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Estimating Survival and Recruitment in a Freshwater Mussel Population Using Mark-recapture Techniques

American Midland Naturalist

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Abstract

We used a mark-recapture method and model averaging to estimate apparent survival, recruitment and rate of population growth in a native freshwater mussel population at a site on the Cacapon River, which is a tributary to the Potomac River. Over 2200 Elliptio complanata, E. fisheriana and Lampsilis cariosa were uniquely tagged over a period of 4 y. Recapture probabilities were higher in spring and summer than in winter except for L. cariosa which had a low probability of recapture regardless of time of year. All three species had high annual adult survival rates (>90%) with lower estimated survival of small (???55 mm) mussels (43%-69%). The variation in apparent survival over time was similar for all three species. This suggests that whatever environmental variables affect survival of mussels in this site affected all three species the same. Recruitment rates were low (1-4%) for both E. complanata and L. cariosa, with E. fisheriana having several periods of high (15-23%) recruitment. Distribution within the site was affected by both downstream and upstream movement, though movement rates were generally <1%. Average population growth rates for E. complanata (?? = 0.996, SE = 0.053), L. cariosa (?? = 0.993, SE = 0.076) and E. fisheriana (?? = 1.084, SE = 0.276) indicated static populations. Population growth rate approximating 1.0 suggests this site supports a stable freshwater mussel population through a life history strategy of low but constant recruitment and high annual adult survival.

Additional Publication Details

Publication type:
Article
Publication Subtype:
Journal Article
Title:
Estimating Survival and Recruitment in a Freshwater Mussel Population Using Mark-recapture Techniques
Series title:
American Midland Naturalist
Volume
151
Issue:
1
Year Published:
2004
Language:
English
Larger Work Type:
Article
Larger Work Subtype:
Journal Article
First page:
114
Last page:
133
Number of Pages:
20