Randy W. DeYoung, Erin M. Wehland, Damon L

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Genetic Structure and Diversity in South Texas Bobwhites: Implications for Conservation Randy W. DeYoung, Erin M. Wehland, Damon L. Williford, Angeline Zamorano, Joseph P. Sands, Leonard A. Brennan, Fidel Hernández, Stephen J. DeMaso, and Robert M. Perez

Meet the Northern Bobwhite… Twenty-two subspecies Ground-dwelling upland bird About 200 g Short-lived (1 yr) High reproductive rate Relatively sedentary

Bobwhite population trends Range-wide decline Changes in land-use Huntable populations in Texas, Georgia-Florida 1978 1987 1997 Changes in quail density (Peterson et al. 2006)

Bobwhite population trends “Boom and bust” population dynamics Winter densities varied 6-fold during 10-yr period (Lehmann 1984) 1.4 to 8.2 ha × quail-1

Precipitation drives populations

Bobwhite population trends Cyclic behavior Region-wide South Texas Edwards Plateau Rolling Plains Five-year periods Lusk et al. 2007

Bobwhite population dynamics Sustaining populations found only in extensive areas of contiguous habitat When habitat patches are altered or fragmented to some (presently unknown) threshold level, populations collapse

South Texas quail populations… Effects of land-use, dynamics at regional scale Management at local scale How do local—regional dynamics function? Local Local Regional Local Local Local Local

Population dynamics and structure Low dispersal, high turnover Genetic structure high Genetic diversity low or variable Differentiation of populations Turnover Dispersal among populations (-) Total (metapopulation) genetic variation (+) Long term Modified from Harrison & Hastings (1996)

Population dynamics and structure Estimate diversity and population structure Large-scale investigation Infer effects of population dynamics, connectivity Harrison & Hastings 1996

Populations used in genetic analyses

DNA extraction and amplification Extracted DNA using a commercial kit Sequenced 380bp portion of mtDNA control region Amplified 7 microsatellite DNA loci using PCR

Data analysis mtDNA data (380 bp) Microsatellite data (7 loci) Haplotype diversity AMOVA Minimum spanning network Microsatellite data (7 loci) Gene and allelic diversity Pairwise FST , exact test of differentiation Spatial autocorrelation

Haplotype diversity Haplotype diversity Site Error bars are +/- 1 SE 21 sites N = 8 to 12 per site Site

Minimum spanning network: Relationships among haplotypes

The 2 most common haplotypes were widely distributed…

AMOVA for mtDNA data 21 sites N = 190 FST= 0.037

Microsatellite diversity and population structure Sampled 24 sites, 567 individuals Observed heterozygosity = 0.58 Range: 0.39 to 0.86 13 alleles/ locus Range: 7 to 19 alleles Low structure Fst < 0.01 Exact tests non-significant Pairwise Fst non-significant

AMOVA for microsatellite data 24 sites N = 567 FST < 0.01

Implies sites within 50 km are non-independent Intercept at ~50 km Implies sites within 50 km are non-independent Assume diameter of a local population is 50 km…. Corresponds to an area of 1,964 km2 or 502,655 ac

Population dynamics, diversity and structure Low differentiation, high diversity Importance of dispersal? Role of population turnover? Life history, dispersal, and genetic variation…. Differentiation of populations Turnover Dispersal among populations (-) Total (metapopulation) genetic variation (+) (-) or (+) Long term Modified from Harrison & Hastings (1996)

Implications for bobwhites Theoretical predictions for high-turnover populations: should be good dispersers Otherwise, bottlenecks, stochastic events Dispersal more important than previously realized? Maintain genetic variability, minimize structure Do bobwhites fit a metapopulation model? Re-colonization and extinction dynamics Counterbalance local extinctions during boom-bust

Implications for bobwhites One of the most studied, managed species Populations continue to decline Extant populations occupy intact habitats Large continuous sections of suitable habitat Uninterrupted patterns of dispersal Habitat fragmentation = no re-colonization? Local populations eventually extirpated through stochastic events

Implications for bobwhites Most current management is site-specific If dispersal is critical to bobwhite populations, small-scale management may be insufficient To halt or reverse the Northern Bobwhite decline, a shift to large-scale management of habitat resources that provide usable space may be required (Williams et al. 2004).

Acknowledgements Texas Parks and Wildlife Department Richard M. Kleberg, Jr. Center for Quail Research South Texas Quail Associates Program C. Berdon Lawrence, Lawrence Family Foundation C. C. Winn Endowed Chair for Quail Research Alfred C. Glassell, Jr. Endowed Professorship for Quail Research