摘要
在湖南会同生态站的人工杉木林集水区,对比研究了不同间伐强度对地表径流影响。结果表明:降雨量大小是形成地表径流的主要原因,即地表径流随降雨量上升而增大。在不出现大暴雨及特大暴雨的情形下,间伐样地产生的地表径流比对照样地小,其中,30%的间伐强度更利于减小地表径流。通过对不同月份的降雨量与地表径流的关系研究,证明了单次降雨量,而非降雨总量,才是导致地表径流形成的主要原因。通过地表径流与林下植被、土壤特性的多元相关分析可知,地表径流与枯落物量、灌木草本层盖度、土壤非毛管孔隙、水稳性土壤团聚体粒径呈显著负相关,与土壤容重呈显著正相关。间伐正是通过改变上述因子而增强了水土保持能力,减小了地表径流的形成。在人工杉木林条件下和间伐强度范围内,30%的间伐强度下的影响更显著,更有助于减小地表径流。
Thinning can significantly change the biomass and soft properties of forest ecosystems, thus affecting the development of overland flow. To estimate the effects of thinning intensity, overland flow plots were established in a Chinese fir plantation in the Huitong State Ecosystem Research Station. The rainfall intensity results showed that, in the absence of downpours and super rainstorms, the overland flow after thinning was less than that in the control plots. Additionally, the overland flow increased with increasing rainfall intensity. However, during downpours and super rainstorms, there were no significant differences between the thinned and control states. Therefore, we suggest that thinning could significantly reduce overland flow only in the absence of downpours and super rainstorms. Subsequently, we investigated the monthly changes in rainfall and overland flow. During the dry season (from November to March) , low precipitation (light and moderate rain) was prominent, and the corresponding overland flow was very low. However, during the rainy season (from April to October), heavy rain was dominant, resulting in a greater overland flow. Although the total rainfall in May was greater than that in July, the corresponding overland flow was lower; this may be explained by increased frequency of super rainstorms in July, directly leading to a greater overland flow. Consequently, it can be concluded that individual rainfall events rather than total rainfall, was the primary reason for the formation of overland flow in the forest ecological system. Moreover, the overland flow decreased with increasing the thinning intensity, and a thinning intensity of 30% was the most effective in reducing the overland flow. The results of an analysis of vegetation and soil properties under different thinning intensities indicated that thinning could significantly increase the growth of undergrowth vegetation as well as improve soil fertility. Thus, the undergrowth and litter biomass, coverage of the undergrowth plan
出处
《生态学报》
CAS
CSCD
北大核心
2015年第17期5769-5775,共7页
Acta Ecologica Sinica
基金
国家自然科学基金项目(41271332)
湖南省自然科学基金项目(11JJ2031)
湖南省科技计划项目(2012SK2021)
关键词
间伐强度
地表径流
杉木林
降雨量
林下植被
土壤
thinning intensity
overland flow
Chinese fir plantation
rainfall
vegetation
soil
