Journal of Jilin University(Earth Science Edition) ›› 2021, Vol. 51 ›› Issue (3): 864-876.doi: 10.13278/j.cnki.jjuese.20200161

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Distribution Characteristics of NDVI in Coastal and Inland Areas for China-Mongolia-Russia Economic Corrido

Wang Fengyan1, Wang Ziming1, Wang Mingchang1, Jiang Qigang1, Yang Tianliang2, Zhang Xinyue1, Zhao Mingyu1   

  1. 1. College of GeoExploration Science and Technology, Jilin University, Changchun 130026, China;
    2. Shanghai Institute of Geological Survey/Key Laboratory of Land Subsidence Monitoring and Prevention, Ministry of Natural Resources, Shanghai 200072, China
  • Received:2019-08-17 Online:2021-05-26 Published:2021-06-07
  • Supported by:
    Supported by the National Natural Science Foundation of China (42077242,41820104001),the Open Fund of Key Laboratory of Land Subsidence Monitoring and Prevention,Ministry of Natural Resources of China (KLLSMP201901) and the Open Fund of Key Laboratory of Urban Land Resources Monitoring and Simulation,Ministry of Natural Resources of China (KF-2020-05-024)

Abstract: In order to obtain the distribution characteristics of NDVI (normalized difference vegetation index) in coastal and inland areas of China-Mongolia-Russia economic corridor, by using MOD13Q1 NDVI dataset, MERRA2 reanalysis data and AVHRR land cover data, the variation characteristics of NDVI in different distances from the coastline, different latitudes and different time in the eastern part of the China-Mongolia-Russia Economic Corrido in recent years were studied, and the effects of temperature and precipitation on NDVI were analyzed. The results showed that from late May to September in 2015-2019, the growth state of vegetation in coastal areas was basically better than that in inland areas, and NDVI decreased significantly at about 500 km away from the coastline. The coastal (0-500 km) NDVI changed slightly over time. The NDVI time series change model of two representative vegetations (woodland and lush grassland) in coastal area has been established, and the fitting effect is better. Affected by the difference in precipitation and temperature between coastal and inland areas, with the increase of latitude, the difference of NDVI between coastal and inland areas gradually decreases during the peak period of vegetation growth (July 19-23), the NDVI in coastal areas enters saturation one month earlier than that in inland areas, and the decline period lags about 1 month; In low latitude area, these two vegetations are more sensitive to precipitation, and the correlation coefficient is up to 0.393(P<0.01), but in high latitude area, the two vegetations are more sensitive to temperature, and the correlation coefficient is up to 0.534(P<0.01).

Key words: normalized difference vegetation index(NDVI), China-Mongolia-Russia economic corrido, distribution characteristics of NDVI, temperature, precipitation

CLC Number: 

