Robert N. Coulson scite author profile

The expansion of Africanized honeybees from South America to the southwestern United States in Ͻ50 years is considered one of the most spectacular biological invasions yet documented. In the American tropics, it has been shown that during their expansion Africanized honeybees have low levels of introgressed alleles from resident European populations. In the United States, it has been speculated, but not shown, that Africanized honeybees would hybridize extensively with European honeybees. Here we report a continuous 11-year study investigating temporal changes in the genetic structure of a feral population from the southern United States undergoing Africanization. Our microsatellite data showed that (1) the process of Africanization involved both maternal and paternal bidirectional gene flow between European and Africanized honeybees and (2) the panmitic European population was replaced by panmitic mixtures of A. m. scutellata and European genes within 5 years after Africanization. The post-Africanization gene pool (1998)(1999)(2000)(2001) was composed of a diverse array of recombinant classes with a substantial European genetic contribution (mean 25-37%). Therefore, the resulting feral honeybee population of south Texas was best viewed as a hybrid swarm.T HE evolutionary significance of natural hybridizaOur study of hybridization, which deals with one of tion has been debated for decades (Mayr 1942

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Temporal Pattern of Africanization in a Feral Honeybee Population From Texas Inferred From Mitochondrial Dna

Pinto¹,

Rubink²,

Coulson³

et al. 2004

Evol

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Abstract. The invasion of Africanized honeybees (Apis mellifera L.) in the Americas provides a window of opportunity to study the dynamics of secondary contact of subspecies of bees that evolved in allopatry in ecologically distinctive habitats of the Old World. We report here the results of an 11-year mitochondrial DNA survey of a feral honeybee population from southern United States (Texas). The mitochondrial haplotype (mitotype) frequencies changed radically during the 11-year study period. Prior to immigration of Africanized honeybees, the resident population was essentially of eastern and western European maternal ancestry. Three years after detection of the first Africanized swarm there was a mitotype turnover in the population from predominantly eastern European to predominantly A. m. scutellata (ancestor of Africanized honeybees). This remarkable change in the mitotype composition coincided with arrival of the parasitic mite Varroa destructor, which was likely responsible for severe losses experienced by colonies of European ancestry. From 1997 onward the population stabilized with most colonies of A. m. scutellata maternal origin.

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Spatial and Temporal Distribution and Nest Site Characteristics of Feral Honey Bee (Hymenoptera: Apidae) Colonies in a Coastal Prairie Landscape

2005

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Robert N. Coulson

Modeling Insect Development Rates: a Literature Review and Application of a Biophysical Model

Modeling Distributions of Insect Development Time: a Literature Review and Application of the Weibull Function

Population Dynamics of Bark Beetles

Bark beetle olfaction—II. Antennal morphology of sixteen species of Scolytidae (Coleoptera)

Multiple-cohort Approach for Simulating Development of Insect Populations under Variable Temperatures

Africanization in the United States

Temporal Pattern of Africanization in a Feral Honeybee Population From Texas Inferred From Mitochondrial Dna

Spatial and Temporal Distribution and Nest Site Characteristics of Feral Honey Bee (Hymenoptera: Apidae) Colonies in a Coastal Prairie Landscape

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