A. (2017). Land cover dynamics in the Simien Mountains (Ethiopia), half a century after establishment of the National Park. Regional Environ. Change, 17(3): 777-787.

Jain, S.K. and Kumar, V. (2012). Trend analysis of rainfall and temperature data of India, Curr. Sci., 102 (1): 37.

Jayantha, J., Kumar, Ashok T., Koliwad, S. and Krishnashastry, S. (2016). Identification of land cover changes in the coastal area of Dakshina Kannada district, South India during the year 2004-2008, Egypt. J. Rem. Sens. Space Sci., 19: 73-93.

Jensen, J.R. (2005). Introductory Digital Image Processing: A Remote Sensing Perspective. New Jersey: Pearson Education, Inc.

Kaswanto, N. and Arifin, H.D. (2010). Impact of land use changes on spatial pattern of landscape during two decades (1989-2009) in West Java region, Hikobia, 15: 363-376.

Kharkwal, S. and Kumar, A. (2015). Socio-Economic impact of MGNREGA: Evidences from district of Udham Singh Nagar in Uttarakhand, India, Indian Journal of Economics and Development, 3 (12):. 1-10.

Kinthada, N.R., Gurram, M.K., Eadara, A. and Velagala, V.R. (2014). Land Use/Land Cover and NDVI Analysis for Monitoring the Health of Micro-watersheds of Sarada River Basin, Visakhapatnam District, India, J Geol Geosci., 3: 146.

Koutsias, N. and Karteris, M. (2009). A forward/backward principal component analysis of Landsat-7 ETMC data toenhance the spectral signal of burnt surfaces, ISPRS Journal of Photogrammetry and Remote Sensing, 64:.37-46.

Lambin, E.F., Turner, B.L., Geist, H.J., Agbola, S.B., Angelsen, A., Bruce, J.W., Coomes, O.T., Dirzo, R., Fischer, G., Folke, C., George, P.S., Homewood, K., Imbernon, J., Leemans, R., Li, X.B., Moran, E.F., Mortimore, M., Ramakrishnan, P.S., Richards, J.F., Skanes, H., Stefeen, W., Stone, G.D., Svedin, U., Veldkamp, T.A., Vogel, C. and Xu, J.C. (2001). The causes of land-use and land-cover change: moving beyond the myths, Global Environ. Change, 11(4): 261â€“269.

Lewoye, T. (2014). Analysis of Land Use and Land Cover Change and ItsDrivers UsingGIS and Remote Sensing: The Case of West Guna Mountain, Ethiopia, Int. J. Remote Sensing GIS, 3(3): 53-63.

Lillesand, T.M. and Kiefer, R.W. (2000). Remote Sensing and Image Interpretation, IVth Edition, John Willey & Sons Inc., USA.

Lu D., Mausel P., Brondizio E. and Moran E. (2004). Change detection techniques, Int. J. Remote Sens., 25 (12): 2365-2407.

Luo, J., Zhou, T., Du, P. and Xu, Z. (2019). Spatial-temporal variations of natural suitability of human settlement environment in the Three Gorges Reservoir Area- A case study in Fengjie County, China, Front. Earth Sci., 13: 1â€“17.

Martin, N. (2021). Risk Assessment of Future Climate and Land Use/Land Cover Change Impacts on Water Resources, Hydrology, 8: 38.

Mas, J.F. (1999). Monitoring landâ€cover change: a comparison change detection techniques, International Journal of Remote Sensing, 20: 139â€“152.

Mayaux, P., Richards, T., Janodet, E. (1999). A vegetation map of Central Africa derived from satellite imagery, J. Biogeogr., 26 (2): 353-366.

Midgley, G.F., Hannah, L., Millar, D., Rutherford, M.C. and Powrie, L.W. (2002). Assessing the vulnerability of species richness to anthropogenic climate change in a biodiversity hotspot, Global Ecol. Biogeo., 11: 445â€“451.

Mendoza, M.E., Granados, E.L., Geneletti, D., Perez-Salicrup, D.R. and Salinas, V. (2011). Analysing land cover and land use change processes at watershed level: a multi temporal study in the Lake Cuitzeo Watershed, Mexico (1975â€“2003), Appl. Geogr., 31: 237â€“ 250.

Mengistu, D.A.A. and Waktola D.K.B. (2014). Monitoring land use/land cover change impacts on soils in data scarce environments: a case of south-central Ethiopia, J. Land Use Sci., 11(1): 96-112.

