A Synthesis of Spatial Forest Assessment Studies Using Remote Sensing Data and Techniques in Pakistan

This paper synthesizes research studies on spatial forest assessment and mapping using remote sensing data and techniques in Pakistan. The synthesis states that 73 peer-reviewed research articles were published in the past 28 years (1993–2021). Out of all studies, three were conducted in Azad Jammu & Kashmir, one in Balochistan, three in Gilgit-Baltistan, twelve in Islamabad Capital Territory, thirty-one in Khyber Pakhtunkhwa, six in Punjab, ten in Sindh, and the remaining seven studies were conducted on national/regional scales. This review discusses the remote sensing classification methods, algorithms, published papers’ citations, limitations, and challenges of forest mapping in Pakistan. The literature review suggested that the supervised image classification method and maximum likelihood classifier were among the most frequently used image classification and classification algorithms. The review also compared studies before and after the 18th constitutional amendment in Pakistan. Very few studies were conducted before this constitutional amendment, while a steep increase was observed afterward. The image classification accuracies of published papers were also assessed on local, regional, and national scales. The spatial forest assessment and mapping in Pakistan were evaluated only once using active remote sensing data (i.e., SAR). Advanced satellite imageries, the latest tools, and techniques need to be incorporated for forest mapping in Pakistan to facilitate forest stakeholders in managing the forests and undertaking national projects like UN’s REDD+ effectively.

[1]  M. Murthy,et al.  Deforestation trends and spatial modelling of its drivers in the dry temperate forests of northern Pakistan — A case study of Chitral , 2014, Journal of Mountain Science.

[2]  A. Sher,et al.  Forest Dilemma in the Hindu Raj Mountains Northern Pakistan: Impact of Population Growth and Household Dynamics , 2018, Small-scale Forestry.

[3]  G. Foody,et al.  Applications in Remote Sensing to Forest Ecology and Management , 2020, One Earth.

[4]  S. Ahmad,et al.  Dynamics of land use and land cover change (LULCC) using geospatial techniques: a case study of Islamabad Pakistan , 2016, SpringerPlus.

[5]  C. Bernhofer,et al.  Quantifying the impacts of land use/land cover change on the water balance in the afforested River Basin, Pakistan , 2020, Environmental Earth Sciences.

[6]  Alan Grainger,et al.  Dynamics of global forest area: Results from the FAO Global Forest Resources Assessment 2015 , 2015 .

[7]  Nasru Minallah,et al.  Parallelepiped and Mahalanobis Distance based Classification for forestry identification in Pakistan , 2015, 2015 International Conference on Emerging Technologies (ICET).

[8]  Sajid Ali Forest cover change and carbon stock assessment in Swat valley using remote sensing and geographical information systems , 2017 .

[9]  A. A. Siyal,et al.  Spatial and temporal dynamics of Pai forest vegetation in Pakistan assessed by RS and GIS , 2017, Journal of Forestry Research.

[10]  A. Ali,et al.  Extraction of mangrove forest through Landsat 8 Mangrove Index (L8MI) , 2020, Arabian Journal of Geosciences.

[11]  M. Akmal,et al.  Estimation of soil carbon pools in the forests of Khyber Pakhtunkhwa Province, Pakistan , 2019, Journal of Forestry Research.

[12]  Mehran,et al.  Forest cover dynamics in Palas Valley Kohistan, Hindu Kush-Himalayan Mountains, Pakistan , 2021, Journal of Mountain Science.

[13]  Iftikhar Ahmad Khan,et al.  Spatiotemporal Land Use Land Cover change analysis and erosion risk mapping of Azad Jammu and Kashmir, Pakistan , 2014 .

[14]  Muhammad Shafique,et al.  Spatial assessment of forest cover and land-use changes in the Hindu-Kush mountain ranges of northern Pakistan , 2016, Journal of Mountain Science.

[15]  Forest change detection in Margala hills of Pakistan , 1993 .

[16]  M. H. Zuberi,et al.  Geospatial Assessment of Carbon Stock Inventory by Vegetation Indices in Pai Forest, Sindh, Pakistan , 2021 .

[17]  Jennifer Pontius,et al.  Enhanced forest cover mapping using spectral unmixing and object-based classification of multi-temporal Landsat imagery , 2017 .

[18]  José Luis Hernández-Stefanoni,et al.  The Road to Operationalization of Effective Tropical Forest Monitoring Systems , 2021, Remote. Sens..

[19]  A. Mannan CARBON DYNAMIC SHIFTS WITH LAND USE CHANGE IN MARGALLAH HILLS NATIONAL PARK, ISLAMABAD (PAKISTAN) FROM 1990 TO 2017 , 2018 .

