[1]潘学鹏,吴喜芳,沈彦俊,等.三江并流河源区植被覆盖度对气候要素的响应[J].山地学报,2015,(02):218.
 PAN Xuepeng,WU Xifang,et al.Responses of Vegetation Coverage Changes to Climate Factors in the Source Regions of Three Parallel Rivers[J].Mountain Research,2015,(02):218.
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三江并流河源区植被覆盖度对气候要素的响应()
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《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:
2015年02期
页码:
218
栏目:
山地研究
出版日期:
2015-04-01

文章信息/Info

Title:
Responses of Vegetation Coverage Changes to Climate Factors in the Source Regions of Three Parallel Rivers
作者:
潘学鹏;吴喜芳;沈彦俊;刘峰贵;张存桂;
青海师范大学生命与地理科学学院;中国科学院遗传与发育生物学研究所农业资源研究中心;河北师范大学资源与环境科学学院;
Author(s):
PAN Xuepeng WU Xifang SHEN Yanjun LIU Fenggui ZHANG Cungui
1.Clloege of Biologic Geographic Sciences, Qinghai Normal University, Xining 810008,China; 2.Center for Agricultural Resources Research, Institute of Genetics Developmental Biology, Chinese Academy of Sciences, Shijiazhuang 050022, China; 3.College of Resources and Environmental Sciences,Hebei Normal University, Shijiazhuang 050024,China
关键词:
三江并流河源区植被覆盖度气温降水相关性
Keywords:
the source regions of Three Parallel Rivers vegetation coverage precipitation temperature correlation
分类号:
Q142,Q948.112
文献标志码:
A
摘要:
基于AVHRR/NDVI和MODIS/NDVI遥感数据,通过拟合两种数据源延长NDVI时间序列来反演了三江并流河源区1982—2012年植被覆盖度空间格局的变化规律,并结合气温和降水量数据,从不同时空尺度上分析了植被覆盖变化趋势及其对气候变化的响应。结果表明:1.研究区植被覆盖度整体上随着热量梯度呈南高北低、东高西低的态势分布,且海拔在4 000 m以下的区域植被覆盖度较高,平均值在0.68~0.75;2.研究期间,植被覆盖度以0.02/(10 a)的变化率呈增加趋势,海拔在4 600 m左右和低覆盖度的区域植被增加趋势显著,显著增加区域面积占研究区总面积的36.4%,主要分布于沱沱河流域、怒...
Abstract:
The spatial pattern and trend of vegetation coverage during the period 1982—2012 in the source regions where three rivers flowing parallelly (Three Parallel Rivers region) are obtained and discussed based on the normalized difference vegetation index (NDVI) data from Advanced Very High Resolution Radiometer (AVHRR) and Moderate Resolution Imaging Spectroradiometer (MODIS). Combined with the temperature and precipitation data, the responses of vegetation cover to the climate change are also presented. The results showed that: 1) The spatial distribution of vegetation coverage were higher in the south and east, and lower in the north and west along with the spatial pattern of heat in Three Parallel Rivers region, and it was higher below the altitude of 4 000 m in the region. 2) During the study period, the vegetation coverage presented an increasing trend with a rate of 0.002/(10 a) in Three Parallel Rivers region. Areas with altitude about 4 600 m or low vegetation coverage showed obvious increase trend. The area with significant increase trend occupies 36.4% of the study area and mainly distributes in Tuotuo River basin, Nujiang basin (except the area of headwater) and the southeast of the study area. 3) Vegetation coverage in the study area has a more significant correlation with temperature compared with precipitation. In particular, vegetation coverage on plateau showed a significantly positive correlation with temperature, which exhibited a strong thermal limitation.

