Dispersal, Boundary Processes, and Trophic‐Level Interactions in Streams Adjacent to Beaver Ponds

I combined long—term (10 yr) descriptive and short—term experimental studies in a headwater stream in northern Minnesota to assess: (1) the effect of annual variation in stream discharge and spatial proximity of beaver (Castor canadensis) ponds on lotic fish abundance and (2) the subsequent influenc...

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Bibliographic Details
Published in:Ecology (Durham) 1995-04, Vol.76 (3), p.908-925
Main Author: Schlosser, Isaac J.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
beaver ponds
Beavers
Behavior
Biological and medical sciences
Biotic communities
boundary processes
Castor canadensis
colonization
Creeks
Ecology
Ecosystems
Fish
fish assemblages
fish dispersal
Fishes
Fresh water ecosystems
Freshwater
Freshwater ecology
Fundamental and applied biological sciences. Psychology
Habitat (Ecology)
Invertebrates
landscape ecology
lotic ecosystems
Minnesota
Minnows
Pisces
Ponds
Predation
Predation (Biology)
predator-prey interactions
stream discharge
Stream habitats
Streams
Synecology
trophic-level interactions
Wildlife habitats
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Summary:I combined long—term (10 yr) descriptive and short—term experimental studies in a headwater stream in northern Minnesota to assess: (1) the effect of annual variation in stream discharge and spatial proximity of beaver (Castor canadensis) ponds on lotic fish abundance and (2) the subsequent influence of discharge and fish predation on lotic invertebrate colonization. Considerable annual variation in fish density occurred in the stream over the 10—yr period, particularly in pool habitats. Increased fish density was associated with increased stream discharge and creation of beaver ponds downstream from the study site. Wiegert traps used to monitor directional (upstream vs. downstream) fish movement during the last 4 yr of the study indicated annual changes in fish density were associated with the amount of fish dispersal occurring along the stream segment. Downstream fish movement, out of an upstream beaver pond occurred primarily during periods of elevated stream discharge. Upstream movement, out of a downstream beaver pond, occurred over a broader range of discharge conditions. A controlled, "slpit—stream," experiment examining the effect of very low vs. elevated discharge on upstream fish movement indicated, however, that upstream movement of fish out of beaver ponds was also reduced by very low discharge conditions. Movement data for individual fish species revealed considerable variation among the taxa in the tendency for downstream vs. upstream movement, due to variation in the morphology of upstream vs. downstream beaver ponds and its subsequent effects on the composition of fish dispersing from these source areas. Most fish movement occurred over relatively brief time periods, suggesting life history and developmental processes were critical in influencing the timing of dispersal. Size structure of fishes captured in the stream indicated predominantly older age classes (>age I) of fish where dispersing along the stream. However, based on the occurrence of age O individuals only 1 of 12 species, the creek chub Semotilus atromaculatus), routinely reproduced in the stream. Experiments conducted in an artificial stream located below one of the beaver ponds indicated discharge and fish predation have potentially strong and interactive effects on invertebrate colonization in stream ecosystems. Differences in colonization of riffles and pools under low vs. elevated discharge and fish vs. no—fish treatments suggested, however, that the interactive effect of
ISSN:0012-9658
1939-9170
DOI:10.2307/1939356