Morphological and genetic variation of black-tailed jackrabbit (Lepus californicus) populations separated by rivers

Autores/as

  • Consuelo Lorenzo Departamento de Conservación de la Biodiversidad, El Colegio de la Frontera Sur.
  • Maricela García-Bautista Laboratorio de Genética, El Colegio de la Frontera Sur.
  • Coral Rosas-Ronzón Departamento de Conservación de la Biodiversidad, El Colegio de la Frontera Sur.
  • Sergio Ticul Álvarez-Castañeda Centro de Investigaciones Biológicas del Noroeste.
  • David E. Brown School of Life Sciences, Arizona State University.

Palabras clave:

Baja California, black-tailed jackrabbit, genetic break, geometric morphometrics, México, phylogeny, Rio Conchos, Rio Nazas.

Resumen

Two rivers in the hot desert of northwestern México have been considered as filter barriers in the distribution of mammals: Río Conchos in Chihuahua and Río Nazas in Durango. Between both rivers, the black-tailed jackrabbit, Lepus californicus, shows significant differences in external morphological traits. We investigated if these differences are supported by phylogenetical signals and compared them with populations living at similar latitudes in the Baja California Peninsula to determine the importance of the genetic variation caused by the rivers. An external mophology, and a cranial geometric morphometric analysis were performed using the dorsal, ventral, and lateral views of the skull; and a genetic analysis of cytochrome b gene. Measurements and fur color patterns of specimens from two continental groups, north of Río Conchos (NRC) and south of Río Nazas (SRN), were compared to four groups (A-D) inhabiting different latitudes of the Baja California Peninsula (BCP). The parietal region, zygomatic arch, and auditory bullae were identified as the main cranial structures related to skull shape; however, no differences were observed in size and shape between groups. The phylogenetic reconstruction of L. californicus showed that it is a monophyletic species, with high branch support values (100). It is represented by two polyphyletic subclades, one with haplotypes of the SRN and NRC populations and the other with haplotypes of the BCP populations. The average genetic distance (p-distance) and genetic differentiation (FST) between SRN and NRC were low (0.8 % and 0.09, respectively), with higher mean values between the BCP groups (1.23 % and 0.30, respectively). The statistical parsimony network of Cyt b did not identify a clear geographic genetic structure between haplotypes of SRN and NRC and they did not share haplotypes with the BCP populations. There are neither cranial geometric morphometric nor genetic differences between L. californicus populations related to either the rios Conchos or Nazas; thus, these rivers cannot be considered geographic barriers. However, there are morphological differences between the populations in Chihuahua and Durango and the populations inhabiting Baja California Peninsula, which may be associated with evolutionary distance and local habitat characteristics.

Biografía del autor/a

Consuelo Lorenzo, Departamento de Conservación de la Biodiversidad, El Colegio de la Frontera Sur.

Departamento Conservación de la BiodiversidadGrupo Académico Ecología Evolutiva y Conservación

Maricela García-Bautista, Laboratorio de Genética, El Colegio de la Frontera Sur.

Laboratorio de Genética.

Coral Rosas-Ronzón, Departamento de Conservación de la Biodiversidad, El Colegio de la Frontera Sur.

Departamento de Conservación de la Biodiversidad

David E. Brown, School of Life Sciences, Arizona State University.

School of Life Sciences

Citas

ÁLVAREZ-CASTAÑEDA, S. T., AND C. LORENZO. 2017. Phylogeography and phylogeny of Lepus californicus (Lagomorpha:Leporidae) from Baja California Peninsula and adjacent islands. Biological Journal of the Linnean Society 121:15-27.

ANDERSON, S., AND A. S. GAUNT. 1962. A classification of the white-sided jackrabbits of Mexico. American Museum Novitates 2088:1-16.

ARRIAGA, L., C. AGUILAR, D. ESPINOSA-ORGANISTA, AND R. JIMÉNEZ. 1997. Regionalización ecológica y biogeográfica de México. Taller de la Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO). México City, México.

BAKER, R. H. 1956. Mammals of Coahuila, México. University of Kansas Publications, Museum of Natural History 9:125-335.