参考文献/References:

[1]Walker B H, Steffen W L. IGBP Science No.1: A synthesis of GCTE and related research[R]. Stockholm: IGBP, 1997:1-24
[2] Sun Hongyu, Wang Changyao, Niu Zheng, et al. Analysis of vegetation cover change and the relationship between NDVI and environmental factors by using NOAA time series data [J]. Journal of Remote Sensing, 1998, 2(2):204-210 [孙红雨, 王长耀, 牛铮, 等. 中国地表植被覆盖变化及其与气候因子关系——基于NOAA时间序列数据分析 [J]. 遥感学报,1998,2(3):204-210]
[3] Steffen W. The IGBP terrestrial transects: Tools for resource management and global change research at the regional scale [R]. Towards Sustainable Management in the Kalahari Region: Some Essential Background and Critical Issues, 2000:1-12
[4] Ringrose S, Matheson W, Wolski P, et al. Vegetation cover trends along the Botswana Kalahari transect [J]. Journal of Arid Environments, 2003, 54(2):297-317
[5] Pan Baotian, Li Jijun. Qinghai-Tibetan Plateau : A driver and amplifier of the glabal climatic change Ⅲ. The effects of the uplife of Qinghai-Tibetan Plateau on climatic change [J]. Journal of Lanzhou University:Natural Sciences, 1996, 32(1):108-115 [潘保田, 李吉均. 青藏高原:全球气候变化的驱动机与放大器:Ⅲ. 青藏高原隆起对气候变化的影响 [J]. 兰州大学学报:自然科学版, 1996, 32(1) : 108-115]
[6] Immerzeel W W, Stoorvogel J, Antle J. Can payments for ecosystem services secure the water tower of Tibet? [J]. Agricultural Systems, 2008, 96(1):52-63
[7] Immerzeel W W, Van Beek L P, Bierkens M F. Climate change will affect the Asian water towers [J] . Science, 2010, 328(5984):1382-1385
[8] Nicholson S E, Davenport M, Malo A R. A comparison of the vegetation response to rainfall in the Sahel and East Africa, using normalized difference vegetation index from NOAA AVHRR [J] . Climatic Change, 1990, 17(2-3):209-241
[9] Zhao Maosheng, Fu Congbin Yan Xiaodong, et al. Study on the relationship between different ecosystems and climate in China using NOAA/AVHRR data[J]. Acta Geographica Sinica, 2001, 56(3):287-96 [赵茂盛, 符淙斌, 延晓冬, 等. 应用遥感数据研究中国植被生态系统与气候的关系 [J] . 地理学报, 2001, 56(3):287-296]
[10] Piao Shilong, Fang Jingyun. Seasonal change in vegetation activity in response to climate change in China between 1982 and 1999 [J] . Acta Geographica Sinica, 2003, 58(1):119-25 [朴世龙, 方精云. 1982-1999 年我国陆地植被活动对气候变化响应的季节差异 [J] . 地理学报, 2003, 58(1):119-125]
[11] Anyamba A, Tucker C. Analysis of Sahelian vegetation dynamics using NOAA-AVHRR NDVI data from 1981-2003 [J] . Journal of Arid Environments, 2005, 63(3):596-614
[12] Ma Mingguo,Wang Jian,Wang Xuemei.Advance in the interannual variability vegetation and its relation to climate based on remote sensing [J]. Journal of Remote Sensing,2006, 10(3):421-431 [马明国, 王建, 王雪梅. 基于遥感的植被年际变化及其与气候关系研究进展 [J]. 遥感学报,2006,10(3):421-431]
[13] Ding Mingjun, Zhang Yili, Liu Linshan, et al. Seasonal time lag response of NDVI to temperature and precipitation change and its spatial characteristics in Tibetan Plateau[J]. Progress in Geography, 2010, 10(4):507-512 [丁明军, 张镱锂, 刘林山, 等. 青藏高原植被覆盖对水热条件年内变化的响应及其空间特征 [J]. 地理科学进展, 2010, 29(4):507-512]
