Hydrological setting of infertile species-rich wetland--a case study in the warm temperate Japan
The detailed groundwater flow and water chemistry to illustrate landscape structure of the infertile peatless mire by using piezometersand groundwater wells were measured.The instruments were installed in lines through a small spring-fed wetland underlying little peat from thehillslope to the valley bottom in southwestern Japan.Flow net and EC data clearly indicated that the wetland was situated in a high-Ecgroundwater upspring area.The low-productivity graminous vegetation was related with four hydrological factors such as: (1) high water level;(2) low-EC ( < 25 micro S/cm) groundwater; (3) weakly upward hydraulic gradient; and (4) overflowing of negatively pressuredgroundwater.In other words, the "old or deep groundwater" constructed the foundation of slope-wetland, and maintained the high groundwaterlevel.In contrast, overflowing "youthful groundwater" is supplied from head of slope-wetland preferentially through the shallow substratum.Theplant communities of the peatless mire in southwestern Japan axe similar to those of raised bog in northern cool temperate Japan.There have been some reports verifying that the underlying mineral substrata of such wetlands were quartzile rocks such as granite, rhyolite, chart and well-leached sand. Results showed (1) low cation availability affects the water acidity; (2) upward seepage of high-EC groundwater composed the foundation of the investigated peatless mire; and (3) the poor mineral condition seems to play a similar role to northern ombrotrophic(rain-fed) condition.
作 者: Kikuchi A Nakagoshi N Onda Y 作者单位: Kikuchi A,Nakagoshi N(Graduate School for International Development and Cooperation, Hiroshima University.Higashi-Hiroshima City, 739-8529 Japan)Onda Y(Institute of Geoscience, University of Tsukuba, Ibaraki 305-8571, Japan)
刊 名: 环境科学学报(英文版) ISTIC SCI 英文刊名: JOURNAL OF ENVIRONMENTAL SCIENCES 年,卷(期): 2003 15(2) 分类号: Q149 关键词: eco-hydrology electrical conductivity groundwater flow plant community wetland