BAKER, R. H. 1977. Mammals of the Chihuahuan Desert region– future prospects. Pp. 221–225 in: Transactions of the symposium on the biological resources of the Chihuahuan Desert region, United States and Mexico (Wauer, H., and D. H. Riskind, eds.). United States National Park Service Transactions and Proceedings Series, 3.

BANDELT, H. J., P. FORSTERS, AND A. ROHL. 1999. Median joining networks for inferring intraespecific phylogenies. Molecular Biology and Evolution 16:37-48.

BEEVER, E. A., D. BROWN, AND C. LORENZO. 2018. Lepus californicus Gray, 1837 Black-tailed Jackrabbit. Pp. 170-173 in: Lagomorphs Pikas, Rabbits, and Hares of the World (Smith, A. T., Ch. H. Johnston, P. C. Alves, and K. Hackländer, eds.). Johns Hopkins University Press. Baltimore, U. S. A.

BOWERS, M. A., AND J. H. BROWN. 1982. Body size and coexistence in desert rodents: Chance or community structure. Ecology 63:391-400.

BROWN, D. E., C. LORENZO, AND M. B. TRAPHAGEN. 2018. Lepus callotis Wagler, 1830 White-sided Jackrabbit. Pp. 173-176 in: Lagomorphs Pikas, Rabbits, and Hares of the World (Smith, A. T., Ch. H. Johnston, P. C. Alves, and K. Hackländer, eds.). Johns Hopkins University Press. Baltimore, U. S. A.

BROWN, D. E., C. LORENZO, AND S. T. ÁLVAREZ-CASTAÑEDA. 2019. Lepus californicus. The IUCN Red List of Threatened Species 2019: e.T41276A45186309. http://dx.doi.org/10.2305/IUCN.UK.2019-1.RLTS.T41276A45186309.en

CAMARGO, I., AND S. T. ÁLVAREZ-CASTAÑEDA. 2020. A new species and three subspecies of the desert shrew (Notiosorex) from the Baja California peninsula and California. Journal of Mammalogy 101:872-886.

CORNEJO-LATORRE, C., P. CORTÉS-CALVA, AND S. T. ÁLVAREZ-CASTAÑEDA. 2017. The evolutionary history of the subgenus Haplomylomys (Cricetidae: Peromyscus). Journal of Mammalogy 98:1627-1640.

COX, P. G., E. J. RAYFIELD, M. J. FAGAN, A. HERREL, T. C. PATAKY, AND N. JEFFERY. 2012. Functional Evolution of the Feeding System in Rodents. PloS One 7:1-11.

DARRIBA, D., G. L. TABOADA, R. DOALLO, AND D. POSADA. 2012. “jModelTest 2: more models, new heuristics and parallel computingâ€. Nature Methods 9:772.

DAWSON, M. R. 1981. Evolution of modern leporids. Pp. 1-8 in, Proceedings of the World Lagomorph Conference (Myers, K., and C. D. MacInnes, eds.). University of Guelph Press, Ontario.

EDWARDS, C. W., C. F. FULHORST, AND R. D. BRADLEY. 2001. Molecular phylogenetics of the Neotoma albigula species group: further evidence of a paraphyletic assemblage. Journal of Mammalogy 82:267-279.

EXCOFFIER, L., G. LAVAL, AND S. SCHNEIDER. 2005. Arlequin ver 3.0: an integrated software package for populations genetics data analysis. Evolutionary Bioinformatics Online 1:47-50.

FELSENSTEIN, J. 1981. Evolutionary trees from DNA sequences: a maximum likelihood approach. Journal of Molecular Evolution 17:368-376.

FLINDERS, J. T., AND J. A. CHAPMAN. 2003. Black-tailed Jackrabbit (Lepus californicus and allies). Pp. 126-146 in: Wild Mammals of North America (Feldhamer, G. A., B. C. Thompson, and J. A. Chapman, eds.). John Hopkins University Press. Baltimore, U. S. A.

FLUXUS TECHNOLOGY LTD. 2004-2020. Free Phylogenetic Network Software © Copyright Fluxus Technology Ltd. London, England.

FRONTIER, S. 1976. Étude de la décroissance des valeurs propres dans une analyse en composantes principales: Comparaison avec le moddle du bâton brisé. Journal of Experimental Marine Biology and Ecology 25:67-75.