[14] Mu Shaojie, Li Jianlong, Chen Yizhao, et al. Spatial differences of variations of vegetation coverage in the Inner Mongolia during 2001—2010 [J]. Acta Geographica Sinica, 2012, 67(9):1255-1238 [穆少杰, 李建龙, 陈奕兆, 等. 2001—2010年内蒙古植被覆盖度时空变化特征 [J]. 地理学报, 2012, 67(9):1255-1268]
[15] Liu Junhui, Gao Jixi, Wang Wenjie. Variations of vegetation coverage and its relations to global climate changes on the tibetan plateau during 1981—2005 [J]. Mountain Research, 2013, 31(2):234-242[刘军会, 高吉喜, 王文杰. 青藏高原植被覆盖变化及其与气候变化的关系 [J]. 山地学报, 2013, 31(2):234-242]
[16] Hou Peng, Wang Qiao, Cao Guangzheng, et al. Sensitivity analyses of different vegetations responding to climate change in inland river basin of China [J]. Journal of Geographical Sciences, 2012, 22(3):387-406
[17] Wu Yun, Zeng Yuan, Zhao Yan, et al. Monitoring and dynamic analysis of fractional vegetation cover in the hai river basin based on MODIS data [J] . Resources Science, 2010, 32(7):1417-1424 [吴云, 曾源, 赵炎,等. 基于MODIS数据的海河流域植被覆盖度估算及动态变化分析 [J] .2010, 32(7):1417-1424]
[18] Chen Fujun, Shen Yanjun, Hu Qiaoli, et al. Responses of NDVI to climate change in the Hai Basin [J]. Journal Remote Sensing, 2011, 15(2):401-414 [陈福军, 沈彦俊, 胡乔利,等. 海河流域 NDVI 对气候变化的响应研究[J]. 遥感学报, 2011, 15(2):401-414]
[19] Li Yafei, Liu Gaohuan. Characteristics of vegetation cover changes in Lantsang basin based on MODIS vegetation index products (MOD13) [J]. Resources Science, 2012, 34(7):1214-1221 [李亚飞, 刘高焕. 澜沧江流域植被覆盖变化特征及其与气候因子的关系 [J]. 资源学报, 2012, 34(7) :1214-1221]
[20] Li Chongwei, Liu Lijuan, Sun Pengsen, et al. A study on the relationship between vegetation pattern and environment in the upstream of Minjiang river [J]. Journal of Beijing Normal Universty:Natural Science, 2005, 41(4): 404-409[李崇巍, 刘丽娟, 孙鹏森,等. 岷江上游植被格局与环境关系的研究 [J]. 北京师范大学学报: 自然科学版, 2005, 41(4):404-409]
[21] Tang Hongyu, Xiao Fengjing, Zhang Qiang, et al. Vegetation change and its response to climate change in Three-River Source Region [J] . Advances in Climate Change Research, 2006, 2(4):177-180 [唐红玉, 肖风劲, 张强, 等. 三江源区植被变化及其对气候变化的响应 [J] . 气候变化研究进展, 2006, 2(4) :177-180]
[22] Zhend Du, Zhang Rongzu, Yang Qinye. On the natural zonation in the Qinghai-Xizang Plateau [J] . Acta Geographica Sinica, 1979, 34(1):1-11 [郑度, 张荣祖, 杨勤业. 试论青藏高原的自然地带 [J] . 地理学报, 1979, 34(1):1-11]
[23] Zheng Du. A study on the physicogeographical regionalsystem ofthe Tibetan Plateau.Science in China:Ser.D,1999, 26(4):336-341 [郑度. 青藏高原自然地域系统研究 [J]. 中国科学: D 辑, 1996, 26(4):336-341]
[24] Xiong Yi, Li Xiuyun, Wang Yuzhi, et al. Hydrologic regionalization of the Hengduan Mountaious Region [J]. Mountain Research,1989, 7(1):29-37 [熊怡, 李秀云, 王玉枝,等. 横断山区水文区划 [J]. 山地学报, 1989, 7(1):29-37]
[25] Holben B N. Characteristics of maximumvalue composite images from temporal AVHRR data [J]. International Journal of Remote Sensing, 1986, 7(11):1417-1434
[26] Wang Min, Zhou Caiping, Wu Liang, et al. Aridity pattern of Tibetan Plateau and its influential factorsin 2001-2010 [J]. Advances in Climate Change Research, 2012, 8(5):320-326 [王敏, 周才平, 吴良, 等. 2001-2010 年青藏高原干湿格局及其影响因素分析 [J]. 气候变化研究进展, 2012, 8(5):320-326]
