Soil Hydrological Effects of Typical Forest Types in Upper Reaches of Liaohe River

SONG Xiaoshuai; KANG Fengfeng; HAN Hairong; YU Xiaowen; HU Jingdong; ZHAO Weihong; GAO Jing; ZHAO Jinlong; HAN Shuwen

doi:10.13961/j.cnki.stbctb.2015.02.019

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Soil Hydrological Effects of Typical Forest Types in Upper Reaches of Liaohe River

- Soil Hydrological Effects of Typical Forest Types in Upper Reaches of Liaohe River
- Bulletin of Soiland Water Conservation Vol. 35, Issue 2, Pages: 101-105(2015)
- 作者机构：
  
  1. 北京林业大学省部共建森林培育与保护教育部重点实验室,北京,100083
  2. 河北省平泉县林业局, 河北平泉,067500
- 作者简介：
- 基金信息：
- DOI：10.13961/j.cnki.stbctb.2015.02.019
  CLC：
- Published：2015
- 稿件说明：
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SONG Xiaoshuai, KANG Fengfeng, HAN Hairong, et al. Soil Hydrological Effects of Typical Forest Types in Upper Reaches of Liaohe River[J]. Bulletin of Soiland Water Conservation, 2015, 35(2): 101-105.
DOI：

SONG Xiaoshuai, KANG Fengfeng, HAN Hairong, et al. Soil Hydrological Effects of Typical Forest Types in Upper Reaches of Liaohe River[J]. Bulletin of Soiland Water Conservation, 2015, 35(2): 101-105. DOI： 10.13961/j.cnki.stbctb.2015.02.019.

摘要

[目的

]

研究辽河源地区典型森林类型林下土壤的水文效应

为辽河源森林生态系统健康的监测和评价提供理论佐证。[方法

]

选取典型森林类型

采用不同入渗模型拟合各森林类型土壤的入渗过程。[结果

]

(1)土壤容重变化范围为1.21~1.56 g/cm

油松中龄林最大

山杨成熟林最小;土壤总孔隙度变化范围为41.26%~54.38%

山杨成熟林最大

油松中龄林最小;(2)山杨成熟林土壤蓄水能力最强

为1087.56 t/hm

;油松中龄林土壤蓄水能力最小

为825.17 t/hm

;(3)山杨成熟林稳渗速率最大

为1.33 mm/min;(4)霍顿(Horton)入渗模型和菲利普(Philip)入渗模型能较好地反映各森林群落土壤入渗过程

但通用幂函数模型拟合结果较差。[结论

]

不同森林类型土壤均表现出随着土层深度的增加容重逐渐增加的现象

阔叶林林下土壤蓄水能力要强于针叶林

通过比较认为可以利用霍顿(Horton)模型作为研究该区森林土壤水文功能的重要手段。

Abstract

[Objective] Studying the hydrological effects of understory soil of typical forest types in the upper reaches of Liaohe River

aimed to provide theoretical evidence for the monitoring and evaluation of the forest ecosystem health.[Methods] The understory soils of some typical forest types were chosen to research their infiltration processes

and upon which the processes were fitted with several permeability models.[Results](1) The soil bulk density ranged from about 1.21 g/cm3 to 1.56 g/cm3

the maximum value was found in the middle-aged Pinus tabuliformisforest and maturePopulus davidianaforest had the minimum bulk density. The range of the total soil porosity was 41.26%~54.38%

mature Populus davidiana forest had the maximum porosity and middle-aged Pinus tabuliformis had the minimum porosity; (2) The soil water-holding capacity of mature Populus davidiana forest was greatest with a value of 1 087.56 t/hm2 and middle-aged Pinus tabulaeformis forest had the minimum value of 825.17 t/hm2; (3) The steady infiltration rate of mature Populus davidiana forest was 1.33 mm/min; (4) Both Horton infiltration model and Philip model could reflect the soil infiltration course of each forest vegetation well

while the common power functional infiltration performed poorly.[Conclusion] The soils of different forest types had greater bulk density in deeper layer. The soil water storage capacity was bigger under broad-leaved forest than that under under coniferous forest. Horton model could be used as an important means to study the local hydrological function of forest soil.

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Keywords

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