Paleoecology and the Coarse-Filter Approach to Maintaining Biological Diversity

The difficulties of saving millions o species from extinction often cause conservationists to focus on a higher level of biological organization, the community. They do so for two reasons: (1) communities are considered important biological entities in their own right, and (2) conserving representative samples of communities is seen as an efficient way to maintain high levels o species diversity. This approach will work if the chosen communities contain almost all species. Because it potentially saves most but not all species, community conservation is a "coarse-filter" approach to the maintenance o biological diversity, and contrasts with the "fine-filter" approach of saving individual species. Paleoecological information on the distribution o plant taxa in North America, however, indicates that most modern plant communities are less than 8,000 years old and therefore are not highly organized units reflecting long-term coevolution among species. Rather, they are only transitory assemblages or co-occurrences among plant taxa that have changed in abundance, distribution, and association in response to the large climate changes of the past 20,000 years. During periods when climate changes are large, communities are too ephemeral to be considered important biological entities in their own right. Large climatic changes are also likely to occur during the next century because o increased concentrations o CO2, and we therefore propose that the coarse-filter approach to selecting nature reserves should be more strongly influenced by the distribution of modern communities. Ideally, nature reserves should also encompass a broad enough range of environments to allow organisms to adjust their local distribution in response to long-term environmental change, and should be connected by regional corridors that would allow species to change their geographic distributions.