[27] Gitelson A A, Kaufman Y J. MODIS NDVI optimization to fit the AVHRR data series—Spectral considerations [J]. Remote Sensing of Environment, 1998, 66(3):343-350
[28] Brown M E, Pinzón J E, Didan K, et al. Evaluation of the consistency of longterm NDVI time series derived from AVHRR, SPOT-Vegetation, SeaWiFS, MODIS, and Landsat ETM+ sensors [J]. Geoscience and Remote Sensing, IEEE Transactions on, 2006, 44(7) :1787-1793
[29] Yan Xiaoyu, Dong Wenjie, He Yong. analysis of the suitability from different remote sensing data on the monitoring of vegetation change in Ruoergai Marsh [J]. Remote Sensing Technology and Application, 2008, 23(3):300-4 [严晓瑜, 董文杰, 何勇. 不同传感器数据在若尔盖湿地植被变化监测应用中的适宜性分析 [J]. 遥感技术与应用, 2008, 23(3):300-304]
[30] Hao Chengyuan, Ma Chunyan, Zhu Zongze. Comparison of vegetation indices from AVHRR and MODIS in seasonal information [J]. Geography and GeoInformation Science 2009, 25(6):30-33 [郝成元, 马春艳, 朱宗泽. 基于NOAA/AVHRR和Terra/MODIS数据的植被指数季节信息比较 [J]. 地理与地理信息科学, 2009, 25(6): 30-33]
[31] Chen Yanli, Longbuju, Pan Xuebiao, et al. Differences between MODIS NDVI and AVHRR NDVI in monitoring grasslands change [J]. Journal of Remote Sensing, 2011, 15(4):831-845 [陈燕丽, 龙步菊, 潘学标,等. MODIS NDVI 和 AVHRR NDVI 对草原植被变化监测差异 [J]. 遥感学报, 2011, 15(4):831-45]
[32] Lin Zhonghui, Mo Xinggou, Li Hongxuan, Comparison of three spatial interpolation methods for climate variables in China [J]. Acta Geographica Sinica, 2002, 57(1):47-56 [林忠辉, 莫兴国, 李宏轩. 中国陆地区域气象要素空间插值 [J]. 地理学报, 2002, 57(1):47-56]
[33] Gutman G., Ignatov A. The derivation of the green vegetation fraction from NOAA/AVHRR data for use in numerical weather prediction models [J]. International Journal of Remote Sensing, 1998, 19(8):1533-1543
[34] Leprieur C, Verstraete M M, Pinty B. Evaluation of the performance of various vegetation indices to retrieve vegetation cover from AVHRR data [J]. Remote Sensing Reviews, 1994, 10(4) : 265-284
[35] Chen Jin, Chen Yunhao, He Chunyang, et al. Sub_pixel Model for Vegetation Fraction Estimation based on Land Cover Classification [J]. Journal of Remote Sensing, 2001, 5(6):416-422 [陈晋, 陈云浩, 何春阳,等. 基于土地覆盖分类的植被覆盖率估算亚像元模型与应用 [J]. 遥感学报, 2001, 5(6):416-422]
[36] Carlson T N, Ripley D A. On the relation between NDVI, fractional vegetation cover, and leaf area index [J]. Remote Sensing of Environment, 1997, 62(3):241-252
[37] Rundquist B C. The influence of canopy green vegetation fraction on spectral measurements over native tallgrass prairie [J] . Remote Sensing of Environment, 2002, 81(1):129-135
[38] Wei fengying. The technology of modern climatic statistics diagnosis and prediction [M] . Beijing: China Meteorological Press, 2007:5-1, 69-72 [魏凤英. 现代气候统计诊断与预测技术 [M] . 北京:气象出版社, 2007:5-1, 69-72]
[39] Li Miaomiao, Wu Bingfang, Yan Changzhen et al. Estimation of vegetation fraction in the upper basin of Miyun reservoir by remote sensing [J]. Resource Science, 2004, 26(4):153-159 [李苗苗, 吴炳方, 颜长珍, et al. 密云水库上游植被覆盖度的遥感估算 [J]. 资源科学, 2004, 26(4):153-159]