[20]  H. Gilani,et al.  Above Ground Biomass Estimation of Dalbergia sissoo Forest Plantation from Dual-Polarized ALOS-2 PALSAR Data , 2017 .

[21]  S. Raza,et al.  LAND-USE CHANGE ANALYSIS OF DISTRICT ABBOTTABAD , PAKISTAN : TAKING ADVANTAGE OF GIS AND REMOTE SENSING ANALYSIS , 2014 .

[22]  A. Dewan,et al.  Remote Sensing-Based Quantification of the Relationships between Land Use Land Cover Changes and Surface Temperature over the Lower Himalayan Region , 2019, Sustainability.

[23]  M. Siddiqui,et al.  Monitoring changes in riverine forests of Sindh-Pakistan using remote sensing and GIS techniques , 2004 .

[24]  Shahid Ahmad,et al.  Use of GIS and Remote Sensing Data to Understand the Impacts of Land Use/Land Cover Changes (LULCC) on Snow Leopard (Panthera uncia) Habitat in Pakistan , 2021, Sustainability.

[25]  Syed Muhammad Zubair Younis,et al.  Quantification of impact of changes in land use-land cover on hydrology in the upper Indus Basin, Pakistan , 2017, The Egyptian Journal of Remote Sensing and Space Science.

[26]  H. Gilani,et al.  Evaluation of state and community/private forests in Punjab, Pakistan using geospatial data and related techniques , 2015, Forest Ecosystems.

[27]  F. Rocca,et al.  The BIOMASS mission: Mapping global forest biomass to better understand the terrestrial carbon cycle , 2011 .

[28]  Syed Adnan,et al.  Application of Remote Sensing and GIS in Forest Cover Change in Tehsil Barawal, District Dir, Pakistan , 2015 .

[29]  S. Ahmad,et al.  Spatio-temporal ecological changes around wetland using multispectral satellite imagery in AJK, Pakistan , 2019, SN Applied Sciences.

[30]  Nasru Minallah,et al.  Performance Analysis of Object Oriented Remote Sensing Techniques for Forest Detection in Pakistan , 2016 .

[31]  Shahid Ahmad,et al.  Application of land-use/land cover changes in monitoring and projecting forest biomass carbon loss in Pakistan , 2019, Global Ecology and Conservation.

[32]  AI and the Humanities , 2020, PMLA/Publications of the Modern Language Association of America.

[33]  Jin Liu,et al.  Mapping Global Forest Aboveground Biomass with Spaceborne LiDAR, Optical Imagery, and Forest Inventory Data , 2016, Remote. Sens..

[34]  Douglas C. Morton,et al.  Classifying Forest Type in the National Forest Inventory Context with Airborne Hyperspectral and Lidar Data , 2021, Remote. Sens..

[35]  Dirk Pflugmacher,et al.  Forest Stand Species Mapping Using the Sentinel-2 Time Series , 2019, Remote. Sens..

[36]  A. Hamann,et al.  Forest conversion by the indigenous Kalasha of Pakistan: A household level analysis of socioeconomic drivers , 2019, Global Environmental Change.

[37]  Anwar Ali,et al.  Assessment of Above-Ground Biomass in Pakistan Forest Ecosystem’s Carbon Pool: A Review , 2021, Forests.

[38]  A. Hamann,et al.  Identifying local actors of deforestation and forest degradation in the Kalasha valleys of Pakistan , 2019, Forest Policy and Economics.

[39]  Luuk Fleskens,et al.  Modelling land use change across elevation gradients in district Swat, Pakistan , 2013, Regional Environmental Change.

[40]  Mette Termansen,et al.  Spatial and temporal dynamics of land use pattern in District Swat, Hindu Kush Himalayan region of Pakistan , 2011 .

[41]  J. Iqbal,et al.  ASSESSMENT OF SENTINEL-2-DERIVED VEGETATION INDICES FOR THE ESTIMATION OF ABOVE-GROUND BIOMASS/CARBON STOCK, TEMPORAL DEFORESTATION AND CARBON EMISSIONS ESTIMATION IN THE MOIST TEMPERATE FORESTS OF PAKISTAN , 2020 .

[42]  Richard A. Birdsey,et al.  Trends in management of the world's forests and impacts on carbon stocks , 2015 .

[43]  Muhammad Irfan Ahamad,et al.  Trend analysis of the decadal variations of water bodies and land use/land cover through MODIS imagery: an in-depth study from Gilgit-Baltistan, Pakistan , 2020, Water Supply.

[44]  A. Valjarević,et al.  GIS numerical and remote sensing analyses of forest changes in the Toplica region for the period of 1953–2013 , 2018 .

[45]  Attaullah Shah,et al.  Four decadal urban land degradation in Pakistan a case study of capital city islamabad during 1979–2019 , 2021 .