  • P237
[1] 韩鹏,田娜.中蒙俄经济走廊建设研究[J].财经理论研究,2019(3):45-51. Han Peng, Tian Na. Study on the Construction of China-Mongolia-Russia Economic Corridor[J]. Journal of Financial and Economic Theory,2019(3):45-51.
[2] 徐大海,廖智鹏."一带一路"机制建设中的中蒙俄经济走廊运作与效用评价:以国际机制理论为视角[J].内蒙古大学学报(哲学社会科学版),2019,51(3):34-41. Xu Dahai, Liao Zhipeng. Evaluation of Operation and Utility of China-Mongolia-Russia Economic Corridor in "The Belt and Road" Mechanism Construction:From the Perspective of International Regimes Theory[J]. Journal of Inner Mongolia University(Philosophy and Social Sciences),2019,51(3):34-41.
[3] 王语懿.中蒙俄经济走廊建设面临的生态环境问题和绿色开发合作[J].东北亚学刊,2019(3):69-79,148. Wang Yuyi. The Environmental Issues and Cooperation of Green Development in Building the China-Mongolia-Russia Economic Corridor[J]. Journal of Northeast Asia Studies,2019(3):69-79,148.
[4] 晁华,王当,龚强,等.东北地区冻土的时空变化特征[J].现代农业科技,2019(18):144-147,153. Chao Hua, Wang Dang, Gong Qiang, et al. Temporal and Spatial Variation of Frozen Soil in Northeast China[J]. Modern Agricultural Science and Technology, 2019(18):144-147,153.
[5] 杨永鹏,程东幸,伏慧霞.东北大兴安岭多年冻土区工程地质特征及评价[J].工程地质学报,2008,16 (5):657-662. Yang Yongpeng, Cheng Dongxing, Fu Huixia. Engineering Geological Characteristics and Evaluations of Permafrost in Daxing’an Mountains[J]. Journal of Engineering Geology, 2008,16(5):657-662.
[6] 曾旭婧,邢艳秋,单炜,等.基于Mann-Kendall法的北黑高速沿线岛状冻土区植被退化分析[J].西北林学院学报,2017,32(2):22-29. Zeng Xujing, Xing Yanqiu, Shan Wei, et al. Vegetation Degradation Analysis in the Island-Shaped Permafrost Areas Along Bei’an-Heihe Expressway Based on the Mann-Kendall Test[J]. Journal of Northwest Forestry University, 2017,32(2):22-29.
[7] 闫少锋,陆茜,张金池,等.江苏沿海地区NDVI的演变特征及其对区域气候变化的响应[J].南京林业大学学报(自然科学版),2012,36(1):43-47. Yan Shaofeng, Lu Qian, Zhang Jinchi, et al. The Spatio-Temporal Evolution Characteristics and Response of Regional Climate Change of NDVI at Jiangsu Coastal Areas[J]. Journal of Nanjing Forestry University(Natural Science Edition),2012,36(1):43-47.
[8] 王永锋,靖娟利.广西近15 a植被覆盖变化及其对气候因子的响应[J].农业现代化研究,2017,38(6):1086-1096. Wang Yongfeng, Jing Juanli. Spatial-Temporal Variations of Vegetation Cover and Its Response to Climate Factors in Guangxi over the Past 15 Years[J]. Research of Agricultural Modernization,2017,38(6):1086-1096.
[9] 王晓利,侯西勇.1982—2014年中国沿海地区归一化植被指数(NDVI)变化及其对极端气候的响应[J].地理研究,2019,38(4):807-821. Wang Xiaoli, Hou Xiyong. Variation of Normalized Difference Vegetation Index and Its Response to Extreme Climate in Coastal China During 1982-2014[J]. Geographical Research,2019,38(4):807-821.
[10] 尤南山,蒙吉军,孙慕天.2000—2015年黑河流域中上游NDVI时空变化及其与气候的关系[J].北京大学学报(自然科学版),2019,55(1):171-181. You Nanshan, Meng Jijun, Sun Mutian. Atio-Temporal Change of NDVI and Its Relationship with Climate in the Upper and Middle Reaches of Heihe River Basin from 2000 to 2015[J]. Acta Scientiarum Naturalium Universitatis Pekinensis,2019,55(1):171-181.
[11] 宜树华,王增如,谢霞,等.高寒草地植被盖度估算及其与冻土的关系[J].草业科学,2011,28(3):353-358. Yi Shuhua, Wang Zengru, Xie Xia, et al. Estimation of Fractional Vegetation Cover and Its Relation with Permafrost in the Upstream Regions of Shule River Basin[J]. Pratacultural Science,2011,28(3):353-358.
[12] 高黎明,张乐乐.青海湖流域植被盖度时空变化研究[J].地球信息科学学报,2019,21(9):1318-1329. Gao Liming, Zhang Lele. Spatiotemporal Dynamics of the Vegetation Coverage in Qinghai Lake Basin[J]. Journal of Geo-Information Science,2019,21(9):1318-1329.
[13] 郭金停,胡远满,熊在平,等.中国东北多年冻土区植被生长季NDVI时空变化及其对气候变化的响应[J].应用生态学报,2017,28(8):2413-2422. Guo Jinting, Hu Yuanman, Xiong Zaiping, et al. Spatiotemporal Variations of Growing-Season NDVI and Response to Climate Change in Permafrost Zone of Northeast China[J]. Chinese Journal of Applied Ecology, 2017,28(8):2413-2422.
