Self-fertilization, larval dispersal, and population structure in the marine Bryozoan Bugula stolonifera

Self-fertilization, larval dispersal, and pop ...
Collin Hauer Johnson, Collin H ...
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Last edited by MARC Bot
September 12, 2024 | History

Self-fertilization, larval dispersal, and population structure in the marine Bryozoan Bugula stolonifera

Although the process by which fertilization occurs in bryozoans is well described, the ability to self-fertilize and the subsequent ecological consequences are poorly understood. Culturing experiments were conducted examining the effects of selfing on offspring survival and reproduction in the simultaneous hermaphrodite Bugula stolonifera collected from Eel Pond, Woods Hole, MA. Results from these experiments document significant decreases in survival and fecundity of selfed offspring, compared to outcrossed controls, suggesting that these animals are not routinely self-fertilizing in Eel Pond. How these arborescent colonies minimize selfing remains unclear, but it is hypothesized that conspecific aggregations could serve to minimize the chances that a colony utilizes its own sperm for fertilization. The genetic composition of these aggregations was investigated using a newly developed microsatellite library. As larvae routinely metamorphose on conspecific colonies, the possibility that larvae select or avoid their maternal colony was also investigated. Analyses of genetic structure document homogeneity throughout these aggregations on extremely small spatial scales, suggesting high amounts of larval dispersal within aggregations. When combined with results from parentage-exclusion and kinship analyses, these results indicate that a colony's nearest neighbors are not composed of siblings, potentially minimizing inbreeding.

Publish Date
Publisher
Harvard University
Language
English
Pages
129

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Edition Notes

Thesis advisor: Robert M. Woollacott.

Submitted to: Dept. of Organismic and Evolutionary Biology.

"May 2012."

Thesis (Ph.D., Dept. of Organismic and Evolutionary Biology)--Harvard University, 2012.

Includes bibliographical references.

Published in
Cambridge, Mass

The Physical Object

Pagination
129 leaves
Number of pages
129

Edition Identifiers

Open Library
OL43904841M
OCLC/WorldCat
794702484

Work Identifiers

Work ID
OL32166393W

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