Ecological Characteristics of Soil Moisture in Degraded Robinia Pseucdoacacia Plantation in Yellow River Delta Area

XIA Jiang-bao; XU Jing-wei; LI Chuan-rong; LU Zhao-hua

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Ecological Characteristics of Soil Moisture in Degraded Robinia Pseucdoacacia Plantation in Yellow River Delta Area

- Ecological Characteristics of Soil Moisture in Degraded Robinia Pseucdoacacia Plantation in Yellow River Delta Area
- Bulletin of Soiland Water Conservation Vol. 29, Issue 6, Pages: 75-80(2010)
- 作者机构：
  
  1. 山东省黄河三角洲生态环境重点实验室滨州学院,山东,滨州,256603
  2. 山东省林业科学研究院,山东,济南,250014
  3. 山东农业大学林学院,山东,泰安,271018
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Published：2010
- 稿件说明：
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XIA Jiang-bao, XU Jing-wei, LI Chuan-rong, et al. Ecological Characteristics of Soil Moisture in Degraded Robinia Pseucdoacacia Plantation in Yellow River Delta Area[J]. Bulletin of Soiland Water Conservation, 2010, 29(6): 75-80.
DOI：

XIA Jiang-bao, XU Jing-wei, LI Chuan-rong, et al. Ecological Characteristics of Soil Moisture in Degraded Robinia Pseucdoacacia Plantation in Yellow River Delta Area[J]. Bulletin of Soiland Water Conservation, 2010, 29(6): 75-80. DOI：

摘要

为揭示黄河三角洲人工刺槐林的退化机理及其土壤水分生态特征对退化程度的响应关系

采用野外典型抽样调查分析和室内分析测定相结合的方法

在黄河三角洲地区研究了退化刺槐林地土壤水文物理性状、土壤入渗特性及土壤贮水性能的差异。结果表明

随着刺槐林退化程度的加剧

林地土壤的容重增加

而土壤有机质、孔隙度和孔隙比等表征土壤水文物理性质的指标明显降低

0—20cm土层土壤指标状况好于20—40cm土层。轻度、中度、重度退化刺槐林地的土壤容重与未退化相比分别增加了3.68%

9.56%

14.71%;总孔隙度降低2.38%

4.86%

9.57%。Horton模型比较适合描述退化刺槐林地土壤水分入渗过程

随着退化程度的加剧

初渗率和稳渗率均表现出降低趋势。轻度、中度、重度退化类型下的稳渗速率值分别比未退化(4.02mm/min)下降了25.62%

55.47%

85.07%。刺槐林地土壤吸持、滞留贮水量、土壤涵蓄降水量、有效涵蓄量也表现出降低趋势

0—20cm土层的贮水性能均强于20—40cm土层

轻度、中度、重度退化类型下的40cm土层土壤饱和贮水量分别比未退化(195.78mm)下降了2.37%

4.85%和9.56%。

Abstract

In order to reveal the driving mechanisms of Robinia pseucdoacacia plantation and the responses of ecological characteristics of soil moisture to plantation degradation

the soil hydrologic-physical characteristics

infiltration

and water-holding capacity in degraded R.pseucdoacacia plantation in the Yellow River Delta area are studied using the methods of representative field investigation and laboratory analysis.Results showed that with the degradation of R.pseucdoacacia plantation

soil hydrologic-physical properties such as soil organic matter

soil porosity

and void ratio decreased with increased soil density and soil hydrologic-physical properties in the 0—20 cm layer was better than those in the 20—40 cm layer.Soil porosity in slightly

medially and badly degraded stands increased by 3.68%

9.56%

and 14.71%

respectively

compared with normal stand

and however

total soil porosity decreased by 2.38%

4.86%

and 9.57%

respectively.Horton infiltration model can better describe the infiltration process in the degraded R.pseucdoacacia plantation.With the degradation of R.pseucdoacacia plantation

initial infiltration rate and stable infiltration rate decreased greatly.Similarly

stable infiltration rate decreased by 25.62%

55.47%

and 85.07%

respectively

compared with normal stand(4.02 mm/min).Total water-storage capacity deceased by 2.37%

4.85%

and 9.56%

respectively

compared with normal stand(195.78 mm).Soil capillary and non-capillary porosity

water-holding capacity

total soil absorption precipitation

and effective precipitation decreased greatly.Soil water-holding capacity in the 0—20 cm layer was better than that in the 20—40 cm layer.

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