International Journal of Geosciences

International Journal of Geosciences

ISSN Print: 2156-8359
ISSN Online: 2156-8367
www.scirp.org/journal/ijg
E-mail: ijg@scirp.org
"Rubber Tree Distribution Mapping in Northeast Thailand"
written by Zhe Li, Jefferson M. Fox,
published by International Journal of Geosciences, Vol.2 No.4, 2011
has been cited by the following article(s):
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[3] Rubber expansion and age-class mapping in the state of Tripura (India) 1990–2021 using multi-year and multi-sensor data
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[6] Semi-Automatic Classification of Rotating Crops in Northern Thailand by Using Temporal LANDSAT Images
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[7] Transformative Interventions Towards Socio-Economic and Environmental Sustainability of Smallholder Rubber
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[8] 海南岛西部植胶区水质状况及其评价.
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[9] Synergistic Use of Sentinel-1 and Sentinel-2 to Map Natural Forest and Acacia Plantation and Stand Ages in North-Central Vietnam
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[10] Application of Optical Remote Sensing in Rubber Plantations: A Systematic Review
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[11] Latest 30-m map of mature rubber plantations in Mainland Southeast Asia and Yunnan province of China: Spatial patterns and geographical characteristics
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[12] Biomass supply chain for power generation in southern part of Thailand
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[13] Using machine learning algorithm and landsat time series to identify establishment year of para rubber plantations: A case study in Thalang district, Phuket Island …
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[14] Sentinel-2 red-edge spectral indices (RESI) suitability for mapping rubber boom in Luang Namtha Province, northern Lao PDR
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[15] A renormalized modified normalized burn ratio (RMNBR) index for detecting mature rubber plantations with Landsat-8 OLI in Xishuangbanna, China
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[16] Mapping Plantations in Myanmar by Fusing Landsat-8, Sentinel-2 and Sentinel-1 Data along with Systematic Error Quantification
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[17] Simulating land use for protecting food crop areas in northeast Thailand using GIS and Dyna-CLUE
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[18] Is the phenology-based algorithm for mapping deciduous rubber plantations applicable in an emerging region of northern Laos?
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[19] Automatic Classification of Pararubber Trees in Thailand from LANDSAT-8 Images using Neural Networks Method
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[20] Rubber production in Continental Southeast Asia: its potentialities and limitations
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[21] Mapping rubber stand ages in Luangnamtha district (Northern Laos) using NDVI and LSWI from Landsat images
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[22] The role of physiography and land suitability in the distribution of rubber plantation in Tripura
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[23] The viability of remote sensing for extracting rubber smallholding information: A case study in Malaysia
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[24] Monitoring rubber plantation expansion using Landsat data time series and a Shapelet-based approach
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[25] The household economics of rubber intercropping during the immature period in Northeast Thailand
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[26] Expansion dynamics of deciduous rubber plantations in Xishuangbanna, China during 2000–2010
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[27] Stand age estimation of rubber (Hevea brasiliensis) plantations using an integrated pixel-and object-based tree growth model and annual Landsat time series
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[28] Identifying Establishment Year and Pre-Conversion Land Cover of Rubber Plantations on Hainan Island, China Using Landsat Data during 1987–2015
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[29] Climate change impact assessment on the potential rubber cultivating area in the Greater Mekong Subregion
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[30] An Evaluation of EO-1 Hyperion Data for Estimating Age of Rubber Plantation
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[31] COMBINATION OF ALOS PALSAR AND LANDSAT 5 IMAGERY FOR RUBBER TREE MAPPING
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[32] Extracting distribution and expansion of rubber plantations from Landsat imagery using the C5. 0 decision tree method
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[33] Hierarchical classification approach for mapping rubber tree growth using per-pixel and object-oriented classifiers with SPOT-5 imagery
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[34] Mapping rubber trees based on phenological analysis of Landsat time series datasets
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[35] A Hybrid Approach to Improve Classification Accuracy of Mapping Perennial Crops in Bảo Lâm District, Lâm Đồng Province
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[36] Monitoring and mapping of the extent of industrial forests in Malaysia
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[37] Spatiotemporal changes of global rubber production during 1961-2013
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[38] Estimating Leaf Area Index of Rubber Tree Plantation Using Worldview-2 Imagery
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[39] INFLUENCE OF SEEDLING ESTABLISHMENT TECHNIQUES AND IRRIGATION SYSTEMS ON GROWTH, WATER USE EFFICIENCY AND NUTRIENT …
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[40] Policy-driven rubber plantation and its driving factors: a case of smallholders in northeast Thailand
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[41] Advancing Ecohealth in Southeast Asia and China: Lessons from the Field Building Leadership Initiative
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[42] Pushing the Limits: The Pattern and Dynamics of Rubber Monoculture Expansion in Xishuangbanna, SW China
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[43] STAND AGE MODEL FOR MAPPING SPATIAL DISTRIBUTION OF RUBBER TREE USING REMOTELY SENSED DATA IN KEDAH, MALAYSIA
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[44] Review of remote sensing monitoring and socioeconomic and environmental impacts of rubber plantation expansion in Laos in the geoeconomic context
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[45] 地缘经济背景下的老挝橡胶林地扩张监测及其影响研究综述
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[46] Mapping tropical forests and deciduous rubber plantations in Hainan Island, China by integrating PALSAR 25-m and multi-temporal Landsat images
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[47] 1961-2013 年全球橡胶生产时空演变特征
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[48] Mapping rubber tree plantations using a Landsat-based phenological algorithm in Xishuangbanna, southwest China
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[49] Estimating Aboveground Biomass of Rubber Tree Using Remote Sensing in Phuket Province, Thailand
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[50] Mapping Deciduous Rubber Plantation Areas and Stand Ages with PALSAR and Landsat Images
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[51] Cross-border forest disturbance and the role of natural rubber in mainland Southeast Asia using annual Landsat time series
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[52] Mapping Rubber Tree Stand Age using Pléiades Satellite Imagery: A Case Study in Talang District, Phuket, Thailand
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[53] 中老缅泰交界地区土地利用变化信息挖掘与国别对比
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[54] Índices de vegetação em seringais, outras culturas arbóreas e remanescentes florestais no noroeste do Estado de São Paulo.
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[55] Information Detecting and Inter-national Comparison of Land Use Changes in the Border Region of China, Laos, Myanmar and Thailand
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[56] SPATIO-TEMPORAL ANALYSIS OF RUBBER AREA AND ITS ASSOCIATION WITH SOIL AND TOPOGRAPHY IN KANYAKUMARI DISTRICT
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[57] Initial results of the spatial distribution of rubber trees in Peninsular Malaysia using remotely sensed data for biomass estimate
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[58] Object-oriented classification of rubber plantations from Landsat satellite imagery
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[59] 中南半岛森林覆被变化研究进展
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[60] Progress of research on forest land cover change in the Indo-China Peninsula
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[61] Mapping deciduous rubber plantations through integration of PALSAR and multi-temporal Landsat imagery
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[62] RUBBER TREE EXPANSION IN FOREST RESERVE AND PADDY FIELD ACROSS THE GREATER MEKONG SUB-REGION, NORTHEAST THAILAND BASED ON REMOTELY SENSED IMAGERY
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[63] Assessing Thaichote satellite data in support of mapping rubber tree plantation in Northeast Thailand
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[64] An Application of THEOS Data to Rubber Plantation Areas in Mukdahan Province, Northeast Thailand
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