[1]宗加权,白淑英,冯朝阳,等.基于连续时间序列NDVI数据的中国生态状况时空变化特征[J].水土保持研究,2021,28(01):132-138.
 ZONG Jiaquan,BAI Shuying,FENG Chaoyang,et al.Spatiotemporal Variation Characteristics of Ecological Status in China Based on Continuous Time Series NDVI Data[J].Research of Soil and Water Conservation,2021,28(01):132-138.
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基于连续时间序列NDVI数据的中国生态状况时空变化特征

《水土保持研究》[ISSN:1005-3409/CN:61-1272/P] 卷: 28 期数: 2021年01期 页码: 132-138 栏目: 出版日期: 2021-01-10
Title:
Spatiotemporal Variation Characteristics of Ecological Status in China Based on Continuous Time Series NDVI Data
文章编号:
1005-3409(2021)01-0132-07
作者:
宗加权1, 白淑英1, 冯朝阳2, 蒲 阳 1
(1.南京信息工程大学, 南京 210044; 2.中国环境科学研究院, 国家环境保护区域生态过程与功能评估重点实验室, 北京 100012)
Author(s):
ZONG Jiaquan1, BAI Shuying1, FENG Chaoyang2, PU Yang 1
(1.Nanjing University of Information Science & Technology, Nanjing 210044, China; 2.State Environmental Protection Key Laboratory of Regional Eco-process and Function Assessment, Chinese Research Academy of Environmental Sciences, Beijing 100012, China)
关键词:
GIMMS NDVI3g MODIS NDVI 生态系统 时空变化
Keywords:
GIMMS NDVI3g MODIS NDVI ecosystem spatiotemporal change
分类号:
TP79
文献标志码:
A
摘要:
植被是表征生态环境的重要指标,NDVI则是反映植被状况的重要指标,通过NDVI的时空变化特征可以揭示区域生态环境状况。基于1981—2015年的GIMMS NDVI3g和2000—2018年MODIS NDVI数据,利用二者相同时间段内的数据建立拟合方程,对1981—2000年GIMMS NDVI3g进行拟合修正,构建1981—2018年长时间序列的NDVI数据集,选择非耕地、非聚落地区和湿地等的NDVI,采用趋势分析方法分析中国近40年来NDVI的生态状况时空分布特征及变化规律,并统计分析不同生态系统类型的NDVI变化特征,用以反映中国近40年来生态状况的时空变化状况。结果表明:除2000年、2001年,修正后GIMMS NDVI具有与MODIS NDVI相似的年份和月份变化规律; NDVI空间分布呈现东北(0.775)、中南(0.732)、华东(0.668)高,西南(0.485)、华北(0.471)、西北(0.275)低; 近40年来NDVI整体稳定; 森林和草地生态系统状况整体呈向好趋势; 荒漠、水体和湿地、其他生态系统的生态状况变差,NDVI下降趋势分别为:-0.000 6/a,-0.001 7/a,-0.000 7/a。研究为维护中国生态环境状况、保护生物多样性和开展生态环境评价提供决策支持。
Abstract:
Vegetation is an important indicator to characterize the ecological environment, and NDVI(Normalized Difference Vegetation Index)is an important indicator to reflect the status of vegetation. The spatiotemporal characteristics of NDVI can reveal the regional ecological environment. This study used the data in the same period to establish a fitting equation based on data production of GIMMS NDVI3g from 1981—2015 and MODIS NDVI from 2000—2018. We fitted and modified the GIMMS NDVI3g from 1981—2000 to construct a long-term sequence(1981—2018)of NDVI dataset. NDVI dataset was selected from non-arable land, non-settlement areas, and wetlands. We applied the trend analysis method to analyze the spatial-temporal distribution characteristics and changing patterns of NDVI's ecological status in China in the past 40 years. It also statistically analyzed NDVI of different ecosystem types. These change features can reflect the spatiotemporal variability of China's ecological status in the past 40 years. The results showed that the revised GIMMS NDVI data had a similar variation pattern with MODIS NDVI data on a year and month time scale except for 2000 and 2001; the spatial distribution of NDVI showed that NDVI value was high in the northeast(0.775), central south(0.732), and eastern china(0.668), and was low in the southwest(0.485), north(0.471), and northwest china(0.275); in the past 40 years, NDVI overall kept stable; the status of forest and grassland ecosystems presented a positive trend, but the ecological conditions from deserts, water bodies and wetlands deteriorated; the ecological conditions of other ecosystems have deteriorated, and the downward trends of NDVI are: -0.000 6, -0.001 7, -0.000 7 per year, respectively. This study attempts to provide decision-making support for maintaining China's ecological environment, to protect biodiversity, and to conduct ecological environment assessment.

