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The Institute of Geographic Sciences and Natural Resources Research (IGSNRR) was established in 1999 through the merger of the former Institute of Geography (IOG), founded in 1940, and the former Commission for the Integrated Survey of Natural Resources (CISNAR), founded in 1956.
In the past half century, IGSNRR and its predecessors have led the way in geographical research in China, making major research contributions in the rational use of natural resources; ecological and environmental protection; comprehensive land consolidation; sustainable regional development; and resource and environmental information systems.
Much of the work conducted by these institutes has had a very great national impact and has received national awards. Examples include research on the spatial differentiation of China’s natural environment; research on the comprehensive management and exploitation of land in medium- and low-yield fields in the Huang-Huai-Hai Plain; study of the uplift of the Qinghai-Tibet Plateau and its effects on the natural environment and human activity; compilation of the National Physical Atlas of China; theoretical and applied research on regional development patterns; and establishment of the Chinese Ecosystem Research Network (CERN), etc. Since 1978, IGSNRR and its predecessors have won 248 national and provincial-level science and technology awards, of which 43 were national awards.
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Resources
Displaying 1 - 5 of 12Genomic reconstruction of the history of native sheep reveals the peopling patterns of nomads and the expansion of early pastoralism in East Asia
China has a rich resource of native sheep (Ovis aries) breeds associated with historical movements of several nomadic societies. However, the history of sheep and the associated nomadic societies in ancient China remains poorly understood. Here, we studied the genomic diversity of Chinese sheep using genome-wide SNPs, mitochondrial and Y-chromosomal variations in > 1,000 modern samples.
Impact of Land Cover on Temperature and Moisture Sensitivity of Soil Organic Matter Mineralization in Subtropical Southeastern China
Understanding the temperature and moisture sensitivity of soil organic matter (SOM) mineralization variations with changes in land cover is critical for assessing soil carbon (C) storage under global change scenarios. We determined the differences in the amount of SOM mineralization and the temperature and moisture sensitivity of soils collected from six land-cover types, including an orchard, a cropland, and four forests, in subtropical southeastern China.
Remote Sensing Classification of Marsh Wetland with Different Resolution Images
Successful biological monitoring depends on judicious classification. An attempt has been made to provide an overview of important characteristics of marsh wetland. Classification was used to describe ecosystems and land cover patterns. Different spatial resolution images show different landscape characteristics. Several classification images were used to map and monitor wetland ecosystems of Honghe National Nature Reserve (HNNR) at a plant community scale. HNNR is a typical inland wetland and fresh water ecosystem in the North Temperate Zone.
Land Cover Change Characteristics of North-South Transect in Northeast Asia from 2001 to 2012
Northeast Asia is an area with relative concentrations of resources, a complex ecological environment pattern, and a marked human—land contrast relationship. This area has significance for analyzing land cover patterns and variations for regional sustainable development among the trans-boundary areas of China, Russia, and Mongolia. In this paper, the transect analysis research tool and transfer matrix method are used to capture the regional land cover change characteristics by using Moderate Resolution Imaging Spectroradiometer(MODIS) datasets recorded from 2001 to 2012.
Evaluation and Hotspots Identification of Shallow Groundwater Contamination Risk in the Lower Reaches of the Liaohe River Plain
As a prerequisite for groundwater protection and contamination control, evaluation of groundwater contamination risk was the extension of groundwater vulnerability assessment. Based on disaster theory and using shallow groundwater of the lower reaches of Liaohe River Plain as the study area, we built an evaluation index system and a contamination index model for groundwater contamination risks from the perspectives of intrinsic vulnerability, external stresses, and functional value.