GE, D., L. YAO, L. XIA, Z. ZHANG, AND Q. YANG. 2015. Geometric morphometric analysis of skull morphology reveals loss of phylogenetic signal at the generic level in extant lagomorphs (Mammalia:Lagomorpha). Contributions to Zoology 84:267-284.

HAFNER, D. J., M. S. HAFNER, G. L. HASTY, T. A. SPRADLING, AND J. W. DEMASTES. 2008. Evolutionary relationship of pocket gophers (Cratogeomys castanops species group) of the Mexican Altiplano. Journal of Mammalogy 89:190-208.

HAFNER, D. J., AND B. R. RIDDLE. 2011. Boundaries and barriers of North American warm deserts: an evolutionary perspective. Pp. 75-113 in: Palaeogeography and paelobiogeography: diversity in space and time (Upchurch, P., A. J. McGowan, and C. S. Slater, eds.). CRC Press. Boca de Raton, U. S. A.

HALL, E. R. 1981. The Mammals of North America. John Wiley and Sons. New York, U.S.A.

HAMILTON, M., E. PINCUS, A. DI FIORE, AND R. C. FLEISCHER. 1999. Universal linker and ligation procedures for construction of genomic DNA libraries enriched for microsatellites. BioTechniques 27:500-507.

HAMMER, Ø., D. A. T. HARPER, AND P. D. RYAN. 2008. PAST Paleontological statistics, ver. 1.89. Paleontological Museum, University of Oslo. Available at: https://folk.uio.no/ohammer/past/index.html.

HOFFMEISTER, D. F., AND E. G. ZIMMERMAN. 1967. Growth of the skull in the cottontail (Sylvilagus floridanus) and its application to age determination. American Midland Naturalist 78:198-206.

HUELSENBECK, J. P, AND F. RONQUIST. 2001. MRBAYES: Bayesian inference of phylogeny. Bioinformatics 17:754-755.

JACKSON, D. A. 1993. Stopping rules in principal components analysis: A comparison of heuristical and statistical approaches. Ecology 74:2204-2214.

KLINGENBERG, C. P. 2011. MorphoJ: an integrated software package for geometric morphometrics. Molecular Ecology Resources 11:353-357.

KLINGENBERG, C. P. 2013. Cranial integration and modularity: insights into evolution and development from morphometric data. Hystrix 24: 43-58.

KLINGENBERG, C. P., AND J. MARUGAN-LOBON. 2013. Evolutionary covariation in geometric morphometric data: analyzing integration, modularity and allometry in a phylogenetic context. Systematic Biology 62:591-610.

KUMAR, S., G. STECHER, AND K. TAMURA. 2015. MEGA7: Molecular Evolutionary Genetics Analysis version 7.0. Molecular Biology and Evolution.

LIBRADO, P., AND J. ROZAS. 2009. DnaSP V5: A software for comprehensive analysis of DNA polymorphism data. Bioinformatics 25:1451-1452.

LORENZO, C., S. T. ÁLVAREZ-CASTAÑEDA, P. CORTÉS-CALVA, M. DE LA PAZ, AND J. E. BOLAÑOS. 2010. Status of an invading mainland jackrabbit on Cerralvo Island. Gulf of California. Western North American Naturalist 70:249-251.

LORENZO, C., T. M. RIOJA-PARADELA, A. CARRILLO-REYES, AND M. DE LA PAZ-CUEVAS. 2018. Insular Rabbits and Hares of Mexico. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad. México City, México.

MATTHEE, C. A., B. J. VAN VUUREN, D. BELL, AND T. J. ROBINSON. 2004. A molecular supermatrix of the rabbits and hares (Leporidae) allows for the identification of five intercontinental exchanges during the Miocene. Systematic Biology 53:433-477.

MCCARTHY, C. 1998, 2016. Chromas Version 2.4.4. School of Health Science, Griffith University. Quesland, Australia.

MELO-FERREIRA, J., AND P. C. ALVES. 2018. Systematics of Lagomorphs. Pp. 9-12 in: Lagomorphs. Pikas, Rabbits and Hares of the World (Smith, A. T., Ch. H. Johnston, P. C. Alves, and K. Hackländer, eds.). Johns Hopkins University Press. Baltimore, U.S.A.

