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岩溶地区不同石漠化程度下草地细根对土壤养分的贡献
引用本文:王吉高,汪依妮,陈超,李舟,王昭懿,金宝成,张乾,赵学春. 岩溶地区不同石漠化程度下草地细根对土壤养分的贡献[J]. 生态学报, 2022, 42(1): 313-321
作者姓名:王吉高  汪依妮  陈超  李舟  王昭懿  金宝成  张乾  赵学春
作者单位:贵州大学动物科学学院, 贵阳 550025;中国科学院水利部成都山地灾害与环境研究所, 中国科学院山地表生过程与生态调控重点实验室, 成都 610041;贵州省草地技术试验推广站, 贵阳 550025
基金项目:贵州省科技计划项目(黔科合支撑[2020]1Y076号,[2021]一般503);贵州省草地生态畜牧业人才基地(RCJD2018-13)
摘    要:细根分解和周转是土壤有机质和养分的重要来源。为探明不同石漠化程度天然草地细根对土壤养分的贡献,于2017年3月至次年1月,采用土柱法和分解袋法,研究不同石漠化程度下天然草地的细根生物量、分解和养分释放动态及对石漠化的响应。结果表明:3种不同石漠化程度下草地的细根生物量随季节均呈现先增加后降低的趋势,随石漠化程度的加剧均呈现逐渐降低的趋势,潜在、中度和强度石漠化草地的细根生物量分别为3355.65、2944.02 g/m~2和1806.80 g/m~2。细根分解速率呈现先快后慢的趋势,分解300天后的残留率均低于50%。细根有机碳、全氮、全磷和全钾的释放过程具有显著不同,释放模式最终均表现为"释放",潜在、中度和强度石漠化草地细根的有机碳、全氮、全磷、全钾的年归还量分别为32.46—161.08、0.24—3.88、0.08—0.32、0.15—2.78 g/m~2。随石漠化程度的加剧,细根生物量和分解率呈现逐渐降低趋势,土壤有机碳、全氮归还量呈现逐渐增加趋势。

关 键 词:石漠化草地  细根分解  养分释放  土壤养分
收稿时间:2021-01-05
修稿时间:2021-07-02

Contribution of fine root to soil nutrient in different rocky desertification grasslands in karst area
WANG Jigao,WANG Yini,CHEN Chao,LI Zhou,WANG Zhaoyi,JIN Baocheng,ZHANG Qian,ZHAO Xuechun. Contribution of fine root to soil nutrient in different rocky desertification grasslands in karst area[J]. Acta Ecologica Sinica, 2022, 42(1): 313-321
Authors:WANG Jigao  WANG Yini  CHEN Chao  LI Zhou  WANG Zhaoyi  JIN Baocheng  ZHANG Qian  ZHAO Xuechun
Affiliation:College of Animal Science, Guizhou University, Guiyang 550025, China;Key Laboratory of Mountain Surface Processes and Ecological Regulation, Institute of Mountain Hazards and Environment, Chinese Academy of Sciences, Chengdu 610041, China;Guizhou Grassland Technology Test and Extension Station, Guiyang 550025, China
Abstract:The degradation land of rocky desertification is one of the most serious problems on economic development, ecosystem restoration and reconstruction in Southwest China. Grassland is one of the main vegetation types in karst area, and its fine root is sensitive to the response of environmental conditions, which determines the growth and development of plants and soil nutrition status. Fine root also has an indicator effect on the environmental changes, and can reflect the health status of grassland ecosystem. As the intermediary connecting the aboveground and underground parts of vegetation, fine root plays an important role in the matter exchange and energy transfer between plants and soil, helps plants sequestrate carbon and provide for nutrient and water uptake into plants. Fine root decomposition and turnover contribute significantly to element cycling in grassland ecosystems. In karst area, fine root dynamics are controlled by the complex interaction of environmental and biotic factors. In order to explore the contribution of fine root to soil nutrients in three grasslands with different degrees of rocky desertification, the sequential soil coring and root bag methods were used to study the fine root biomass, dynamic of decomposition and release of nutrient and their responses to rocky desertification in the potential, medium and severe rocky desertification grasslands from March 2017 to January 2018. The results showed that the fine root biomass increased first and then decreased with the seasons in the three types of grasslands with different degrees of rocky desertification, while decreased with the intensification of rocky desertification. The fine root biomass was 3355.65 g/m2, 2944.02 g/m2 and 1806.80 g/m2 in the potential, medium and severe rocky desertification grasslands. The decomposition rate of fine root showed the "fast-slow" trend, and the residual rate of dry matter was all less than 50% after 300 days. The releasing process of fine root organic carbon, nitrogen, phosphorus and potassium was significantly different, and the pattern of releasing was "release" finally. The annual return amount of fine root organic carbon, total nitrogen, total phosphorus and total potassium was 32.46-161.08 g/m2, 0.24-3.88 g/m2, 0.08-0.32 g/m2 and 0.15-2.78 g/m2, respectively. With the intensification of rocky desertification, fine root biomass and fine root decomposition rate showed a gradually decreasing trend, while the releasing of soil organic carbon and total nitrogen showed a gradually increasing trend. Therefore, knowledge of fine root dynamics and nutrient release across a broad karst area with the ability to examine the feedbacks occurring between fine root and rocky desertification is critical to our understanding of the nutrient cycle and for protecting degraded grassland and restoring vegetation.
Keywords:rocky desertification grassland  fine root decomposition  nutrient release  soil nutrient
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