参考文献/References:

[1] 王根绪,沈永平,钱鞠,等.高寒草地植被覆盖变化对土壤水分循环影响研究[J].冰川冻土,2003,25(6):653-659.
[2] 张新时.中国植被及其地理格局:中华人民共和国植被图(1:1000000)说明书[M].北京:地质出版社,2007:3-4.
[3] Stow D A, Hope A, Mcguire D, et al. Remote sensing of vegetation and land-cover change in Arctic Tundra Ecosystems[J]. Remote Sensing of Environment, 2004,89(3):281-308.
[4] 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.
[5] 赵慧颖,乌力吉,郝文俊.气候变化对呼伦湖湿地及其周边地区生态环境演变的影响[J].生态学报,2008,26(3):1064-1071.
[6] Huete A, Justice C, Van Leeuwen W. MODIS vegetation index(MOD13)[R]. Algorithm Theoretical Basis Document, 1999.
[7] Gallo K, Ji L, Reed B, et al. Comparsion of MODIS and AVHRR 16-day normalized difference vegetation index composite data[J]. Geophysical Research Letters, 2004,31(7):1-4.
[8] Fensholt R, Proud S R. Evaluation of Earth Observation based global long term vegetation trends-Comparing GIMMS and MODIS global NDVI time series[J]. Remote Sensing of Environment, 2012,119(16):131-147.
[9] 李净,刘红兵,李龙,等.基于多源遥感数据集的近30 a西北地区植被动态变化研究[J].干旱区地理,2016,39(2):387-394.
[10] 李飞,曾源,李晓松,等.近30年中国陆地植被活动遥感监测[J].中国科学:地球科学,2014,44(8):1671-1678.
[11] 方精云,朴世龙,贺金生,等.近20年来中国植被活动在增强[J].中国科学C辑,2003,33(6):554-565.
[12] 赵玉萍,张宪洲,王景升,等.1982—2003年藏北高原草地生态系统NDVI与气候因子的相关分析[J].资源科学,2009,31(11):1988-1998.
[13] 刘可,杜灵通,侯静,等.近30年中国陆地生态系统NDVI时空变化特征[J].生态学报,2018,38(6):1885-1896.
[14] De Jong R, De Bruin S, Schaepman M E, et al. Quantitative mapping of global land degradation using Earth observations[J]. International Journal of Remote Sensing, 2011,32(21):6823-6853.
[15] 宫宁.近三十年中国湿地变化及其驱动力分析[D].山东泰安:山东农业大学,2015.
[16] 牛振国,张海英,王显威,等.1978—2008年中国湿地类型变化[J].科学通报,2012,57(16):1400-1411.
[17] Gallo K, Ji L, Reed B, et al. Multi-platform comparisons of MODIS and AVHRR normalized difference vegetation index data[J]. Remote Sensing of Environment, 2005,99(3):221-231.
[18] 赵冰茹,刘闯,王晶杰,等.锡林郭勒草地MODIS植被指数时空变化研究[J].中国草地,2004,26(1):1-8.
[19] 徐永明,张宇,白琳.基于遥感数据监测若尔盖高原植被覆盖度变化[J].高原气象,2016,35(3):643-650.
[20] 费明哲,张增信,原立峰,等. TRMM降水产品在鄱阳湖流域的精度评价[J].长江流域资源与环境,2015,24(8):1322-1330.
[21] 赵紫薇.1982—2013年青藏高原植被动态变化时序分析[J].测绘科学,2017,42(6):62-70.
[22] 郭梁, Andreas Wilkes,于海英,等.中国主要农作物产量波动影响因素分析[J].植物分类与资源学报,2013,35(4):513-521.

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备注/Memo

收稿日期:2020-02-13 修回日期:2020-03-19
资助项目:生态环境部“三定”职责项目“全国生态状况遥感调查与评估”(22110499002)
第一作者:宗加权(1996—),男,江苏如皋人,硕士研究生,研究方向为生态环境遥感。E-mail:zongjiaquan@nuist.edu.cn 通信作者:白淑英(1973—),女,内蒙古宁城县人,博士,副教授,主要研究方向为遥感和GIS技术在土地利用/覆被变化、生态环境、气象灾害等方面的应用。E-mail:baishu-ying@163.com

更新日期/Last Update: 2021-01-15