Patterns of microbial community development in isolated aquatic systems

• Main Author: McCormick, Paul V.
• Other Authors: Zoology
• Format: Others
• Language: en
• Published: Virginia Polytechnic Institute and State University 2020
• Subjects: LD5655.V855 1986.M324; Island ecology; Microorganisms > Development
• Online Access: http://hdl.handle.net/10919/101124

The purpose of this research was to compare the process of microbial community development in isolated aquatic systems to the MacArthur-Wilson equilibrium theory of island biogeography and suggest alternative models for the observed patterns. Water-filled plastic containers were used as aquatic islands to investigate the colonization dynamics of protozoan, algal and microinvertebrate taxa. Polyurethane foam (PF) artificial substrates were used as sampling devices in these systems. Distance from another aquatic system was found to have a significant effect colonization in these systems. Exclusion of macroscopic organisms, however, did not strongly affect the process of microbial community development in these systems. The results of short-term (36 day) and long-term (170 day) experiments suggest that no protracted species equilibrium is achieved in these systems; an initial asymptotic increase in species richness was followed by large oscillations in the number of species. There was no correlation between rates of species colonization and the number of species present. Rates of species extinction, however, increased with increasing species number. The estimated rate of species colonization was a non-monotonic function of time, increasing during the early stages of colonization and decreasing thereafter. These results, coupled with an analysis of temporal changes in species composition suggest that microbial community development in isolated systems is a deterministic process which may be best explained by an interactive model of species succession. === M.S.