毛竹扩张的生态后效：凋落物水文功能评价

生态学杂志

毛竹扩张的生态后效：凋落物水文功能评价

宋庆妮^1,2,杨清培^1**,欧阳明¹,龙春玲¹,陈伏生¹,施建敏^1

(¹江西农业大学/江西省竹子种质资源与利用重点实验室，南昌 330045； ^2清华大学地球系统科学研究中心，北京 100084)

出版日期:2015-08-10 发布日期:2015-08-10

Changes in the hydrological functions of litter layer following Phyllostachys edulis expansion into evergreen broadleaved forest.

SONG Qing-ni^1,2, YANG Qing-pei^1**, OUYANG Ming¹, LONG Chun-ling¹, CHEN Fu-sheng¹, SHI Jian-min^1

(¹Jiangxi Provincial Key Laboratory for Bamboo Germplasm Resources and Utilization, Jiangxi Agricultural University, Nanchang 330045, China; ^2Center for Earth System Science, Tsinghua University, Beijing 10084, China)

Online:2015-08-10 Published:2015-08-10

摘要/Abstract

摘要：

为评价毛竹扩张对次生常绿阔叶林凋落物水文功能的影响，在江西大岗山收集毛竹林和邻近的次生常绿阔叶林凋落物，采用模拟降雨法和浸泡法，测定了凋落物阻滞径流时间、截留降雨量和持水量(率)等水文功能指标。结果表明：当降雨强度为0.5、1.0、1.5 mm·min^-1，坡度为10°、25°、40°时，2种森林凋落物阻滞径流的时间均随雨强和坡度增加而提前，但在同等条件下毛竹林产流的时间比常绿阔叶林要迟；2种森林凋落物截留量与降雨历时的关系都可用一级动力学模型N_t=N₀(1-e^-kt)进行较好的拟合，最大截留量N₀随降雨强度增大而增大，随坡度增大而减小，但同一条件下毛竹林凋落物最大截留量N₀较常绿阔叶林大；毛竹林凋落物的最大持水率和最大持水量分别为267.51%和7.41 t·hm^-2，常绿阔叶林对应的值为244.33%和5.27 t·hm^-2，前者比后者分别高出9.49%和40.60%。研究表明，毛竹扩张导致常绿阔叶林转变成毛竹林后，凋落物的水文生态功能增强。

关键词: 新疆, 重金属, 棉田, 理化性质, 土壤质量

Abstract: The expansion of Phyllostachys edulis into neighbor secondary evergreen broadleaved forest may affect the hydrological functions of litter layers. Using laboratory simulated rainfall experiments and immersion test, we monitored the time of retarding runoff, rainfall interception and water holding capacity of litter between Ph. edulis forest (PEF) and adjacent evergreen broadleaved forest (EBF). When the rainfall intensities were 0.5, 1.0, 1.5 mm·min^-1 and the slopes were 10°, 25°, 40°, the time of litter retarding runoff decreased with the rainfall intensity and the slope, with the time of retarding runoff for PEF being higher than that for EBF. The relationship between interception capacity and rainfall time could be described by N_t=N₀(1-e^-kt) for both stands, and the maximum interception capacity (N₀) of litter layers increased with the rainfall intensity but decreased with the slope. Under the same condition, PEF had higher N₀ than EBF. The maximum water holding capacity rate was 267.51% for PEF, being 9.49% higher than that for EBF (244.33%); the maximum water holding capacity for PEF (7.41 t·hm^-2) was 40.60% higher than that for EBF (5.27 t·hm^-2). These results indicated that the hydrological functions of litter layer may increase with the expansion of Ph. edulis.

Key words: Xinjiang, heavy metal, cotton field., soil quality, physicochemical property

宋庆妮1,2,杨清培1**,欧阳明1,龙春玲1,陈伏生1,施建敏1. 毛竹扩张的生态后效：凋落物水文功能评价[J]. 生态学杂志.

SONG Qing-ni1,2, YANG Qing-pei1**, OUYANG Ming1, LONG Chun-ling1, CHEN Fu-sheng1, SHI Jian-min1. Changes in the hydrological functions of litter layer following Phyllostachys edulis expansion into evergreen broadleaved forest.[J]. cje.

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