A NATIONAL CRITICAL LOADS FRAMEWORK FOR ATMOSPHERIC DEPOSITION EFFECTS ASSESSMENT .4. MODEL SELECTION, APPLICATIONS, AND CRITICAL LOADS MAPPING

The critical loads approach is emerging as an attractive means for eva luating the effects of atmospheric deposition on sensitive terrestrial and aquatic ecosystems. Various approaches are available for modeling ecosystem responses to deposition and for estimating critical load va lues. These approaches include empirical and statistical relationships , steady-state and simple process models, and integrated-effects model s. For any given ecosystem, the most technically sophisticated approac h will not necessarily be the most appropriate for all applications; i dentification of the most useful approach depends upon the degree of a ccuracy needed and upon data and computational requirements, biogeoche mical processes being modeled, approaches used for representing model results on regional bases, and desired degree of spatial and temporal resolution. Different approaches are characterized by different levels of uncertainty. If the limitations of individual approaches are known , the user can determine whether an approach provides a reasonable bas is for decision making. Several options, including point maps, grid ma ps, and ecoregional maps, are available for presenting model results i n a regional context. These are discussed using hypothetical examples for choosing populations and damage limits.