[14] 郭建坤,黄国满.1998年—2003年内蒙古地区土地覆被动态变化分析[J].资源科学,2005,27(6):84-89. Guo Jiankun, Huang Guoman. Land Cover Dynamics in Inner Mongolia Between 1998 and 2003[J]. Resources Science,2005,27(6):84-89.
[15] 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. Sun Hongyu, Wang Changyao, Niu Zheng, et al. Analysis of the Vegetation Cover Change and the Relationship Between NDVI and Environmental Factors by Using NOAA Time Series Data[J]. Journal of Remote Sensing,1998,2(3):204-210.
[16] 贺金鑫,姜天,董永胜,等.基于Landsat 8的辽宁弓长岭区遥感蚀变信息提取[J].吉林大学学报(地球科学版),2019,49(3):894-902. He Jinxin, Jiang Tian, Dong Yongsheng, et al. Alteration Information Extraction Based on Remote Sensing of Landsat 8 in Gongchangling Area of Liao[J]. Journal of Jilin University (Earth Science Edition), 2019,49(3):894-902.
[17] 王明常,牛雪峰,陈圣波,等.基于DART模型的PROBA/CHRIS数据叶面积指数反演[J].吉林大学学报(地球科学版),2013,43(3):1033-1039. Wang Mingchang, Niu Xuefeng, Chen Shengbo, et al. DART Model-Based Inversion of Leaf Area Index from PROBA/CHRIS Data[J]. Journal of Jilin University (Earth Science Edition), 2013,43(3):1033-1039.
[18] 马雯思,马超,赵鹏飞,等.1982—2013年潞安矿区NDVI3g变化趋势及气候响应[J].环境科学研究,2017,30(7):1050-1058. Ma Wensi, Ma Chao, Zhao Pengfei, et al. Variation Trend and Climate Response of NDVI3g in Lu’an Mining Area from 1982 to 2013[J]. Research of Environmental Sciences,2017,30(7):1050-1058.
[19] 刘少华,严登华,史晓亮,等.中国植被NDVI与气候因子的年际变化及相关性研究[J].干旱区地理,2014,37(3):480-489. Liu Shaohua, Yan Denghua, Shi Xiaoliang, et al. Inter-Annual Variability of Vegetation NDVI, Accumulated Temperature and Precipitation and Their Correlations in China[J]. Arid Land Geography,2014,37(3):480-489.
[20] 毛德华,王宗明,宋开山,等.东北多年冻土区植被NDVI变化及其对气候变化和土地覆被变化的响应[J].中国环境科学,2011,31(2):283-292. Mao Dehua, Wang Zongming, Song Kaishan, et al. The Vegetation NDVI Variation and Its Responses to Climate Change and LUCC from 1982 to 2006 Year in Northeast Permafrost Region[J]. China Environmental Science, 2011,31(2):283-292.
[21] Suzuki R, Tanaka S, Yasunari T. Relationships Between Meridional Profiles of Satellite-Derived Vegetation Index (NDVI) and Climate over Siberia[J]. International Journal of Climatology,2000,20(9):955-967
[22] Chu Hongshuai, Venevsky S, Wu Chao, et al. NDVI-Based Vegetation Dynamics and Its Response to Climate Changes at Amur-Heilongjiang River Basin from 1982 to 2015[J]. Science of the Total Environment, 2019,650:2051-2062.
[23] 崔林丽,史军,肖风劲,等.中国东部NDVI的变化趋势及其与气候因子的相关分析[J].资源科学,2010,32(1):124-131. Cui Linli, Shi Jun, Xiao Fengjin, et al. Variation Trends in Vegetation NDVI and Its Correlation with Climatic Factors in Eastern China[J]. Resources Science,2010,32(1):124-131.
[24] 葛君,徐永飞,安雪洋,等."一带一路"背景下中蒙俄经济走廊生态敏感区分析[J].生态学报,2019,39(14):5051-5057. Ge Jun, Xu Yongfei, An Xueyang. Analysis and Research on Ecologically Sensitive Area of China-Mongolia-Russia Economic Corridor the Background of "Belt and Road"[J]. Acta Ecologica Sinica,2019,39(14):5051-5057.
[25] 裴雪原,臧淑英,那晓东.MODIS MOD13Q1植被产品介绍及快速预处理[J].哈尔滨师范大学自然科学学报,2014,30(2):65-67,77. Pei Xueyuan, Zang Shuying, Na Xiaodong. The Research on Mine Land Reclamation in Heilongjiang Province[J]. Natural Sciences Journal of Harbin Normal University,2014,30(2):65-67,77.
[26] 张晓东,朱文博,崔耀平,等.伏牛山地区森林植被动态变化对水热条件的响应[J].地理研究,2016,35(6):1029-1040. Zhang Xiaodong, Zhu Wenbo, Cui Yaoping, et al. The Response of Forest Dynamics to Hydro-Thermal Change in Funiu Mountain[J]. Geographical Research,2016,35(6):1029-1040.
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