[40] Cai Tijiu, Ju Cunyong, Yao Yuefeng. Quantitative estimation of vegetation coverage in Mu Us sandy land based on RS and GIS [J]. Chinese Journal of Applied Ecology, 2005, 16(12):2301-2305 [蔡体久, 琚存勇, 姚月峰. 基于RS和GIS的毛乌素沙地植被盖度定量估测 [J]. 应用生态学报, 2005, 16(12):2301-2305]
[41] Gao Qingzhu, Li Yue, Lin Erda, et al. Temporal and spatial distribution of grassland degradtion in Northern Tibet [J]. Acta Geographica Sinica, 2005,60(6):965-973 [高清竹, 李玉娥, 林而达. 藏北地区草地退化的时空分布特征 [J]. 地理学报, 2005, 60(6):965-973]
[42] Yang Jianping, Ding Yongjian, Chen Rensheng. NDVI reflection of alpine vegetation changes in the sources of the Yangtze and Yellow Rivers [J]. Acta Geographica Sinica, 2005,60(3):467-478 [杨建平, 丁永建, 陈仁升. 长江黄河源区高寒植被变化的NDVI记录[J]. 地理学报, 2005, 60(3):467-478]
[43] Ding M, Zhang Y, Liu L, et al. The relationship between NDVI and precipitation on the Tibetan Plateau [J]. Journal of Geographical Sciences, 2007, 17(3):259-268
[44] Zhang Yili,Ding Mingjun,Zhang Wei, et al. Spatial characteristic of vegetation change in the source regions of the Yangtze River, Yellow River and Lancang River in China [J]. geographical reseach, 2007, 26(3) : 500-507 [张镱锂, 丁明军, 张玮, 等. 三江源地区植被指数下降趋势的空间特征及其地理背景 [J]. 地理研究, 2007, 26(3):500-507]
[45] Liu Jiyuan, Xu Xinliang, Shao Quanqin, The spatial and temporal characteristics of grassland degradation in the Three-River Headwaters Region in Qinghai Province [J]. Acta Geographica Sinica, 2008, 63(4):364-376 [刘纪远, 徐新良, 邵全琴. 近30年来青海三江源地区草地退化的时空特征 [J]. 地理学报, 2008, 63(4):364-376]
[46] Mao Fei, Zhang Yanghong, hou Yingyu. Dynamic assessment of grassland degradation in Naqu of northern Tibet [J]. Chinese Journal of Applied Ecology, 2008, 19(2):278-284 [毛飞, 张艳红, 侯英雨, 等. 藏北那曲地区草地退化动态评价 [J]. 应用生态学报, 2008, 19(2):278-284]
[47] Zhong L, Ma Y, Salama M S, et al. Assessment of vegetation dynamics and their response to variations in precipitation and temperature in the Tibetan Plateau [J] . Climatic Change, 2010, 103(3-4): 519-535
[48] Ding Mingjun, Zhang Yili, Liu Linshan, et al. Temporal and spatial distribution of grassland coverage change in Tibetan Plateau since 1982 [J]. Journal of Natural Resources, 2010, 25(12):2114-2122 [丁明军, 张镱锂, 刘林山, 等. 1982—2009年青藏高原草地覆盖度时空变化特征 [J]. 自然资源学报, 2010, 25(12):2114-2122]

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备注/Memo

备注/Memo:
收稿日期(Received date):2014-06-29;修回日期(Accepted):2014-11-15。
基金项目(Foundation item):国家自然科学
基金项目(41271123)。[The National Science Foundation of China(41271123).]
作者简介(Biography):潘学鹏(1990-),男,海南省万宁市人,硕士研究生,主要研究方向为气候变化与生态水文。[Pan Xuepeng (1990-), male, born in Wanning, Hainan province, master candidate, major in climate change and Ecohydrological.] Phone:13976462220, E-mail:panxuepeng0610@sina.cn *
通信作者(Corresponding author):沈彦俊(1971-),男,河北省张家口市人,博士,研究员,主要从事生态水文过程的研究。[Shen Yanjun (1971-), male, born in Zhangjiakou, Hebei province, doctor, professor, major in Ecohydrological process.] E-mail: yjshen@sjziam.ac.cn
更新日期/Last Update: 1900-01-01