干旱区研究

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2018 , Vol. 35 >Issue 3: 662 - 668

DOI: https://doi.org/10.13866/j.azr.2018.03.20

生物资源

石羊河中游生长季植被覆盖对气候的响应

  • 张永 ,
  • 杨自辉 ,
  • 王立 ,
  • 康颖
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  • 1.甘肃农业大学林学院,甘肃 兰州 730070;
    2.甘肃民勤荒漠草地生态系统国家野外科学观测研究站,甘肃 民勤 733300
张永(1991-),男,硕士研究生,研究方向为水土保持与荒漠化防治.E-mail:1219078315@qq.com
王立.E-mail:wangli@gsau.edu.cn

收稿日期: 2017-08-24

  修回日期: 2017-09-19

  网络出版日期: 2025-11-17

基金资助

国家林业公益性行业科研专项经费(201404306);甘肃省基础研究创新群体项目(1506RJIA155)资助

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Response of Vegetation Coverage to Climatic Factors in the Middle Reaches of the Shiyang River in Growing Season

  • ZHANG Yong ,
  • YANG Zi-hui ,
  • WANG Li ,
  • KANG Ying
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  • 1. College of Forestry,Gansu Agricultural University,Lanzhou 730070,Gansu,China;
    2. Minqin National Station for Desert Steppe Ecosystem Study,Minqin 733300,Gansu,China

Received date: 2017-08-24

  Revised date: 2017-09-19

  Online published: 2025-11-17

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摘要

利用MODIS-EVI月合成数据,计算2006—2015年石羊河中游生长季植被覆盖度,探究植被覆盖年际变化以及对气候的响应关系。利用像元二分模型计算植被覆盖度,提取研究区不同植被覆盖程度的年际变化。结果表明:10 a间,中游地区以低植被覆盖类型为主,并与同期降水的年际变化关系密切。其次,采用变化趋势分析法,计算监测时段内植被覆盖的动态变化。结果表明:中游地区生长季植被覆盖度总体上处于增加趋势,增加速率为0.041·(10a)-1;植被覆盖度显著增加区域集中于绿洲-荒漠过渡带。最后,采用相关分析法,分析了植被覆盖度与生长季平均气温和降水的相关程度。生长季植被覆盖度与同期降水的相关程度高于与生长季平均气温相关性,平均偏相关系数分别为0.14和-0.05;荒漠绿洲过渡带成为与气候因子显著相关的活跃地带。

关键词: 生长季; 植被覆盖; 动态监测; 相关性; 气候因子; 石羊河中游

本文引用格式

张永 , 杨自辉 , 王立 , 康颖 . 石羊河中游生长季植被覆盖对气候的响应[J]. 干旱区研究, 2018 , 35(3) : 662 -668 . DOI: 10.13866/j.azr.2018.03.20

Abstract

In this paper,the MODIS-EVI monthly data were used to calculate the values of vegetation coverage in the middle reaches of the Shiyang River in growing season during the period from 2006 to 2015. The interannual variation of vegetation coverage and its response to climate factors were investigated.The dimidiate pixel model (DPM) was used to calculate the values of vegetation coverage,and the interannual variation of vegetation coverage at different levels in the study area was extracted.The results showed that the low vegetation coverage was mainly distributed in the middle reaches in the 10 years,which was closely related to the interannual variation of precipitation in the same period.Secondly,the trend analysis was used to calculate the dynamic changes of vegetation coverage during the monitoring period.The results showed that the vegetation coverage in the middle reaches was increased,and its increase rate was 0.041·(10a)-1.Significant increase of vegetation coverage occurred in the oasis-desert ecotone.Finally,the correlations between vegetation coverage and temperature and precipitation in growing season were analyzed by correlation analysis.The results showed that the correlation between vegetation coverage and precipitation in growing season was higher than that between vegetation coverage and temperature,and the average partial correlation coefficients were 0.14 and -0.05 respectively.The desert-oasis ecotone was significantly correlated with climatic factors.

Key words: growing season; vegetation coverage; dynamic monitoring; correlation; climatic factor; middle reaches of the Shiyang River

