15th Conference on Hydrology

4.11

Hydrological Responses to Climate and Land-Cover Changes in A Mid-Sized Watershed

Qi Hu, Univ. of Nebraska, Lincoln, NE; and G. D. Willson

A distributed hydrology-vegetation model was used to evaluate hydrological responses to climate and land-cover changes in the Jacks Fork River Basin (2,900 km2) in the Missouri Ozark Highlands. The need for this study arose from National Park Service concerns over stream water availability and seasonal and annual variation of stream volume in the Jacks Fork River within Ozarks National Scenic Riverways. Local climate changes marked by an increase in the variability of summer season precipitation and by land-cover modifications resulting from converting forested land into fescue pasture to meet the demand of local agricultural growth have caused changes in the annual hydrograph and stability of stream flow in the river basin. The goal of this study is to understand the effect of climate and land-cover changes on stream flow to allow local land managers to develop working strategies to manage water resources in the basin.

The model was calibrated using hourly data from a 2.5-year period of observation in the river basin from June 1996 through November 1998. The simulated stream discharge for the two water years of 1997 and 1998 is consistent with the observed hydrograph of the basin although the Karst geology of the basin is the likely cause of the minor differences between the hydrograph and the simulation. The two-year simulation result was used as the baseline in comparison to model results using climate and land-cover change scenarios developed from historical climate data and from the possible vegetation changes in the basin.

Results of the study suggest that even a small percentage change in land-cover in the basin can have a drastic impact on annual stream discharge. Reduction of forested land in the basin can increase the frequency and/or magnitude of extreme hydrological events, i.e., floods and low flow during droughts, in the basin. Compared to the land-cover change effect, climate change has a relatively small influence on stream discharge and its annual distribution. In addition, any climate effect will result from the slow process of climate change as compared to the often rapid process of land-use change. Results from further investigation of the stream discharge change using an interactive relationship between changes of climate and vegetation physiology in the basin is presented.

Session 4, Hydrological and Hydrometeorological Impacts due to Climate Change (Parallel with Joint Session J1)
Wednesday, 12 January 2000, 2:30 PM-5:45 PM

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