Summary
As subjects for ecosystem studies, thermal spring effluents offer the advantages of trophic diversity with taxonomic simplicity, ease of sampling, replicability, world-wide distribution and manipulability. The dominant primary producers (filamentous blue-green algae) are grazed by ephydrid flies. These in turn harbor larvae of the water mite Partnuniella. The high instrinic rate of increase of the fly enables it to exploit temporary cool spots in the mat. The lower fecundity and longer life cycle of the mite restrict its ability to exploit temporarily suitable habitat. Thus the intersect of mites with flies is a sensitive measure of stability in the algal mat. Springs with a variable-flow pattern and consequent mat instability had both a lower mean incidence of parasitism and a lower mean larval load per fly. The data support our hypothesis that the abundance and relative densities of organisms in higher trophic levels can be predicted from knowledge of the growth and stability patterns of the filamentous blue-green algal mat in thermal spring effluents.
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Wiegert, R.G., Mitchell, R. Ecology of yellowstone thermal effluent systems: Intersects of blue-green algae, grazing flies (Paracoenia, Ephydridae) and water mites (Partnuniella, Hydrachnellae). Hydrobiologia 41, 251–271 (1973). https://doi.org/10.1007/BF00016450
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DOI: https://doi.org/10.1007/BF00016450