[46]  Filippo Bussotti,et al.  Positive biodiversity-productivity relationship predominant in global forests , 2016, Science.

[47]  A. Zeb Spatial and temporal trends of forest cover as a response to policy interventions in the district Chitral, Pakistan , 2019, Applied Geography.

[48]  Ernawati,et al.  Protective functions and ecosystem services of global forests in the past quarter-century , 2015 .

[49]  Hassan Ali,et al.  Forest cover change assessment in conflict-affected areas of northwest Pakistan: the case of swat and shangla districts , 2012, Journal of Mountain Science.

[50]  Evaluating deforestation using Landsat TM and SPOT XS data in dry sub-tropical forest of Margalla Hills, northwest of Pakistan. , 2003 .

[51]  M. Hansen,et al.  Mapping global forest canopy height through integration of GEDI and Landsat data , 2020 .

[52]  R. Batool,et al.  SPATIO-TEMPORAL ASSESSMENT OF MARGALLA HILLS FOREST BY USING LANDSAT IMAGERY FOR YEAR 2000 AND 2018 , 2018 .

[53]  S. Batool,et al.  Spatiotemporal Analysis of Land Use / Land Cover in Swat, Pakistan Using Supervised Classification in Remote Sensing: 2000 to 2015 , 2020 .

[54]  Scott J. Goetz,et al.  Characterizing global forest canopy cover distribution using spaceborne lidar , 2019, Remote Sensing of Environment.

[55]  Katharine Adeney A Step Towards Inclusive Federalism in Pakistan?: The Politics of the 18th Amendment , 2012 .

[56]  Dirk Pflugmacher,et al.  Forest cover mapping in post-Soviet Central Asia using multi-resolution remote sensing imagery , 2017, Scientific Reports.

[57]  Ebrahim Ghaderpour,et al.  Change Detection within Remotely Sensed Satellite Image Time Series via Spectral Analysis , 2020, Remote. Sens..

[58]  Waqas Qazi,et al.  A comparative study of ALOS-2 PALSAR and landsat-8 imagery for land cover classification using maximum likelihood classifier , 2018, The Egyptian Journal of Remote Sensing and Space Science.

[59]  Orhan Altan,et al.  Quantitative Analysis of Forest Fires in Southeastern Australia Using SAR Data , 2021, Remote. Sens..

[60]  Chandra P. Giri,et al.  Observation and Monitoring of Mangrove Forests Using Remote Sensing: Opportunities and Challenges , 2016, Remote. Sens..

[61]  Hong Shu,et al.  Monitoring Land Use And Land Cover Changes Using Geospatial Techniques, A Case Study Of Fateh Jang, Attock, Pakistan , 2021, GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY.

[62]  Ashfaq Ahmad,et al.  Using GIS tools to detect the land use/land cover changes during forty years in Lodhran District of Pakistan , 2019, Environmental Science and Pollution Research.

[63]  M. Lefsky A global forest canopy height map from the Moderate Resolution Imaging Spectroradiometer and the Geoscience Laser Altimeter System , 2010 .

[64]  T. Udelhoven,et al.  Land change syndromes identification in temperate forests of Hindukush Himalaya Karakorum (HHK) mountain ranges , 2020 .

[65]  Ashfaq Ahmad,et al.  Study of land cover/land use changes using RS and GIS: a case study of Multan district, Pakistan , 2019, Environmental Monitoring and Assessment.

[66]  M. Luqman,et al.  A STUDY OF FOREST LAND COVER CHANGES USING SATELLITE REMOTE SENSING IN THATTA DISTRICT PAKISTAN , 2016 .

[67]  M. Imran,et al.  Geospatially mapping carbon stock for mountainous forest classes using InVEST model and Sentinel-2 data: a case of Bagrote valley in the Karakoram range , 2021, Arabian Journal of Geosciences.

[68]  Aqil Tariq,et al.  CA-Markov Chain Analysis of Seasonal Land Surface Temperature and Land Use Land Cover Change Using Optical Multi-Temporal Satellite Data of Faisalabad, Pakistan , 2020, Remote. Sens..

[69]  M. A. Lodhi,et al.  Using remote sensing data to monitor land cover changes near Afghan refugee camps in northern Pakistan , 1998 .

[70]  H. Gilani,et al.  Evaluating mangrove conservation and sustainability through spatiotemporal (1990–2020) mangrove cover change analysis in Pakistan , 2021 .

[71]  H. Gilani,et al.  Monitoring of Urban Landscape Ecology Dynamics of Islamabad Capital Territory (ICT), Pakistan, Over Four Decades (1976–2016) , 2020, Land.

[72]  Chen Xi,et al.  Mapping Deforestation and Forest Degradation Patterns in Western Himalaya, Pakistan , 2016, Remote. Sens..

