Julia G. Smith scite author profile

Context In human-dominated landscapes, habitat fragmentation and barriers to movement can interrupt gene flow. While often considered at a local extent, regional analyses are also needed to reveal broader landscape-mediated population processes. Objectives To explore the relationship between patterns of gene flow and fragmentation resulting from urbanization across southern California, we used the bobcat as an indicator species. We assembled data for a landscape level genetic analysis across southern California from both archived and new samples, including two northern Californian populations for comparison, to identify local and regional areas affected by isolation. Methods Our regional analyses focused on a dataset of 19 microsatellite loci for 118 individuals and a dataset of 422 individuals genotyped at 11 loci. We examined population genetic structure and examined how pairwise genetic distance of all population clusters aligned with geographic distance. We employed a landscape genetic analysis based on resistance to determine which features of the Electronic supplementary material The online version of this article (

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Bobcats in southern California respond to urbanization at multiple scales

Schmidt

Jennings

Smith

et al. 2023

Biological Conservation

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Sampling across 20 years (1996–2017) reveals loss of diversity and genetic connectivity in the Coachella Valley fringe-toed lizard (<i>Uma inornata</i>)

Vandergast¹,

Wood²,

Fisher³

et al. 2019

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Management actions that increase genetic diversity could be implemented, including translocation. We modeled increasing gene flow between 1-10 percent, which showed that allelic richness could increase rapidly if translocated individuals can survive and reproduce. Establishing translocation protocols could help to avoid the high mortality that has occurred with other reptile translocations. Successful translocations could be a useful strategy to replenish lost genetic diversity after bottlenecks and could mitigate the loss of natural gene flow among populations.

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Recent declines in genetic diversity with limited dispersal among coastal cactus wren populations in San Diego County, California

Vandergast

Kus

Smith

et al. 2022

Conservat Sci and Prac

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Habitat loss and fragmentation can lead to smaller and more isolated populations and reduce genetic diversity and evolutionary potential. Conservation programs can benefit from including monitoring of genetic factors in fragmented populations to help inform restoration and management. We assessed genetic diversity and structure among four major populations of the Cactus Wren (Campylorhynchus brunneicapillus) in San Diego County in 2011–2012 and again in 2017–2019, using 22 microsatellite loci. We found a significant decline in heterozygosity in one population (San Pasqual) and a decline in allelic richness and effective population size in another (Sweetwater). Genetic diversity in the remaining two populations was not significantly different over time. Local diversity declined despite evidence of dispersal among some populations. Approximately 12% of genetically determined family groups (parents, offspring, siblings) included one or more members sampled in different territories with distances ranging from 0.2 to 10 km. All but one inferred dispersal events occurred within the same genetic population. Population structure remained relatively stable, although genetic differentiation tended to increase in the later sampling period. Simulations suggest that at currently estimated effective sizes, populations of Cactus Wrens will continue to lose genetic diversity for many generations, even if gene flow among them is enhanced. However, the rate of loss of heterozygosity could be reduced with increased gene flow. Habitat restoration may help bolster local population sizes and allelic richness over the long term, whereas translocation efforts from source populations outside of San Diego may be needed to restore genetic diversity in the short term.

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DNA fingerprinting of Southern Mule Deer (Odocoileus hemionus fuliginatus) in North San Diego County, California (2018-19)

Mitelberg¹,

Smith²,

Vandergast³

2019

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Julia G. Smith

Carnivore population structure across an urbanization gradient: a regional genetic analysis of bobcats in southern California

Bobcats in southern California respond to urbanization at multiple scales

Sampling across 20 years (1996–2017) reveals loss of diversity and genetic connectivity in the Coachella Valley fringe-toed lizard (<i>Uma inornata</i>)

Recent declines in genetic diversity with limited dispersal among coastal cactus wren populations in San Diego County, California

DNA fingerprinting of Southern Mule Deer (Odocoileus hemionus fuliginatus) in North San Diego County, California (2018-19)

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