流域环境要素空间尺度特征及其与水生态分区尺度的关系——以辽河流域为例

指标体系构建是流域水生态分区技术框架中的一项重要内容。目前提出的指标体系尚缺乏一定的科学理论支持,如所选指标的生态尺度与各级分区大小之间的对应关系。生态学研究认为,不同尺度上的生态过程和格局不同。以辽河流域为例,对影响水生态系统的几个大尺度环境要素(降水、地形和植被)的空间尺度特征进行分析,得出了各要素空间变异最为显著的尺度。其中,降水的空间尺度约为75 km,地形要素和指标均大致存在16 km、32 km、64 km和128 km多个景观特征尺度。在界定水生态一、二级分区范围基础上,讨论了各环境要素作为水生态一、二级分区指标的适用性,以期为辽河流域水生态分区指标选取提供一定科学依据,同时希望能为其他流域提供一定参考。

Scale analysis of environmental factors and their relationship with the size of hierarchical aquatic ecoregion: a case study in the Liao River basin

Aquatic ecoregion is the basis for the management of watershed environment in China. Indicators for ecoregion zoning are important for the framework of aquatic ecoregion framework. Several indicators for ecoregion zoning have been proposed in the previous studies. However, most of those indicators lack theoretical basis. For example, how to determine the characteristic scales of environmental factors and link it to a given level ecoregion are not investigated thoroughly. In order to address this issue, scale analysis on topography (DEM and slope) and vegetation is made by using scale variance analysis (SV) method, and precipitation data by the scale covariance methods (SC). Scale variance analysis is a method to detect spatial scales where significant spatial heterogeneity exists for raster data. Boxes are selected for scale variance analysis with the size of 22, 42, 44, 84, 88, 168, 1616, 3216, 3232, 6432, 6464, 12864, 128128, 256128, 256256, 530256. Scale covariance method is deliberately proposed for long term point-measured records (e.g. precipitation), which cannot be appropriately analyzed with the scale variance method. SC method calculates covariance and correlation coefficient for each pair of point-measured records. Distance between every two points is estimated and then the pairs with distance less than predefined scales are selected for SC calculation. Largest outside rectangle of the boundary in the Liao River basin is chosen for data extraction and analysis. Altitude and slope derived from the SRTM-DEM data in the Liao River basin, provided by USGS, is utilized for scale variance analysis. NDVI in the Liao River basin in 2007 is selected for vegetation scale variance analysis. Both DEM and NDVI data are resampled with the cell size of 1km 1km. Precipitation data from 34 stations within and around the Liao River basin from 1957 to 2008 are collected for scale covariance analysis. Scale covariance analysis results indicate that precipitation shows a characteristic scale of 75 km, corresponding to a box size of 5625 km2, and scale variance analysis shows that both topography (DEM and slope) and vegetation (NDVI) have characteristic scales of 16 km, 32 km, 64 km, and 128 km, corresponding to box sizes of 156 km2, 1024 km2, 16384 km2, respectively. Referring to the National Ecological Unit Hierarchy (NEUH) in USA, the aquatic ecoregion framework by US-EPA, and ecoregions defined in the European Water Framework Directive, the range of aquatic ecoregion in China is preliminarily determined. Size of aquatic ecoregion level I is supposed to be more than 5000 km2 and less than 50000 km2, which approximately corresponds to the ecoregions between the levels of "Province" and "Section" in the NEUH or the very large ecoregions in the WFD, and the size for aquatic ecoregion level II is about 1000 to 5000 km2, which approximately corresponds to the ecoregions of level "Subsection" in the NEUH or the large ecoregion in the WFD. On the basis of the primarily defined extent of both aquatic ecoregion level I and level II, potential indicators for level I and level II ecoregions are discussed. Conclusions are important for the selection of indicators in aquatic ecoregion zoning.