Add to ORKGSatellite data from the advanced very high resolution radiometer (AVHRR) instrument were used to produce a general land cover distribution of temperate Asia (referred to hence as Central Asia) from 1982, starting with the NOAA-7 satellite, and continuing through 1991, ending with the NOAA-11 satellite. Emphasis was placed upon delineating the and and semi-arid zones of Central Asia (largely Mongolia and adjacent areas), mapping broad categories of aggregated land cover, and upon studying photosynthetic capacity increases in Central Asia from 1982 to 1991
Purpose – This paper aims to demonstrate the importance of taking into account precipitation and th...
Abstract: Through the application and use of geospatial data, this study aimed to detect and charact...
Human activity and climate variability has always changed the Earth’s surface and both will mainly c...
Recently, NOAA developed the AVHRR-based Vegetation Condition Index (VCI) for drought monitoring. Th...
To understand the land surface changes that Central Asia experienced between 2001 and 2013, we appli...
To understand the land surface changes that Central Asia experienced between 2001 and 2013, we appli...
Recently, NOAA developed the AVHRR-based Vegetation Condition Index (VCI) for drought monitoring. Th...
Past changes in gross primary productivity (GPP) were assessed using historical satellite observatio...
The response of vegetation growth to current climate change in Inner Asia (35-55 degrees N, 45-120 d...
During the last few decades Central Asia has experienced widespread changes in land cover and land u...
This study evaluates the performances of three global satellite datasets (Advanced Very High Resolut...
In order to examine surface changes over East Asia, in response to the climate change, mean NDVI dat...
The terrestrial biosphere was largely carbon neutral during the 1980s, but became a much stronger ne...
Currently there is a lack of quantitative information regarding the driving factors of vegetation dy...
Central Asia experienced substantial institutional and socioeconomic changes during the last few dec...
Purpose – This paper aims to demonstrate the importance of taking into account precipitation and th...
Abstract: Through the application and use of geospatial data, this study aimed to detect and charact...
Human activity and climate variability has always changed the Earth’s surface and both will mainly c...
Recently, NOAA developed the AVHRR-based Vegetation Condition Index (VCI) for drought monitoring. Th...
To understand the land surface changes that Central Asia experienced between 2001 and 2013, we appli...
To understand the land surface changes that Central Asia experienced between 2001 and 2013, we appli...
Recently, NOAA developed the AVHRR-based Vegetation Condition Index (VCI) for drought monitoring. Th...
Past changes in gross primary productivity (GPP) were assessed using historical satellite observatio...
The response of vegetation growth to current climate change in Inner Asia (35-55 degrees N, 45-120 d...
During the last few decades Central Asia has experienced widespread changes in land cover and land u...
This study evaluates the performances of three global satellite datasets (Advanced Very High Resolut...
In order to examine surface changes over East Asia, in response to the climate change, mean NDVI dat...
The terrestrial biosphere was largely carbon neutral during the 1980s, but became a much stronger ne...
Currently there is a lack of quantitative information regarding the driving factors of vegetation dy...
Central Asia experienced substantial institutional and socioeconomic changes during the last few dec...
Purpose – This paper aims to demonstrate the importance of taking into account precipitation and th...
Abstract: Through the application and use of geospatial data, this study aimed to detect and charact...
Human activity and climate variability has always changed the Earth’s surface and both will mainly c...