TY - JOUR
T1 - Localized extinction of an arboreal desert lizard caused by habitat fragmentation
AU - Munguia-Vega, Adrian
AU - Rodriguez-Estrella, Ricardo
AU - Shaw, William W.
AU - Culver, Melanie
N1 - Funding Information:
We thank the Cota family (Abelino, Enrique, Franco) and specially Bruno Granados for their invaluable help trapping lizards. AMV was supported during the execution of this work by Consejo Nacional de Ciencia y Tecnologia (CONACyT; 158622), the Wallace Research Foundation and The David and Lucile Packard Foundation. This work was possible by projects funded by CONACYT-SEMARNAT (2002-C01-0317) and CIBNOR S.C. to RRE, and by the following scholarships to AMV: William A. Calder III, William G. McGinnies, Rick F. Seegmiller (University of Arizona), Charles H. Lowe (Tucson Herpetological Society), Jiji Foundation. RRE received a sabbatical grant in the EBD, Spain, during the writing of this manuscript. We deeply thank Michael W. Nachman and three anonymous reviewers for improving the quality of this manuscript. Research protocol was approved by IACUC (09-119) and sampling was conducted under permit FAUT-0055.
PY - 2013/1
Y1 - 2013/1
N2 - We adopted a species' perspective for predicting extinction risk in a small, endemic, and strictly scansorial lizard (Urosaurus nigricaudus), in an old (∼60. year) and highly fragmented (8% habitat remaining) agricultural landscape from the Sonoran Desert, Mexico. We genotyped 10. microsatellite loci in 280 individuals from 11 populations in fragmented and continuous habitat. Individual dispersal was restricted to less than 400. m, according to analyses of spatial autocorrelation and spatially explicit Bayesian assignment methods. Within this scale, continuous areas and narrow washes with native vegetation allowed high levels of gene flow over tens of kilometers. In the absence of the native vegetation, cleared areas and highways were identified as partial barriers. In contrast, outside the scale of dispersal, cleared areas behaved as complete barriers, and surveys corroborated the species went extinct after a few decades in all small (less than 45. ha), isolated habitat fragments. No evidence for significant loss of genetic diversity was found, but results suggested fragmentation increased the spatial scale of movements, relatedness, genetic structure, and potentially affected sex-biased dispersal. A plausible threshold of individual dispersal predicted only 23% of all fragments in the landscape were linked with migration from continuous habitat, while complete barriers isolated the majority of fragments. Our study suggested limited dispersal, coupled with an inability to use a homogeneous and hostile matrix without vegetation and shade, could result in frequent time-delayed extinctions of small ectotherms in highly fragmented desert landscapes, particularly considering an increase in the risk of overheating and a decrease in dispersal potential induced by global warming.
AB - We adopted a species' perspective for predicting extinction risk in a small, endemic, and strictly scansorial lizard (Urosaurus nigricaudus), in an old (∼60. year) and highly fragmented (8% habitat remaining) agricultural landscape from the Sonoran Desert, Mexico. We genotyped 10. microsatellite loci in 280 individuals from 11 populations in fragmented and continuous habitat. Individual dispersal was restricted to less than 400. m, according to analyses of spatial autocorrelation and spatially explicit Bayesian assignment methods. Within this scale, continuous areas and narrow washes with native vegetation allowed high levels of gene flow over tens of kilometers. In the absence of the native vegetation, cleared areas and highways were identified as partial barriers. In contrast, outside the scale of dispersal, cleared areas behaved as complete barriers, and surveys corroborated the species went extinct after a few decades in all small (less than 45. ha), isolated habitat fragments. No evidence for significant loss of genetic diversity was found, but results suggested fragmentation increased the spatial scale of movements, relatedness, genetic structure, and potentially affected sex-biased dispersal. A plausible threshold of individual dispersal predicted only 23% of all fragments in the landscape were linked with migration from continuous habitat, while complete barriers isolated the majority of fragments. Our study suggested limited dispersal, coupled with an inability to use a homogeneous and hostile matrix without vegetation and shade, could result in frequent time-delayed extinctions of small ectotherms in highly fragmented desert landscapes, particularly considering an increase in the risk of overheating and a decrease in dispersal potential induced by global warming.
KW - Ectotherm
KW - Extinction
KW - Global warming
KW - Microsatellites
KW - Overheating
KW - Reptile
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U2 - 10.1016/j.biocon.2012.06.026
DO - 10.1016/j.biocon.2012.06.026
M3 - Article
AN - SCOPUS:84869873533
SN - 0006-3207
VL - 157
SP - 11
EP - 20
JO - Biological Conservation
JF - Biological Conservation
ER -