Land tenure and landscape change:a comparison of public-private lands in the southern High Plains

Introduction:Long-term drought in the southern Great Plains increases the vulnerability of coupled human-environment systems at a variety of scales.Developing better understandings of the dynamics at regional scales will become increasingly important as long-established land-use regimes break down in the face of climate change,resource depletion,and evolving governance.To demonstrate differential vulnerability during drought periods,this study hypothesized that observed increases in woody vegetation in grasslands would vary across land-tenure regimes.We argue that differences in State Trust Land governance,in part,lead to differential land management practices that contribute to landscape change.Methods:The study area encompasses adjacent counties,Cimarron County in Oklahoma and Union County in New Mexico,with similar climate variability and agricultural economies.We analyzed National Land Cover Database(NLCD)land-cover maps from 1992 and 2011 to assess changes in landscape composition and structure between 1992 and 2011.Results:During both years under consideration,each county in the study region,across various land-tenure regimes,was dominated by herbaceous vegetation.However,there were changes in both composition and structure across the whole study area,in particular losses of herbaceous vegetation and increases in woody vegetation.The greatest gains in woody vegetation occurred in State Trust Lands of Cimarron County.Overall,the data suggest a fragmentation of herbaceous vegetation and a coalescing of shrubland patches.Conclusions:Research about the influence of land tenure on land management decisions,specifically the role of State Trust Land leases in overgrazing,informs the broader context of drought management in the southern Great Plains.Recommendations include continued research to highlight the specific mechanisms of land-tenure governance that drive landscape change.

Exploring novel candidate genes from the Mouse Genome Informatics database: Potential implications for avian migration research

To search for genes associated with migratory phenotypes in songbirds,we selected candidate genes through annotations from the Mouse Genome Informatics database and assembled an extensive candidate-gene library.Then,we implemented a next-generation sequencing approach to obtain DNA sequences from the Painted Bun­ting genome.We focused on those sequences that were conserved across avian species and that aligned with candidate genes in our mouse library.We genotyped short sequence repeats from the following candidate genes:ADRA1d,ANKRD17,CISH and MYH7.We studied the possible correlations between allelic variations occur­ring in these novel candidate migration genes and avian migratory phenotypes available from the published lit­erature.We found that allele variation at MYH7 correlated with a calculated index of speed of migration(km/day)across 11 species of songbirds.We highlight the potential of the Mouse Genome Informatics database in providing new candidate genes that might play a crucial role in regulating migration in birds and possibly in other taxa.Our research effort shows the benefits and limitations of working with extensive genomic datasets and offers a snapshot of the challenges related to cross-species validation in behavioral and molecular ecology studies.