参考文献

〔1〕 吕妍,王让会,蔡子颖.我国干旱半干旱地区气候变化及其影响〔J〕.干旱区资源与环境,2009,23(11):65-71.〔Lv Yan,Wang Ranghui,Cai Ziying.Climatic change and influence in arid and semi-arid area of China〔J〕.Journal of Arid Land Resources and Environment,2009,23(11):65-71.〕
〔2〕 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):1 255-1 268.〔Mu Shaojie,Li Jianlong,Chen Yizhao,et al.Spatial differences of variations of vegetation coverage in Inner Mongolia during 2001-2010〔J〕.Acta Geographica Sinica,2012,67(9):1 255-1 268.〕
〔3〕 刘哲,邱炳文,王壮壮,等.2001—2014年间黄土高原植被覆盖状态时空演变分析〔J〕.国土资源遥感,2017,29(1):192-198.〔Liu Zhe,Qiu Bingwen,Wang Zhuangzhuang,et al.Temporal and spatial variation analysis of vegetation cover in the Loess Plateau from 2001 to 2014〔J〕.Remote Sensing for Land & Resources,2017,29(1):192-198.〕
〔4〕 刘英,侯恩科,岳辉.基于MODIS的神东矿区植被动态监测与趋势分析〔J〕.国土资源遥感,2017,29(2):132-137.〔Liu Ying,Hou Enke,Yue Hui.Dynamic monitoring and trend analysis of vegetation change in Shendong mining area based on MODIS〔J〕.Remote Sensing for Land & Resources,2017,29(2):132-137.〕
〔5〕 杜英坤,燕琴,骆成凤,等.石家庄1995—2015年植被覆盖变化监测及预测〔J〕.遥感信息,2016,31(4):101-107.〔Du Yingkun,Yan Qin,Luo Chengfeng,et al.Monitoring and predicting changes of vegetation coverage in Shijiazhuang from 1995 to 2015〔J〕.Remote Sensing Information,2016,31(4):101-107.〕
〔6〕 吴志杰,何国金,王猛猛,等.南方丘陵区植被覆盖度遥感估算与时空变化研究:以福建省永定县为例〔J〕.遥感技术与应用,2016,31(6):1 201-1 208.〔Wu Zhijie,He Guojin,Wang Mengmeng,et al.Estimation of fractional vegetation cover and its spatial-temporal variation in hilly area of southeastern China:Yongding county,Fujian Province〔J〕.Remote Sensing Technology and Application,2016,31(6):1 201-1 208.〕
〔7〕 郭辉,黄粤,李向义,等.基于多尺度遥感数据的塔里木河干流地区植被覆盖动态〔J〕.中国沙漠,2016,36(5):1 472-1 480.〔Guo Hui,Huang Yue,Li Xiangyi,et al.Dynamic changes of fractional vegetation cover along the mainstream of the Tarim river〔J〕.Journal of Desert Research,2016,36(5):1 472-1 480.〕
〔8〕 滑永春,李增元,高志海.2001年以来甘肃民勤植被覆盖变化分析〔J〕.干旱区研究,2017,34(2):337-343.〔Hua Yongchun,Li Zengyuan,Gao Zhihai.Variation of vegetation coverage in Minqin county since 2001〔J〕.Arid Zone Research,2017,34(2):337-343.〕
〔9〕 汪小钦,王苗苗,王绍强,等.基于可见光波段无人机遥感的植被信息提取〔J〕.农业工程学报,2015,31(5):152-159.〔Wang Xiaoqin,Wang Miaomiao,Wang Shaoqiang,et al.Extraction of vegetation information from visible unmanned aerial vehicle images〔J〕.Transactions of the Chinese Society of Agricultural Engineering,2015,31(5):152-159.〕
〔10〕包刚,包玉海,覃志豪,等.高光谱植被覆盖度遥感估算研究〔J〕.自然资源学报,2013,28(7):1 243-1 254.〔Bao Gang,Bao Yuhai,Qin Zhihao,et al.Hyper-spectral remote sensing estimation for the vegetation cover〔J〕.Journal of Natural Resources,2013,28(7):1 243-1 254.〕
〔11〕武正丽,贾文雄,赵珍,等.2000—2012年祁连山植被覆盖变化及其与气候因子的相关性〔J〕.干旱区地理,2015,38(6):1 241-1 252.〔Wu Zhengli,Jia Wenxiong,Zhao Zhen,et al.Spatial-temporal variations of vegetation and its correlation with climatic factors in Qilian mountains from 2000 to 2012〔J〕.Arid Land Geography,2015,38(6):1 241-1 252.〕
〔12〕马磊,闫浩文,何毅,等.2001—2015年喜马拉雅南麓地区植被变化遥感监测〔J〕.干旱区地理,2017,40(2):405-414.〔Ma Lei,Yan Haowen,He Yi,et al.Vegetation changes in south Himalayas areas based on remote sensing monitoring during 2001-2015〔J〕.Arid Land Geography,2017,40(2):405-414.〕
