Abstract
Landscape characterization gives an overall information on the status of Land Use and Land Cover (LULC), changes in its composition and the impact of natural and human influences operating at different spatial and temporal scales. This information can be used to monitor changes in natural forest resources and protected areas, delineate potential conservation areas and can serve in effective management of ecologically fragile landscapes. In the present study, geo-spatial tools were used to characterize the landscape of Sariska National Park and its surroundings. Satellite data was used to prepare LULC maps for 1989 and 2000, change detection analysis and computation of landscape metrics. Climatic data, field records and modeling tools were used to map the potential spread of two invasive species, Prosopis juliflora and Adhatoda vasica. The results show that the forest area increased from 1989 to 2000, indicating better management practices. Landscape metrics (PAFRAC, PLADJ and AI) also support this argument. Improvements in the degraded forest can further enhance this effect. The entire reserve however is suitable for the invasion of P. juliflora and A. vasica but is more pronounced in Boswellia serrata and Anogeissus pendula — Acacia catechu (open) forests. A detailed landscape characterization map can help forest managers to make important policy decisions concerning issues such as invasive species.
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References
Green D R, Hartley (2000) Integrating photo interpretation and GIS for vegetation mapping: Some issues of error, vegetation mapping: from patch to planet [M]//Alexander, Millington A C, (Eds). New York: John Willey and Sons, Ltd.
Ramachandra T V, Kumar U (2004) Geographic resources decision support system for land use, land cover dynamics analysis [OL]. http://ces.iisc.ernet.in/energy/Welcome.html (accessed on 12.05.2010)
Geri F, Amici V, Rocchini D (2010) Human activity impact on the heterogeneity of a Mediterranean land scape [J]. Applied Geography, 29.DOI:10.1016/j.apgeog.2009.10.006
Fernandez N, Paruelo, Delibes M (2010) Ecosystem functioning of protected and altered mediterranean environments: A remote sensing classification in Donana, Spain [J]. Remote Sensing of the Environment, 114: 211–220
Xie Z, Roberts C, Johnson B (2008) Object-based target search using remotely sensed data: A case study in detecting invasive exotic Australian Pine in south Florida [J]. ISPRS Journal of Photogrammetry and Remote Sensing, 63(6): 647–660
Henle K, Alard D, Clitherow J, et al. (2008) Identifying and managing the conflicts between agriculture and biodiversity conservation in Europe-A review [J]. Agriculture, Ecosystem & Environment, 137: 143–150
Long H, Tang G Li, Heilig G (2007) Social-economic driving forces of land-use change in Kunshan, the Yangtze River Delta economic area of China [J]. Journal of Environment Management, 83: 351–364
Asner G, Jones M M, Hughes R (2008) Remote sensing of native and invasive species in Hawaiian forests [J]. Remote Sensing of Environment, 112(5): 1912–1926
Roy P S, Tomar S (2001) Landscape dynamics pattern in Meghalaya [J]. International Journal of Remote Sensing, 22(18): 3813–3825
Graf R, Mathys L, Bollmann K (2009) Habitat assessment for forest dwelling species using LiDAR remote sensing: Capercaillie in the Alps [J]. Forest Ecology and Management, 257(1): 160–167
Apan A A, Raine S R, Paterson M S (2002) Mapping and analysis of changes in the riparian landscape structure of the Lockyer catchment, Queensland, Australia [J]. Landscape and Urban Planning, 59: 43–57
Bazi Y, Bruzzone L, Melgani F (2005) An unsupervised approach based on the generalized Gaussian model to automatic change detection in multi-temporal SAR Images [J]. IEEE Transaction on Geoscience and Remote Sensing, 43(4): 874–887
Buyantuyevao A, Wuao J, Gries C (2010) Multiscale analysis of the urbanization pattern of the Phoenix metropolitian landscape of USA: Time, space and thematic resolution [J]. Landscape and Urban Planning, 94: 206–217
Nagendra H, Munroe D K, Southworth J (2004) From pattern to process: landscape fragmentation and the analysis of land use/land cover change [J]. Agriculture, Ecosystems and Environment, 101: 111–115
Lele N V, Joshi P K, Agarwal S P (2005) Fractional vegetation cover analysis for understanding vegetation covers dynamics in northeast India [J]. International Journal of Geoinformatics, 1(3): 63–70
Joshi P K, Lele N, Agarwal S P (2006) Entropy as an indicator of fragmented landscape [J]. Current Science, 91(30): 276–278
Tang J, Wang L, Yao Z (2008) Analyses of urban landscape dynamics using multi-temporal satellite images: A comparison of two petroleum-oriented cities [J]. Landscape and Urban Planning, 87(4): 269–278
Lee J T, Elton M J, Thompson S (1999) The role of GIS in landscape assessment: using land use based criteria for an area of the Chiltern Hills Area of outstanding natural beauty [J]. Land Use Policy, 16: 23–32
Sanchez-Flores E, Rodriguez-Gallegos H, Yool S R (2008) Plant invasions in dynamic desert landscapes. A field and remote sensing assessment of predictive and change modeling [J]. Journal of Arid Environment, 72(3): 189–206
Oslen M L, Dale V, Foster T (2006) Landscape pattern as indicators of ecological change at Fort Benning, Georgia, USA [J]. Landscape and Urban Planning, 79: 137–149
Kennedy R, Townseed P, Gross J, et al. (2009) Remote sensing change detection tools for natural resource managers: Understanding concepts and trade-offs in the design of landscape monitoring projects [J]. Remote Sensing of the Environment, 113: 1382–1396
Rodgers W A (1985) The vegetation of Sariska Tiger Reserve [R]. Wildlife Institute of India, Dehradun
Tiwari A K, Kudrat M, Bhan S K (1990) Vegetation cover classification in Sariska National Park and surroundings [J]. Journal of the Indian Society of Remote Sensing, 18 (3): 43–51
Puri G S (1982) Forest ecology [M]. New Delhi: Oxford Publishing Co.
Champion H G, Seth S K (1968) A revised survey of forest types of India [M]. New Delhi: Govt. of India
Gergel S E (2007) New directions in landscape pattern analysis and linkages with remote sensing [M]//Wulder M A, Franklin S E (Eds). Understanding forest disturbance and spatial pattern. Boca Raton. FL: Taylor and Francis
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Supported by the Masters Research Programme — TERI University, New Delhi.
JOSHI Pawan Kumar is Associate Professor and Head of Department of Natural Resources at the TERI University, New Delhi India. He holds a Ph.D. degree in environmental sciences with specialization in RS & GIS. His research interests are (1) landscape characterization, (2) climate change & ecological studies, and (3) geoinformatics.
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Joshi, P.K., Narula, S., Rawat, A. et al. Landscape characterization of Sariska National Park (India) and its surroundings. Geo-spat. Inf. Sci. 14, 303–310 (2011). https://doi.org/10.1007/s11806-011-0557-1
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DOI: https://doi.org/10.1007/s11806-011-0557-1