Bridget M. Frederick scite author profile

Bridget M. Frederick

3Publications

10Citation Statements Received

45Citation Statements Given

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Affiliations

Armstrong Atlantic State University, Georgia Southern University

Publications

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Fire Increases Genetic Diversity of Populations of Six-Lined Racerunner

Ragsdale¹,

Frederick²,

Dukes³

et al. 2016

JHERED

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Wildfires are highly variable and can disturb habitats, leading to direct and indirect effects on the genetic characteristics of local populations. Florida scrub is a fire-dependent, highly fragmented, and severely threatened habitat. Understanding the effect of fire on genetic characteristics of the species that use this habitat is critically important. We investigated one such lizard, the Six-lined Racerunner (Aspidoscelis sexlineata), which has a strong preference for open areas. We collected Six-lined Racerunners (n = 154) from 11 sites in Highlands County, FL, and defined 2 time-since-last-fire (TSF) categories: recently burned and long unburned. We screened genetic variation at 6 microsatellites to estimate genetic differentiation and compare genetic diversity among sites to determine the relationship with TSF. A clear pattern exists between genetic diversity and TSF in the absence of strong genetic differentiation. Genetic diversity was greater and inbreeding was lower in sites with more recent TSF, and genetic characteristics had significantly larger variance in long unburned sites compared with more recently burned sites. Our results suggest that fire suppression increases variance in genetic characteristics of the Six-lined Racerunner. More generally, fire may benefit genetic characteristics of some species that use fire-dependent habitats and management efforts for such severely fragmented habitat will be challenged by the presence of multiple species with incompatible fire preferences.

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Evidence that Kenyan House Sparrows Passer domesticus invaded from multiple sites

Schrey

Ragsdale

Adams

et al. 2019

Ibis

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Here we characterize genetic patterns across the range of House Sparrows in Kenya using six microsatellite markers. We screened House Sparrows from two remote locations in northern Kenya, Marsabit (n = 24) and Wajir (n = 27), which are separated from other colonized areas in Kenya by minimally developed, arid habitat, and then compared these birds with House Sparrows in 10 more central and longer established Kenyan cities (n = 233) in this range. House Sparrows from Marsabit and Wajir originated from a separate source, probably Somalia and/or Ethiopia, from other Kenyan House Sparrows, probably Mombasa. Furthermore, the genetic characteristics of northern and southern populations indicate that they have not yet mixed, supporting a hypothesis that the large, minimally (human) developed, arid landscape spanning nearly all of northern Kenya, including the 100 000 km2 Chalbi Desert, is a barrier to dispersal for House Sparrows.

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Genetic structure of Pseudococcus microcirculus (Hemiptera: Pseudococcidae) populations on epiphytic orchids in south Florida

Zettler

Adams

Frederick

et al. 2017

J Genet

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In 2012, the orchid mealy bug Pseudococcus microcirculus was first detected in situ in North America's more diverse orchid region, the Big Cypress Basin (Collier Co FL). A follow-up survey showed that the mealy bug is more widespread and found on epiphytic orchids in two locations, in both the Fakahatchee Strand State Preserve (sites B and F) and the Florida Panther National Wildlife Refuge (sites M and C). There, we collected mealy bugs (n = 54) from 35 orchid individuals and screened allelic variation at seven microsatellite loci. We estimated genetic diversity and differentiation among all sites and compared the variation among individuals collected on the same plant. Genetic differentiation between sites M and C (F = 0.03, P < 0.01) and,Mand B (F = 0.04, P < 0.01) was detected.We also detected significantly lower mean pairwise relatedness among individuals from site B compared to all the other locations, and this population had the lowest inbreeding coefficient. Genetic diversity and mean pairwise relatedness were highly variable among plants with multiple individuals; however, plants from sites F and M tend to have collections of individuals with higher mean pairwise relatedness compared to sites B and C. Our results indicate that there is genetic diversity and differentiation among mealy bugs in these locations, and that collections of individuals on the same plant are genetically diverse. As such, the mealy bugs throughout these areas are likely to be genetically diverse and exist in multiple distinct populations.

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