| 小流域水土保持生态修复区森林枯落物的持水性能 |
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| 引用本文: | 王金建,崔培学,刘霞,王丽,张淑勇.小流域水土保持生态修复区森林枯落物的持水性能[J].中国水土保持科学,2005,3(1):48-52. |
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| 作者姓名: | 王金建 崔培学 刘霞 王丽 张淑勇 |
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| 作者单位: | 1. 山东省水利厅,250013,济南
2. 山东农业大学水土保持系,271018,山东泰安 |
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| 基金项目: | 山东省水利厅科技探索项目"水土保持生态修复项目效益监测与评价研究" |
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| 摘 要: | 在山东省邹城市刘庄小流域水土保持生态修复区内,对5种森林植被类型的枯落物持水性能进行了研究。结果表明:①枯落物层具有明显的蓄水、保水作用。不同森林类型枯落物最大持水率为850%~1982%,其中阔叶林明显高于针叶林;但由于针叶林具有较大的枯落物蓄积量,因此,针叶林仍能维持较高的蓄水功能。不同森林类型枯落物最大持水量为154~253mm,其中针阔混交林和针叶林高于阔叶林,具体顺序为麻栎+侧柏>侧柏>赤松+侧柏>麻栎>刺槐。②不同森林类型枯落物持水量和吸水速率,随时间的动态变化规律基本相似。随浸水历时的延长,枯落物持水量呈增加趋势,但当枯落物在水中浸泡8h时,持水量达到较大值,之后增加浸泡时间 ,持水量增加幅度较为平缓。不同森林类型枯落物吸水速率,在前4h内变化最快,以后逐渐变缓,24h时吸水基本停止。③不同森林类型枯落物有效拦蓄水深为0 61~143mm,针阔混交林>阔叶林>针叶林;具体顺序为麻栎侧柏>刺槐>麻栎>侧柏>赤松+侧柏。
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| 关 键 词: | 生态修复 森林植被 枯落物 持水性能 |
| 修稿时间: | 2004年8月26日 |
Water-holding capacity of litter layer for different forest vegetation in ecological restoration of small watershed |
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| Wang Jinjian,Cui Peixue,Liu Xia,Wang Li,Zhang Shuyong.Water-holding capacity of litter layer for different forest vegetation in ecological restoration of small watershed[J].Science of Soil and Water Conservation,2005,3(1):48-52. |
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| Authors: | Wang Jinjian Cui Peixue Liu Xia Wang Li Zhang Shuyong |
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| Institution: | 1.Water Resources Department of Shandong Province, 250013, Jinan; 2.Department of Soil and Water Conservation, Shandong Agricultural University, 271018, Taian: Shandong, China |
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| Abstract: | Water-holding capacity of litter layer for different forest vegetation was researched in ecological restoration of Liuzhuang small watershed, in Zoucheng city, Shandong province. Results indicate that: ①Litter layer of forest vegetation play an important role in water-holding capacity. The maximum water-holding percentage of litter layer for different forest vegetation is 85.0%~198.2%, being larger for broad leaf forest than that for coniferous forest. Coniferous forest is still remaining higher water-holding capacity, owing to the existing amount of coniferous litter is larger than that of broad leaved. The maximum water-holding capacity of litter layer for different forest vegetation is 1.54~2.53*!mm, being larger for coniferous-broad leaved mixed forests and coniferous forest than that for broad leaf forest , the order is Quercus acutissima and Platycladus orientalis>Platycladus orientalis>Pinus densiflora and Platycladus orientalis>Quercus acutissima>Robinia pseudoacacia. ②The dynamic course of water-holding capacity and water absorption rate are similar in different forest vegetation types. With the immersion time extending, the water-holding capacity is increasing. When the litter layer is immerged in the water for 8 hours, the water- holding capacity will reach the bigger value. From then on, with the time extending, the increasing range of water-holding capacity shows small. The water absorption rate of litter layer changes fastly in the front 4 hours, after then it becomes smooth. The litter layer stops absorbing water when it reaches the 24th hours. ③The effective interception of different forest vegetation was 0.61~1.43*!mm, coniferous-broad leaved mixed forests>broad leaf forest>coniferous forest, the order was Quercus acutissima and Platycladus orientalis>Robinia pseudoacacia>Quercus acutissima>Platycladus orientalis>Pinus densiflora and Platycladus orientalis. |
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| Keywords: | ecological restoration forest vegetation litter layer water-holding capacity |
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