Hydrological responses to land-use changes in karst area— A case study in Houzhai river, Guizhou Province
-
摘要: 以贵州普定后寨地下河流域为研究区,在分析流域生态环境特征以及岩溶水形成机制的基础上,通过野外调查、资料收集并结合现代空间技术、地理信息系统和遥感技术,研制开发了适合我国后寨河流域的基于落水洞的岩溶半分布式水文模型,分析了土地利用/覆被变化对流域径流的影响以及流域产汇流参数对比关系。结果表明:生态建设后除最大土壤蓄水量增大外,其它产流参数变化不大;汇流参数基本小于生态建设前,但相差不大;在降雨条件不变的情况下,生态建设后的产流量小于生态建设前的产流量,生态建设前土地覆被下的流量在低水位时比生态建设后的流量稍高,而在高水位时生态建设前流量比生态建设后的流量稍低。Abstract: Selecting Houzhai underground river basin as a study area, a sinkhole-based semi-distributed karst hydrologic model, which is based o the analysis of ecological environment features and karst water formation mechanism, was proposed and the impact of land-use and vegetation cover changes on the catchment runoff and the relationship between yield flow parameter and confluence flow parameter in Houzhai catchment, Guizhou province was discussed by means of field investigation, data collection and modern spatial technology as well as geography information system and remote sensing technology in this paper. It is proved that after the eco-construction other flow yield parameters change little except the maximum soil moisture storage, confluence flow parameter changed little too and get less than that before eco-construction basically. It is also proved that, under the constant rainfall, flow yield decrease and the runoff which is under the vegetation coverage becomes smaller at low water level and becomes larger at high water level after the eco-construction.
-
Key words:
- land-use/vegetation cover /
- karst /
- hydrologic response /
- semi-distributed hydrologic model /
- sinkhole
-
[1] 袁道先.论岩溶环境关系[J].中国岩溶,1998,17(3):179-186. [2] 苏维词.岩溶地区生态环境敏感度评价研究[J].中国岩溶,1997,16(1):57-65. [3] 陈刚才,甘露.贵州岩溶地区的生态环境现实与可持续发展对策[J].农业现代化研究,2000,21(2):108-111. [4] 屠玉麟.贵州喀斯特生态环境划分研究[J].贵州科学,2000,18(1-2):139-143. [5] 何才华.中国地貌与贵州岩溶生态环境[J].贵州师范大学学报,2000,18(3):1-7. [6] Reynaud A, Guglielmi Y, Mudry J.Hydrochemical approach to the alterations of the recharge of a karst aquifer consecutive to a long pumping period: Example taken from pinchinade graben( Mouans-Sartoux,French Riviera )[J].Ground Water,1999,37(3): 414-417. [7] Hamilton J, Ford D. Karst geomorphology and hydrogeology of the Bear Rock Formation-A remarkable dolostone and gypsum megabreccia in the continuous permafrost zone of Northwest Territories[J].Canada.Carbonate Evaporite, 2002, 17(2): 114-115. [8] Georg Kaufmann. A model comparison of karst aquifer evolution for different matrix-flow formulations[J]. Journal of Hydrology, 2003(283): 281-289. [9] Grasso D A, Jeannin P Y. Erratum to “A deterministic approach to the coupled analysisi of karst springs’ hydrographs and chemographs”[J]. Journal of Hydrology, 2003,279-291. [10] Tumas R. Lithuanian karst region river water ecology: hydrochemical and hydrobiological evaluation[J]. Nord hydrol,2004, 35(1): 61-72. [11] Danièle Valdes, Jean-Paul Dupont, Beno?t Laignel. A spatial analysis of structural controls on karst groundwater geochemistry at a regional scale[J]. Journal of Hydrology, 2007,(340): 2441-255. [12] 韩丽.流域土地利用变化及水文效应研究[D].南京:河海大学,2007:57-58. [13] 史运良,王腊春.岩溶水概念性分布模型[J].南京大学学报,1992,13:136-149. [14] 王腊春,史运良.非闭合流域岩溶水文模型[J].水科学进展,1995,6(4):318-3214. [15] 王腊春,杨晓轩.喀斯特流域空间结构与地貌瞬时单位线应用——以贵州后寨地下河流域为例[J].南京大学学报,1995,31(4):649-656. -
点击查看大图
计量
- 文章访问数: 1496
- HTML浏览量: 383
- PDF下载量: 480
- 被引次数: 0
下载:
