论文信息 - PREDICTABILITY OF SURFACE WATER POLLUTION LOADING IN PENNSYLVANIA USING WATERSHED‐BASED LANDSCAPE MEASUREMENTS 1

PREDICTABILITY OF SURFACE WATER POLLUTION LOADING IN PENNSYLVANIA USING WATERSHED‐BASED LANDSCAPE MEASUREMENTS 1

: We formally evaluated the relationship between landscape characteristics and surface water quality in the state of Pennsylvania (USA) by regressing two different types of pollutant responses on landscape variables that were measured for whole watersheds. One response was the monthly exported mass of nitrogen estimated from field measurements, while the other response was a GIS-modeled pollution potential index. Regression models were built by the stepwise selection protocol, choosing an optimal set of landscape predictors. After factoring out the effect of physiography, the dominant predictors were the proportion of “annual herbaceous” land and “total herbaceous” land for the nitrogen loading and pollution potential index, respectively. The strength of these single predictors is encouraging because the marginal land cover proportions are the simplest landscape measurements to obtain once a land cover map is in hand; however, the optimal set of predictors also included several measurements of spatial pattern. Thus, for watersheds at this general hierarchical scale, gross landscape pattern may be an important influence on instream pollution loading. Overall, there is strong evidence that using landscape measurements alone, obtained solely from remotely sensed data, can explain most of the water quality variability (R2= approx. 0.75) within these watersheds.

[1] James D. Wickham,et al. An ecological assessment of the United States mid-Atlantic region , 1997 .

[2] R. O'Neill,et al. Ecological Risk Assessment at The Regional Scale: Ecological Archives A005-001. , 1991, Ecological applications : a publication of the Ecological Society of America.

[3] James M. Hamlett,et al. Statewide GIS-based ranking of watersheds for agricultural pollution prevention , 1992 .

[4] Elizabeth A. Peck,et al. Introduction to Linear Regression Analysis , 2001 .

[5] Ganapati P. Patil,et al. Quantitative Multiresolution Characterization of Landscape Patterns for Assessing the Status of Ecosystem Health in Watershed Management Areas , 1998 .

[6] H. Akaike. A new look at the statistical model identification , 1974 .

[7] R. Aspinall,et al. Integrated geographical assessment of environmental condition in water catchments: Linking landscape ecology, environmental modelling and GIS , 2000 .

[8] C. L. Mallows. Some comments on C_p , 1973 .

[9] Carolyn T. Hunsaker,et al. Hierarchical Approaches to the Study of Water Quality in RiversSpatial scale and terrestrial processes are important in developing models to translate research results to management practices , 1995 .

[10] Glen D. Johnson,et al. Multiresolution fragmentation profiles for assessing hierarchically structured landscape patterns , 1999 .

[11] Michael H. Kutner. Applied Linear Statistical Models , 1974 .