收藏设为首页 广告服务联系我们在线留言

干旱区地理 ›› 2024, Vol. 47 ›› Issue (4): 648-661.doi: 10.12118/j.issn.1000-6060.2023.276

• 生物与土壤 • 上一篇    下一篇

基于连续观测数据的毛乌素沙地生长季土壤水分动态及其对降雨的响应

成龙1,2(), 吴波1,2(), 贾晓红1,2, 殷婕1,2, 费兵强1,2, 张令光1,2, 岳艳鹏1,2, 孙迎涛1,2, 李佳1,2   

  1. 1.中国林业科学研究院生态保护与修复研究所,北京 100091
    2.荒漠生态系统与全球变化国家林业和草原局重点实验室,北京 100091
  • 收稿日期:2023-06-12 修回日期:2023-12-13 出版日期:2024-04-25 发布日期:2024-05-17
  • 通讯作者: 吴波(1968-),男,博士,研究员,主要从事景观生态学研究. E-mail: wubo@caf.ac.cn
  • 作者简介:成龙(1993-),男,博士,主要从事干旱半干旱区生态水文学研究研究. E-mail: longcheng1993@yeah.net
  • 基金资助:
    科技兴蒙行动重点专项(KJXM-EEDS-2020006)

Dynamic change of soil moisture and its response to rainfall during the growing season in Mu Us Sandy Land based on continuous observation data

CHENG Long1,2(), WU Bo1,2(), JIA Xiaohong1,2, YIN Jie1,2, FEI Bingqiang1,2, ZHANG Lingguang1,2, YUE Yanpeng1,2, SUN Yingtao1,2, LI Jia1,2   

  1. 1. Institute of Ecological Conservation and Restoration, Chinese Academy of Forestry, Beijing 100091, Beijing, China
    2. Key Laboratory of State Forestry and Grassland Administration on Desert Ecosystem and Global Change, Beijing 100091, Beijing, China
  • Received:2023-06-12 Revised:2023-12-13 Published:2024-04-25 Online:2024-05-17

摘要:

水分是制约半干旱区沙地植物生长发育和生态建设的关键非生物因子。于2008—2010年和2018—2021年生长季(4—10月)对毛乌素沙地流动、半固定和固定沙地0~100 cm深土壤水分进行了连续观测,系统分析了不同固定程度沙地土壤水分动态变化规律及其对降雨的响应。结果表明:(1) 受降雨季节变化的影响,流动、半固定和固定沙地不同深度土壤水分季节变化一般呈∽型或双峰型,10 cm和30 cm深土壤水分含量波动较大,60 cm和100 cm深土壤水分含量波动较小。(2) 3种固定程度沙地生长季土壤水分动态差异明显,总体来看,流动沙地土壤水分状况最好,且土壤水分含量变化相对平缓,固定沙地土壤水分状况最差,且土壤水分含量变化最为剧烈,半固定沙地居于二者之间;固定沙地10~30 cm深土壤水分状况好于半固定沙地和流动沙地,30~100 cm深土壤水分状况则相反。(3) 降雨格局是形成土壤水分时空格局的主要原因,随降雨事件降雨量增加,降雨的入渗深度逐渐增加;但是固定沙地土壤水分的深层补充需较强的降雨和较长的时间。生长季降雨事件以小降雨事件为主,表层土壤水分波动更剧烈。生长季初期降雨较少且以小降雨事件为主,10 cm以下土壤水分补充困难,土壤水分状况较差。流动沙地和半固定沙地10~30 cm深土壤水分状况好于30~100 cm深土壤,而固定沙地土壤水分状况则相反。研究结果可为半干旱区沙化土地近自然植被恢复与固沙植被稳定性维持提供科学依据。

关键词: 毛乌素沙地, 生长季, 土壤水分时空格局, 降雨事件, 降雨

Abstract:

Soil moisture is a crucial abiotic factor that limits the growth and development of plants and the ecological construction of sandy areas in semi-arid regions. In this study, continuous observations were performed on soil moisture at depths of 0-100 cm in shifting, semifixed, and fixed sandy land in the Mu Us Sandy Land during the growing seasons from 2008 to 2010 and from 2018 to 2021 (April to October). The dynamic changes in soil moisture and its response to rainfall were systematically analyzed. The results are as follows: (1) Affected by seasonal changes in rainfall, the seasonal variation of soil moisture in shifting, semifixed, and fixed sandy land exhibited a generally “∽”-shaped or double-peaked pattern. The soil moisture in the 10- and 30-cm depth ranges exhibited greater fluctuations, whereas that in the 60- and 100-cm depth ranges showed smaller fluctuations. (2) The dynamic differences in soil moisture during the growing season were significant among the three degrees of fixation. Overall, the shifting sandy land had the best soil moisture status with smooth changes, whereas the fixed sandy land had the worst soil moisture status with the most drastic changes. The semifixed sandy land fell between the two. The soil moisture in the 10-30 cm depth range of the fixed sandy land was better than that of the semifixed and shifting sandy lands, whereas the situation was opposite at depths of 30-100 cm. (3) The pattern of rainfall was the main factor determining the spatiotemporal distribution of soil moisture. As rainfall events occur and the amount of rain increases, the depth of rainwater infiltration gradually increases. However, deep replenishment of soil moisture in fixed sandy land requires higher rainfall amounts and longer periods. During the growing season, small rainfall events were dominant, resulting in greater fluctuations in soil moisture in the surface layers. At the beginning of the growing season, soil moisture below 10 cm was not replenished because of low rainfall and small rainfall events, resulting in poor soil moisture conditions. The shifting and semifixed sandy lands had better soil moisture at depths of 10-30 cm than at depths of 30-100 cm, whereas the opposite was true for the fixed sandy land. These results provide a scientific basis for the restoration of near-natural vegetation and the stable maintenance of sand-fixing vegetation on sandy decertified land in semi-arid regions.

Key words: Mu Us Sandy Land, growing season, spatiotemporal distribution of soil moisture, rainfall event, rainfall