[73]  M. Herold,et al.  An assessment of data sources, data quality and changes in national forest monitoring capacities in the Global Forest Resources Assessment 2005–2020 , 2021, Environmental Research Letters.

[74]  J. Iqbal,et al.  SPATIOTEMPORAL CHANGE DETECTION IN FOREST COVER DYNAMICS ALONG LANDSLIDE SUSCEPTIBLE REGION OF KARAKORAM HIGHWAY, PAKISTAN , 2018 .

[75]  Attaullah Shah,et al.  Spatio-temporal analysis of urban sprawl in Islamabad, Pakistan during 1979–2019, using remote sensing , 2021, GeoJournal.

[76]  Qi-jing Liu,et al.  Carbon emission from deforestation, forest degradation and wood harvest in the temperate region of Hindukush Himalaya, Pakistan between 1994 and 2016 , 2018, Land Use Policy.

[77]  R. Lucas,et al.  New global forest/non-forest maps from ALOS PALSAR data (2007–2010) , 2014 .

[78]  Liding Chen,et al.  Land-Use/Land-Cover Changes and Its Contribution to Urban Heat Island: A Case Study of Islamabad, Pakistan , 2020, Sustainability.

[79]  Muhammad Zeeshan,et al.  Evaluating the impact of classification algorithms and spatial resolution on the accuracy of land cover mapping in a mountain environment in Pakistan , 2017, Arabian Journal of Geosciences.

[80]  Umer Khayyam,et al.  Loss of vegetative cover and increased land surface temperature: A case study of Islamabad, Pakistan , 2019, Journal of Cleaner Production.

[81]  M. Baig,et al.  Assessment of forest cover and carbon stock changes in sub-tropical pine forest of Azad Jammu & Kashmir (AJK), Pakistan using multi-temporal Landsat satellite data and field inventory , 2020, PloS one.

[82]  Hong Shu,et al.  Spatio-temporal analysis of forest fire events in the Margalla Hills, Islamabad, Pakistan using socio-economic and environmental variable data with machine learning methods , 2021, Journal of Forestry Research.

[83]  Jefferson Cole,et al.  Global climate change impacts on forests and markets , 2016 .

[84]  S. M. A. Jahanshahi,et al.  Detection of land cover changes in Baluchistan (shared between Iran, Pakistan, and Afghanistan) using the MODIS Land Cover Product , 2020, Arabian Journal of Geosciences.

[85]  R. Saleem,et al.  NATIONAL LEVEL ASSESSMENT OF MANGROVE FOREST COVER IN PAKISTAN , 2012 .

[86]  Neil D. Burgess,et al.  An Ecoregion-Based Approach to Protecting Half the Terrestrial Realm , 2017, Bioscience.

[87]  A. Khan,et al.  Impact assessment of land use change on surface temperature and agricultural productivity in Peshawar-Pakistan , 2019, Environmental Science and Pollution Research.

[88]  Neelam Aziz,et al.  Land use change mapping and analysis using Remote Sensing and GIS: A case study of Simly watershed, Islamabad, Pakistan , 2015 .

[89]  Muhammad Fahad Baqa,et al.  Forest fire monitoring using spatial-statistical and Geo-spatial analysis of factors determining forest fire in Margalla Hills, Islamabad, Pakistan , 2021, Geomatics, Natural Hazards and Risk.

[90]  Muhammad Shafique,et al.  Landslide susceptibility assessment using Frequency Ratio, a case study of northern Pakistan , 2019, The Egyptian Journal of Remote Sensing and Space Science.

[91]  Maria Antonia Brovelli,et al.  Monitoring Forest Change in the Amazon Using Multi-Temporal Remote Sensing Data and Machine Learning Classification on Google Earth Engine , 2020, ISPRS Int. J. Geo Inf..

[92]  S. Munawar,et al.  Reducing emissions from deforestation and forest degradation implementation in northern Pakistan , 2015 .

[93]  R. Saleem,et al.  The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol. XXXVIII-4/C7 APPLICATION OF OBJECT BASED IMAGE ANALYSIS FOR FOREST COVER ASSESSMENT OF MOIST TEMPERATE HIMALAYAN FOREST IN PAKISTAN , 2010 .

[94]  Adnan Ahmad Tahir,et al.  Analysis and simulation of land cover changes and their impacts on land surface temperature in a lower Himalayan region. , 2019, Journal of environmental management.

[95]  F. M. Danson,et al.  Satellite remote sensing of forest resources: three decades of research development , 2005 .

[96]  Yasumasa Hirata,et al.  Natural Forest Mapping in the Andes (Peru): A Comparison of the Performance of Machine-Learning Algorithms , 2018, Remote. Sens..