三峡库区典型农林流域景观格局对径流和泥沙输出的影响

Abstract

The Three Gorges Reservoir area is one of China's the most ecologically sensitive areas. Transport and deposition of eroded material as well as substances dissolved in runoff and attached to soil particles lead to declines in water quality, eutrophication and negative impacts to agricultural lands and to waters of the Three Gorges Reservoir. Generally,land use changes,especially the conversion of forests to agriculture in watersheds,are thought to cause these problems. The conversion of cropland to forest as part of an extensive ecological afforestation engineering scheme has played a very important role in reducing runoff and sediment export in this area.Landscape pattern analysis plays an important role in landscape ecology,whose ultimate goal is to link spatial patterns of landscapes with ecological processes and detect status of processes using landscape pattern information. By analyzing the spatial arrangement of relevant factors related to landscapes,landscape pattern analysis can obtain information to predict dynamic patterns of ecological processes. A close relationship exists between land use structure and runoff and sediment export. Landscape patterns have a significant and complex effect on soil erosion and sediment delivery. In this study,a total of 25 typical agroforestry watersheds in Zigui County,Hubei,China,in the Three Gorges Reservoir area were selected to investigate the effects of watershed landscape patterns on runoff and sediment by using RS and GIS techniques. Watershed landscape pattern indices selected were percentage of landscape patch area( PLAND) at the patch-class level,patch richness density,double log fractal dimension( DLFD),Shannon's diversity index( SHDI) and contagion( CONT) at the landscape level. Watershed landscape pattern indices were calculated by FRAGSTATS 4.1. Runoff and sediment exported from 25 watersheds in study area were simulated by the AnnAGNPS( Annualized AGricultural NonPoint Source) model,which is a continuous watershed-scale model that can simulate runoff and sediment in watersheds covering up to 300000 hm2. Correlation between pattern indices and runoff sediment was analyzed using SPSS 19.5 software. The results show a significant positive relationship exists between runoff and CONT and PLANDs of sloping farmlands, terraces,agroforestry terraces and residential land. A significant negative correlation was found between runoff and PLANDs of forestland and shrubland. Soil erosion correlation analysis also showed a significant positive relationship between sediment and DLFD,CONT and PLANDs of sloping farmlands,agroforestry terraces and residential land. A significant negative correlation was found between sediment and SHDI and PLANDs of forestland and shrubland. Multiple correlation coefficients between landscape indices and runoff and sediment were 0.856 and 0.962,respectively,both of which were higher than those of single-factor coefficients. There were linear regression relationships between the landscape indices and runoff and sediment. Landscape pattern significantly influences runoff and sediment delivery in watersheds at the landscape-level. Our results also present empirical evidence for the existence of direct relationship between the landscape patterns in study area and runoff and sediment processes as well as suggest landscape spatial patterns and functional diversity may be linked through feedback mechanisms.