Genetic structure and evolution of a fire ant hybrid zone

Two introduced fire ants, Solenopsis invicta and S. richteri, hybridize over an extensive area in the United States spanning central Mississippi, Alabama, and western Georgia. We studied a portion of this hybrid zone in northwestern Mississippi in detail by sampling ants at many sites along two tran...

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Bibliographic Details
Published in:Evolution 1996-10, Vol.50 (5), p.1958-1976
Main Authors: DeWayne, D. (University of Georgia, Athens, GA.), Ross, K.G, Arnold, M.L
Format: Article
Language:English
Subjects:
Alleles
COLONIALISM
COLONIALISME
COLONIALISMO
Ecological competition
EVOLUCION
EVOLUTION
Evolutionary genetics
extrinsic selection
Fire ants
Formicidae
GENE
GENE FREQUENCY
GENES
Genetic aspects
Genetic loci
GENETIC MARKERS
Genetics
GENOTIPOS
GENOTYPE
GENOTYPES
HIBRIDACION
HIBRIDOS
hybrid fitness
HYBRIDATION
HYBRIDE
Hybridity
HYBRIDIZATION
HYBRIDS
Insect genetics
Insects
MARCADORES GENETICOS
MARQUEUR GENETIQUE
Mile markers
MISSISSIPPI
mosaic hybrid zone
natural hybrid zones
SELECCION
SELECTION
SOLENOPSIS INVICTA
SOLENOPSIS RICHTERI
SPATIAL DISTRIBUTION
State highways
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Summary:Two introduced fire ants, Solenopsis invicta and S. richteri, hybridize over an extensive area in the United States spanning central Mississippi, Alabama, and western Georgia. We studied a portion of this hybrid zone in northwestern Mississippi in detail by sampling ants at many sites along two transects extending across the zone and examining gene frequency and size distributions at a large number of genetic and morphological markers. The distributional patterns at these markers are most consistent with the mosaic hybrid zone model, whereby the distribution of various fire ant genotypes is determined initially by the historical patterns of colonization of newly available habitats. However, these distributional patterns probably do not reflect the equilibrium state of interactions because of the very recent secondary contact of the species (< 60 yr) and the dynamic nature of available nesting habitats in this area. Our data suggest that, with prolonged contact and interaction, differential fitness of various hybrid genotypes due to intrinsic and extrinsic selective factors is important in structuring the hybrid zone. For instance, consistent differential introgression of morphological and genetic markers, combined with previous evidence of differences in developmental stability among genotypes, suggest reduced fitness of hybrids relative to parentals due to intrinsic selection (as may be caused by breakup of parental gene complexes). Furthermore, marked reductions in the occurrence of parental-like hybrids in areas where the similar parental species is common suggest reduced fitness of these parental-like hybrids in competition with the parentals (i.e., extrinsic selection). Because the relative roles of such deterministic as well as stochastic forces apparently vary both spatially and temporally, the eventual distribution of the various fire ant genotypes and the fate of the hybrid zone in the United States is difficult to predict.
ISSN:0014-3820
1558-5646
DOI:10.1111/j.1558-5646.1996.tb03583.x