〔13〕张艳芳,吴春玲,张宏运,等.黄河源区植被指数与干旱指数时空变化特征〔J〕.山地学报,2017,35(2):142-150.〔Zhang Yanfang,Wu Chunling,Zhang Hongyun,et al.Dependency relationship between NDVI and SPEI for spatial-temporal variations in the source areas of the Yellow river〔J〕.Mountain Research,2017,35(2):142-150.〕
〔14〕赵舒怡,宫兆宁,刘旭颖.2001—2013年华北地区植被覆盖度与干旱条件的相关分析〔J〕.地理学报,2015,70(5):717-729.〔Zhao Shuyi,Gong Zhaoning,Liu Xuying.Correlation analysis between vegetation coverage conditions in North China during 2001-2013〔J〕.Acta Geographica Sinica,2015,70(5):717-729.〕
〔15〕阿多,赵文吉,宫兆宁,等.1981—2013华北平原气候时空变化及其对植被覆盖度的影响〔J〕.生态学报,2017,37(2):576-592.〔A Do,Zhao Wenji,Gong Zhaoning,et al.Temporal analysis of climate change and its relationship with vegetation cover on the north China plain from 1981 to 2013〔J〕.Acta Ecologica Sinica,2017,37(2):576-592.〕
〔16〕韩涛,王大为.2000—2014年石羊河流域植被覆盖变化研究〔J〕.中国农学通报,2017,33(13):66-74.〔Han Tao,Wang Dawei.Change of vegetation coverage in Shiyang river basin 2000-2014〔J〕.Chinese Agricultural Science Bulletin,2017,33(13):66-74.〕
〔17〕何慧娟,卓静,王娟,等.陕西省退耕还林植被覆盖度与湿润指数的变化关系〔J〕.生态学报,2016,36(2):439-447.〔He Huijuan,Zhuo Jing,Wang Juan,et al.Relationship between fractional vegetation cover and humidity index after returning farmland to forest in Shaanxi province〔J〕.Acta Ecologica Sinica,2016,36(2):439-447.〕
〔18〕李钰溦,贾坤,魏香琴,等.中国北方地区植被覆盖度遥感估算及其变化分析〔J〕.国土资源遥感,2015,27(2):112-117.〔Li Yuwei,Jia Kun,Wei Xiangqin,et al.Fractional vegetation cover estimation in northern China and its change analysis〔J〕.Remote Sensing for Land & Resources,2015,27(2):112-117.〕
〔19〕郭继凯,吴秀芹,董贵华,等.基于MODIS/NDVI的塔里木河流域植被覆盖变化驱动因素相对作用分析〔J〕.干旱区研究,2017,34(3):621-629.〔Guo Jikai,Wu Xiuqin,Dong Guihua,et al.Vegetation coverage change and relative effects of driving factors based on MODIS/NDVI in the Tarim river basin〔J〕.Arid Zone Research,2017,34(3):621-629.〕
〔20〕赵艳华,苏德,包扬,等.阴山北麓草原生态功能区植被覆盖度遥感动态监测〔J〕.环境科学研究,2017,30(2):240-248.〔Zhao Yanhua,Su De,Bao Yang,et al.Dynamic monitoring of fractional vegetation cover of eco-function area of grassland on northen foot of Yinshan mountains through remote sensing Technology〔J〕.Research of Environmental Sciences,2017,30(2):240-248.〕
〔21〕杜灵通,田庆久.宁夏植被覆盖动态变化及与气候因子的关系〔J〕.中国沙漠,2012,32(5):1 479-1 485.〔Du Lingtong,Tian Qingjiu.Vegetation coverage variations in Ningxia during 1999-2009 and its relationships with climatic factors〔J〕.Journal of Desert Research,2012,32(5):1 479-1 485.〕
〔22〕邓兴耀,姚俊强,刘志辉.基于GIMMS NDVI的中亚干旱区植被覆盖时空变化〔J〕.干旱区研究,2017,34(1):10-19.〔Deng Xingyao,Yao Junqiang,Liu Zhihui.Spatiotemporal dynamic change of vegetation coverage in arid regions in central Asia based on GIMMS NDVI〔J〕.Arid Zone Research,2017,34(1):10-19.〕
〔23〕贾焰,张军,张仁陟.2001—2011年石羊河流域水资源生态足迹研究〔J〕.草业学报,2016,25(2):10-17.〔Jia Yan,Zhang Jun,Zhang Renzhi.Ecological footprint of water resources in the Shiyang river basin from 2001-2011〔J〕.Acta Pratacul Turae Sinica,2016,25(2):10-17.〕
〔24〕马瑞,王继和,屈建军,等.近50 a来民勤绿洲-荒漠过渡带气候变化及沙尘天气特征〔J〕.中国沙漠,2011,31(4):1 031-1 036.〔Ma Rui,Wang Jihe,Qu Jianjun,et al.Climate change and dust events in Minqin Oasis-desert transitional zone in the past 50 years〔J〕.Journal of Desert Research,2011,31(4):1 031-1 036.〕
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