Effect of Low-quality and Benefit Forest Improvement on Soil Physical Properties in Middle-mountain of Upper Reaches of Minjiang River

PANG Xue yong; BAO Wei kai; ZHANG Yong mei

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Effect of Low-quality and Benefit Forest Improvement on Soil Physical Properties in Middle-mountain of Upper Reaches of Minjiang River

- Effect of Low-quality and Benefit Forest Improvement on Soil Physical Properties in Middle-mountain of Upper Reaches of Minjiang River
- Bulletin of Soiland Water Conservation Vol. 24, Issue 5, Pages: 12-16(2005)
- 作者机构：
  
  中国科学院成都生物研究所,四川,成都,610041
- 作者简介：
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- DOI：
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- Published：2005
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PANG Xue yong, BAO Wei kai, ZHANG Yong mei. Effect of Low-quality and Benefit Forest Improvement on Soil Physical Properties in Middle-mountain of Upper Reaches of Minjiang River[J]. Bulletin of Soiland Water Conservation, 2005, 24(5): 12-16.
DOI：

PANG Xue yong, BAO Wei kai, ZHANG Yong mei. Effect of Low-quality and Benefit Forest Improvement on Soil Physical Properties in Middle-mountain of Upper Reaches of Minjiang River[J]. Bulletin of Soiland Water Conservation, 2005, 24(5): 12-16. DOI：

摘要

岷江上游中山区存在大面积低效林

其萌蘖枝多而密

无明显主干

林地阴闭

光照少

土壤干燥

生态服务功能极为低下。经萌蘖更新调控技术2a的改造后

土壤生态功能大大改善

改造林地土壤容重较对照林地低9.6%~32.6%

土壤孔隙状况明显改善

表层总孔隙和毛管孔隙较对照林地提高30.9%和31.5%

非毛管孔隙随改造时间先增加后减少

土壤孔隙配比更为合理。由于土壤孔隙得到改善

土壤持水性能也明显地提高

表层最大持水量、毛管持水量及自然含水量较对照林地分别提高87.5%

94.6%和64.0%

非毛管持水量在改造2a后

表层土壤也较对照林地高72.3%。萌蘖更新调控技术通过调控植物结构和功能

加快林地物质循环

促进植物生长和根系活动能力

来改善土壤生态功能。萌蘖更新技术在岷江上游中山区试验效果明显

土壤蓄水保水能力强

为该技术推广应用提供了一定的理论基础。

Abstract

There is a large area of low-quality and benefit forest in middle-mountain of the upper reaches of Minjiang river.High density root-sprouts which are not obvious stem formed shaded condition where there are low light and dry soil of forests.These low-benefit and quality forests are improved by root-sprout regeneration technique for 2 years.Soil ecological functions are ameliorated significantly.Soil bulk density of improved woodland decreased 9.6%～32.6% than that of control.Soil total porosity of improved woodland was also significantly ameliorated.Soil total porosity and capillary porosity of topsoil in improved woodland increased 30.9% and 31.5% than that of control

respectively.Ratio of capillary porosity and non-capillary porosity became even more rational.As a result of melioration of soil porosity condition

the capacity of water-holding was also ameliorated.The maximal

capillary capacity of water-holding and natural moisture content in improved woodland increased 87.5%

(94.6)% and 64.0% than that of control

respectively.The non-capillary capacity of waterholding also increased 72.3% after 2 years.Root-sprout regeneration technique accelerated material circulation

root activity and plant growth and ameliorated soil ecological function through the control of plant structure and function.Root-sprout regeneration technique that increased the capacity of water-holding is a good technique

and it should be popularized in middle-mountain of the upper reaches of Minjiang river.

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