Moulds, S., Buytaert, W. and Mijic, A. (2018). Spatio-temporal land use and land cover reconstruction for India from 1960â€“2010, Scientific Data (Nature), 5: 180159.

Naik, D.D. and Somani, V.V. (2019). Remote sensing of watershed: Spectral ratioing study for watershed management, International Journal of Advanced Remote Sensing and GIS, 8(1) : 2983-2996.

Niyogi, D., Kishtwal, C., Tripathi, S. and Govindraju, R.S. (2010). Observational evidence that agricultural intensification and land use change may be reducing the Indian summer monsoon rainfall, Water Resour. Res., 46: W03533.

Ngondo, J., Mango, J., Ruiqing, L., Nobert, J., Dubi, A. and Heqin, C. (2021). Land-Use and Land-Cover (LULC) Change Detection and the Implications for Coastal Water Resource Management in the Wamiâ€“Ruvu Basin, Tanzania, Sustainability, 13: 4092.

Owen, S.M., MacKenzie, A.R., Bunce, R.G.H., Stewart, H.E., Donovan, R.G., Stark, G. and Hewitt, C.N. (2006). Urban land classification and its uncertainties using principal component and cluster analyses: A case study for the UK West Midlands, Landscape and Urban Planning, 78: 311-321.

Patel, M. and Khalkho, D. (2019). Water resource management plan of micro-watershed using geospatial techniques, Int. J. Curr. Microbiol. App. Sci., 8(2): 270-277.

Pathak, A., Ghosh, S. and Kumar, P. (2014). Precipitation recycling in the Indian subcontinent during summer monsoon, J. Hydrometer., 15: 2050-2066.

Peng, D., Huete, A. R. and Huang, J. (2011). Detection and estimation of mixed paddy rice cropping patterns with MODIS data. International Journal of Applied Earth Observation and Geoinformation, 13: 13â€“23.

Pisani, O., Bosch, D.D, Coffin, A.W., Endale, D.M., Liebet, D. and Strickland, T.C. (2020). Riparian land cover and hydrology influence stream dissolved organic matter composition in an agricultural watershed, Science of the Total Environment, 71(7): 137-165.

Prabhakar, A.K., Singh, K.K., Lohani, A.K., and Chandnih, S.K. (2019). Study of Champua watershed for management of resources by using morphometric analysis and satellite imagery, Applied Water Science, 9:127

Reid, R.S., Kruska, R.L., Muthui, N., Taye, A., Wotton, S., Wilson, C.J. and Mulatu W. (2000). Land-use and land-cover dynamics in response to changes in climatic, biological and socio-political forces: The case of southwestern Ethiopia, Landscape Ecology, 15: 339â€“355.

Rimal, B. (2011). Urban growth and land use/land cover change of Biratnagar sub-metropolitan city, Nepal, Applied Remote Sensing Journal, 2(1): 6-15.

Sakthivel, R., Manivel, M., Jawaharraj, N., Pugalanthi, V., Ravichandran, N. and Vijay, D. Anand (2010). Remote sensing and GIS based forest cover change detection study in Kalrayan hills, Tamil Nadu. Journal of Environmental Biology, 31(5) p. 737-747.

Sala, O.E., Chapin, F.S.I., Armesto, J.J., Berlow, E., Bloomfield, J., Dirzo, R., Sanwald, E.H., Huenneke, L.F., Jackson, R.B., Kinzig, A., Leemans, R., Lodge, D.M., Mooney, H.A., Oesterheld, M., Poff, N.L., Sykes, M.T., Walker, B.H., Walker, M. and Wall, D.H. (2000). Global biodiversity scenarios for the year 2100, Science, 287: 1770-1773.

Seif, A. and Mokarram, M. (2012). Change detection of Gil Playa in the Northeast of Fars Province, Iran Am. J. Sci. Res., 86: 122â€“130.

Sharma, G. and Sharma, R.N. (2020). Application of GIS and Remote Sensing for the Impact assessment of Integrated Watershed Management Program: A Case Study of Bassi Block, Jaipur District, International Journal of Scientific and Technology Research, 9(1): 1-7.

Sheen, Shaw-wen. (2004). A Principal Component Analysis of vegetation characteristics in North America, Journal of National Taipei Teachers College, 17 (1): 173-182.

