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青藏高原植被覆盖变化与降水关系
引用本文:丁明军,张镱锂,刘林山,张玮,王兆锋,摆万奇. 青藏高原植被覆盖变化与降水关系[J]. 地理学报(英文版), 2007, 17(3): 259-268. DOI: 10.1007/s11442-007-0259-7
作者姓名:丁明军  张镱锂  刘林山  张玮  王兆锋  摆万奇
作者单位:Institute of Geographic Sciences and Natural Resources Research, CAS, Beijing 100101, China
基金项目:National Basic Research Program of China, No.2005CB422006; National Natural Science Foundation o China, No.40331006; No.90202012
摘    要:The temporal and spatial changes of NDVI on the Tibetan Plateau, as well as the relationship between NDVI and precipitation, were discussed in this paper, by using 8-km resolution multi-temporal NOAA AVHRR-NDVI data from 1982 to 1999. Monthly maximum NDVI and monthly rainfall were used to analyze the seasonal changes, and annual maximum NDVI, annual effective precipitation and growing season precipitation (from April to August) were used to discuss the interannual changes. The dynamic change of NDVI and the corre- lation coefficients between NDVI and rainfall were computed for each pixel. The results are as follows: (1) The NDVI reached the peak in growing season (from July to September) on the Tibetan Plateau. In the northern and western parts of the plateau, the growing season was very short (about two or three months); but in the southern, vegetation grew almost all the year round. The correlation of monthly maximum NDVI and monthly rainfall varied in different areas. It was weak in the western, northern and southern parts, but strong in the central and eastern parts. (2) The spatial distribution of NDVI interannual dynamic change was different too. The increase areas were mainly distributed in southern Tibet montane shrub-steppe zone, western part of western Sichuan-eastern Tibet montane coniferous forest zone, western part of northern slopes of Kunlun montane desert zone and southeastern part of southern slopes of Himalaya montane evergreen broad-leaved forest zone; the decrease areas were mainly distributed in the Qaidam montane desert zone, the western and northern parts of eastern Qinghai-Qilian montane steppe zone, southern Qinghai high cold meadow steppe zone and Ngari montane desert-steppe and desert zone. The spatial distribution of correlation coeffi- cient between annual effective rainfall and annual maximum NDVI was similar to the growing season rainfall and annual maximum NDVI, and there was good relationship between NDVI and rainfall in the meadow and grassland with medium vegetation cover, and the effect of rainfall on vegetation was small in the forest and desert area.

关 键 词:西藏高原 土地覆盖 NDVI 降水 相关性
收稿时间:2007-02-10
修稿时间:2007-02-102007-03-29

The relationship between NDVI and precipitation on the Tibetan Plateau
Ding Mingjun,Zhang Yili,Liu Linshan,Zhang Wei,Wang Zhaofeng,Bai Wanqi. The relationship between NDVI and precipitation on the Tibetan Plateau[J]. Journal of Geographical Sciences, 2007, 17(3): 259-268. DOI: 10.1007/s11442-007-0259-7
Authors:Ding Mingjun  Zhang Yili  Liu Linshan  Zhang Wei  Wang Zhaofeng  Bai Wanqi
Affiliation:Institute of Geographic Sciences and Natural Resources Research, CAS, Beijing 100101, China
Abstract:The temporal and spatial changes of NDVI on the Tibetan Plateau, as well as the relationship between NDVI and precipitation, were discussed in this paper, by using 8-km resolution multi-temporal NOAA AVHRR-NDVI data from 1982 to 1999. Monthly maximum NDVI and monthly rainfall were used to analyze the seasonal changes, and annual maximum NDVI, annual effective precipitation and growing season precipitation (from April to August) were used to discuss the interannual changes. The dynamic change of NDVI and the corre- lation coefficients between NDVI and rainfall were computed for each pixel. The results are as follows: (1) The NDVI reached the peak in growing season (from July to September) on the Tibetan Plateau. In the northern and western parts of the plateau, the growing season was very short (about two or three months); but in the southern, vegetation grew almost all the year round. The correlation of monthly maximum NDVI and monthly rainfall varied in different areas. It was weak in the western, northern and southern parts, but strong in the central and eastern parts. (2) The spatial distribution of NDVI interannual dynamic change was different too. The increase areas were mainly distributed in southern Tibet montane shrub-steppe zone, western part of western Sichuan-eastern Tibet montane coniferous forest zone, western part of northern slopes of Kunlun montane desert zone and southeastern part of southern slopes of Himalaya montane evergreen broad-leaved forest zone; the decrease areas were mainly distributed in the Qaidam montane desert zone, the western and northern parts of eastern Qinghai-Qilian montane steppe zone, southern Qinghai high cold meadow steppe zone and Ngari montane desert-steppe and desert zone. The spatial distribution of correlation coeffi- cient between annual effective rainfall and annual maximum NDVI was similar to the growing season rainfall and annual maximum NDVI, and there was good relationship between NDVI and rainfall in the meadow and grassland with medium vegetation cover, and the effect of rainfall on vegetation was small in the forest and desert area.
Keywords:Tibetan Plateau   land cover change   NDVI   precipitation   correlation
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