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应用生态学报 ›› 2020, Vol. 31 ›› Issue (6): 1898-1908.doi: 10.13287/j.1001-9332.202006.019

• 研究报告 • 上一篇    下一篇

内蒙古植被枯黄期变化及其与气候和植被生产力的关系

萨日盖1,2, 包刚1,2*, 包玉海1,2, 胡日查3, 姜康1   

  1. 1内蒙古师范大学地理科学学院, 呼和浩特 010022;
    2内蒙古师范大学内蒙古自治区遥感与地理信息系统重点实验室, 呼和浩特 010022;
    3内蒙古自治区正镶白旗气象局, 锡林郭勒 013800
  • 收稿日期:2020-03-02 出版日期:2020-06-15 发布日期:2020-06-15
  • 通讯作者: * E-mail: baogang@imnu.edu.cn
  • 作者简介:萨日盖, 女, 1994年生, 硕士研究生。主要从事遥感与地理信息系统应用。E-mail: 943036331@qq.com
  • 基金资助:
    国家自然科学基金项目(61631011,41861021)和内蒙古自治区“草原英才”工程青年创新创业项目资助

Variation in the vegetation fade stage and its relationships with climate and vegetation productivity in Inner Mongolia, China

SA Ri-gai1,2, BAO Gang1,2*, BAO Yu-hai1,2, HU Ri-cha3, JIANG Kang1   

  1. 1College of Geographical Science, Inner Mongolia Normal University, Hohhot 010022, China;
    2Inner Mongolia Key Laboratory of Remote Sensing & Geography Information System, Inner Mongolia Normal University, Hohhot 010022, China;
    3Meteorologic Bureau of Zheng-xiangbai Banner in Inner Mongolia, Xilinguole 013800, Inner Mongolia, China
  • Received:2020-03-02 Online:2020-06-15 Published:2020-06-15
  • Contact: * E-mail: baogang@imnu.edu.cn
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (61631011, 41861021) and the Innovative Project of Young “Grasslands Talents” in Inner Mongolia Autonomous Region.

摘要: 基于2001—2018年MODIS NDVI数据,采用累计归一化植被指数(NDVI)的Logistic曲线曲率极值法,识别内蒙古植被枯黄期及其时空变化特征,并在生态区尺度上分析枯黄期对气候因子和NDVI的响应特征。结果表明: 研究期间,内蒙古植被平均枯黄期主要集中在第260~280天。森林生态区枯黄期为第270~280天,从南向北推迟;草原生态区枯黄期最早,介于第257~273天,从东北向西南逐渐推迟;荒漠生态区枯黄期为第270~283天,东北向西南呈推迟态势。2001—2018年间,3个生态区植被枯黄期均呈不显著推迟趋势。植被生产力从东北向西南逐渐降低,在时间上呈增加趋势的面积大于呈减小趋势的面积。全内蒙古和各生态区植被枯黄期受季前2~3个月降水量的正面影响较大,与季前平均温度、最高温度和最低温度均呈正相关关系。全内蒙古和各生态区,8和9月植被生产力的增加(或减少)将推迟(或提前)植被枯黄期,而6和7月植被生产力的增加(或减少)将提前(或推迟)草原和荒漠生态区植被枯黄期。

Abstract: Based on the MODIS NDVI data from 2001 to 2018, we extracted the fade stage of vegetation in Inner Mongolia and the characteristics of its temporal and spatial changes using the Logistic curve maximum curvature method of the cumulative normalized difference vegetation index (NDVI). We analyzed the responses of fade stage to climatic factors and NDVI at the ecological zone level. The results showed that the fade stage in Inner Mongolia occurred between the day of year (DOY) 260 and 280 during the study period. It was DOY 270-280 in the forest ecological zone, and was delayed from the south to north. The fade stage in the grassland ecological zone was the earliest and ranged between DOY 257 and 273, and was delayed from the northeast to southwest. The fade stage in the desert ecological zone ranged between DOY 270 and 283, which was delayed from the northeast to southwest. From 2001 to 2018, the fade stage in three ecological zones showed an insignificant delaying trend. Spatially, vegetation productivity decreased from the northeast to southwest, with a larger area of an increasing temporal trend than that of a decreasing trend. The fade stage in the entire Inner Mongolia and three ecological zones was greatly affected by precipitation during the two or three months before the fade stage and was positively correlated with the pre-season average temperature, maximum temperature, and minimum temperature, respectively. The increases/decreases in vegetation productivity in August and September delayed/advanced the fade stage in entire Inner Mongolia and three ecological zones. In contrast, the increases/decreases in vegetation productivity in June and July advanced/delayed the fade stage in the grassland and desert ecological zone.