Shi, T., Yang, Y.J and Ma, J. (2013). Study on spatial-temporal characteristics of urban heat island in Anhui province based on MODIS: typical cases study, J. Appl. Meteror. Sci., 24 (4): 84â€“494.

Singh, Ajay K. and Singh, S.S. (2012). FLULC mapping and assessment of a typical sub watershed of Central India using IRS-P6 LISS 3 data. Journal of Biodiversity & Environmental Science, 2(9): 26-32.

Singh, P., Gupta, A. and Singh, M. (2014). Hydrological inferences from watershed analysis for water resource management using remote sensing and GIS techniques, Egypt. J. Rem. Sens. Space Sci., 17: 111â€“121.

Singh, S.S., Kharkwal, H., Singh, Ajay K, Upadhyay, S. and Mahato, A. (2019). Multi-temporal land use/cover change and its driving forces analysis using IRS-1D & P6 LISS3 satellite at early spring in Gej subwatershed of Hasdeo River in Chhattisgarh, India, Interciencia, 44(6): 1-15.

Sonneveld, B.G.J.S. and Keyzer M.A. (2003). Land under pressure: soil conservation concerns and opportunities for Ethiopia, Land Degradation and Development, 14(1): 18-23.

Sitiwan, Y. and Yoshino, K. (2010). Temporal pattern analysis of wavelet filtered MODIS EVI to detect land use change in Java Island, Indonesia, Int. Archives of the Photogrammetry, Remote Sensing and Spatial Science, (38): 8.

Stewart, T.J., Janssen, R. and van Herwijnen M. (2004). A genetic algorithm approach to multi objective land use planning, Comput. Oper. Res., 31: 2293â€“2313.

Suzanchia, K. and Kaur, R. (2011). Land use land cover change in National Capital Region of India: a remote sensing & GIS based two decadal spatial temporal analyses, Procedia Social and Behavioural Sciences, 21: 212â€“221.

Thomas, B. and Bhatia, R. (2012). Impact of NREGA scheme: A study on the overall quality of life of beneficiaries, Asia Pacific Journal of Social Sciences, 4(2): 213-227.

Thakkar, A.K., Desai, V.R., Patel, A. and Potdar, M.B. (2017). Post-classification corrections in improving the classification of Land Use/Land Cover of arid region using RS and GIS: The case of Arjuni watershed, Gujarat, India, The Egyptian Journal of Remote Sensing and Space Sciences, 20: 79â€“89.

Vani V. (2017). Comparative study of NDVI and SAVI vegetation indices in Anantpur district semi arid areas, International Journal of Civil Engineering and Technology, 8(4): 559â€“566.

Wang, X., Yu, S., Huang, G.H. (2004). Land allocation based on integrated GIS-optimization modelling at a watershed level, Landscape Urban Plann., 66: 61â€“74.

Wang, J.A., He, C.Y., Dong Y.C., Gao L. and Xu, W. (2002). Analysis of land use/cover driving forces in the urban fringe of Beijing City, Advance in Sciences, 17: 201â€“208.

Wagner, P.D., Kumar, S. and Schneider, K. (2013). An assessment of land use change impacts on the water resources in the Mula and Mutha rivers catchment upstream of Pune, India, Hydrol. Earth Syst. Sci., 17: 2233-2246.

Willis, K.S. 2015. Remote sensing change detection for ecological monitoring in United States protected areas, Biol. Conserv., 182: 233â€“242.

Xuyu, B., Peijun D., Shanchuan G., Peng Z., Cong L., Pengfei T. and Zhang, C. (2019). Monitoring Land Cover Change and Disturbance of the Mount Wutai World Cultural Landscape Heritage Protected Area, Based on Remote Sensing Time-Series Images from 1987 to 2018. Remote Sensing, 11: 1332-1334.

Yang, L.M., Xian, G., Klaver, J.M. and Deal, B. (2003). Urban landâ€cover change detection through subâ€pixel imperviousness mapping using remotely sensed data, Photogrammetric Engineering and Remote Sensing, 69: 1003â€“1010.

Zeng, F., Ma, M.G., Di, D.R., Shi, W.Y. (2020). Separating the impacts of climate change and human activities on runoff: A review of method and application, Water, 12: 2201.

Zhangshi, Y. and Williams, T.H.L. (1997). Obtaining spatial and temporal Vegetation data from Landsat MSS and AVHRR/ NOAA satellite images for a hydrologic model, Photogrammetric Engineering and Remote Sensing, 63 (1): 69-77.