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Predicting the Probability of Outbreeding Depression
Authors:RICHARD FRANKHAM  JONATHAN D. BALLOU  MARK D. B. ELDRIDGE  ROBERT C. LACY  KATHERINE RALLS  MICHELE R. DUDASH  CHARLES B. FENSTER
Affiliation:1. Department of Biological Sciences, Macquarie University, NSW 2109, Australia, email richard.frankham@mq.edu.au;2. Australian Museum, 6 College Street, Sydney, NSW 2010, Australia;3. Center for Conservation and Evolutionary Genetics, Smithsonian Conservation Biology Institute, Smithsonian Institution, Washington, D.C. 20008, U.S.A.;4. Chicago Zoological Society, Brookfield, IL 60513, U.S.A.;5. Department of Biology, University of Maryland, College Park, MD 20742, U.S.A.
Abstract:Abstract: Fragmentation of animal and plant populations typically leads to genetic erosion and increased probability of extirpation. Although these effects can usually be reversed by re‐establishing gene flow between population fragments, managers sometimes fail to do so due to fears of outbreeding depression (OD). Rapid development of OD is due primarily to adaptive differentiation from selection or fixation of chromosomal variants. Fixed chromosomal variants can be detected empirically. We used an extended form of the breeders’ equation to predict the probability of OD due to adaptive differentiation between recently isolated population fragments as a function of intensity of selection, genetic diversity, effective population sizes, and generations of isolation. Empirical data indicated that populations in similar environments had not developed OD even after thousands of generations of isolation. To predict the probability of OD, we developed a decision tree that was based on the four variables from the breeders’ equation, taxonomic status, and gene flow within the last 500 years. The predicted probability of OD in crosses between two populations is elevated when the populations have at least one of the following characteristics: are distinct species, have fixed chromosomal differences, exchanged no genes in the last 500 years, or inhabit different environments. Conversely, the predicted probability of OD in crosses between two populations of the same species is low for populations with the same karyotype, isolated for <500 years, and that occupy similar environments. In the former case, we recommend crossing be avoided or tried on a limited, experimental basis. In the latter case, crossing can be carried out with low probability of OD. We used crosses with known results to test the decision tree and found that it correctly identified cases where OD occurred. Current concerns about OD in recently fragmented populations are almost certainly excessive.
Keywords:adaptive differentiation  chromosomes  effective population size  genetic diversity  genetic rescue  habitat fragmentation  outbreeding depression  polyploid  cromosomas  depresió  n exogá  mica  diferenciació  n adaptativa  diversidad gené  tica  fragmentació  n de há  bitat  poliploide  rescate gené  tico  tamañ  o poblacional efectivo
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