NEISWENTER, S. A., AND B. R. RIDDLE. 2010. Diversification of the Perognathus flavus species group in emerging arid grasslands of western North America. Journal of Mammalogy 91:348-362.

NEISWENTER, S. A., D. J. HAFNER, J. E. LIGHT, G. D. CEPEDA, K. KINZER, L. F. ALEXANDER, AND B. R. RIDDLE. 2019. Phylogeography and taxonomic revision of Nelson’s pocket mouse (Chaetodipus nelsoni). Journal of Mammalogy 100:1847-1864.

PATTON, J. L. 1969. Chromosome evolution in the pocket mouse, Perognathus goldmani Osgood. Evolution 23:645-662.

PATTON, J. L., D. G. HUCKABY, AND S. T. ÁLVAREZ-CASTAÑEDA. 2007. The systematic and evolutionary history of woodrats of the Neotoma lepida complex. University of California Press. 135:1-411.

PETERSEN, M. K. 1976. The Rio Nazas as a factor in mammalian distribution in Durango, Mexico. The Southwestern Naturalist 20:495-502.

PETERSON, A. T., J. SOBERÓN, R. G. PEARSON, R. P. ANDERSON, E. MARTÍNEZ-MEYER, M. NAKAMURA, AND M. B. ARAÚJO. 2011. Ecological Niches and Geographic Distributions. Princeton University Press. Princeton, U.S.A.

RIDDLE, B. R., AND D. J. HAFNER. 2006. A step-wise approach to integrating phylogeographic and phylogenetic biogeographic perspectives on the history of a core North American warm deserts biota. Journal of Arid Environments 66:435-461.

RIDDLE, B. R., D. J. HAFNER, AND L. F. ALEXANDER. 2000a. Comparative phylogeography of Baileys’ pocket mouse (Chaetodipus baileyi) and the Peromyscus eremicus species group: historical vicariance of the Baja California Peninsular Desert. Molecular Phylogenetics and Evolution 17:161-172.

RIDDLE, B. R., D. J. HAFNER, AND L. F. ALEXANDER. 2000b. Phylogeography and systematics of the Peromyscus eremicus species group and the historical biogeography of North American warm regional deserts. Molecular Phylogenetics and Evolution 17:145-160.

ROHLF, F. J., AND D. E. SLICE. 1990. Extensions of the Procrustes method for the optimal superimposition of landmarks. Systematic Zoology 39:40-59.

ROHLF, F. J. 2017. tpsDig 2 Version 2.31. Ecology and Evolution and anthropology. Stony Brook Morphometrics. https://life.bio.sunysb.edu/ee/rohlf/software.html.

ROHLF, F. J. 2019. Ecology and Evolution and Anthropology. Stony Brook University. New York, U.S.A.

SIKES, R. S., AND THE ANIMAL CARE AND USE COMMITTEE OF THE AMERICAN SOCIETY OF MAMMALOGISTS. 2016. 2016 Guidelines of the American Society of Mammalogists for the use of wild mammals in research and education. Journal of Mammalogy 97:663-688.

SMITH, M. F. 1998. Phylogenetic relationships and geographic structure in pocket gophers in the genus Thomomys. Molecular Phylogenetics and Evolution 9:1-14.

SMITH, M. F., AND J. L. PATTON. 1993. The diversification of South American murid rodents: evidence from mitochondrial DNA sequence data for the akodontine tribe. Biological Journal of the Linnean Society 50:149-177.

SOBERÓN, J., AND A. T. PETERSON. 2005. Interpretation of models of fundamental ecological niches and species’ distributional areas. Biodiversity Informatics 2:1-10.

STATSOFT, INC. 2007. STATISTICA (data analysis software system), version 8.0. https://www.statsoft.com.

SWOFFORD, D. L. 2000. PAUP: Phylogenetic Analysis Using Parsimony, version 4.0b10. Sinauer. Sunderland, U.S.A.

THOMPSON, J. D., T. J. GIBSON, F. PLEWNIAK, F. JEANMOUGIN, AND D. G. HIGGINS. 1997. The ClustalX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research 25:4876-4882.

TOCCHIO, L. J., R. GURGEL-GONÇALVES, L. E. ESCOBAR, AND A. T. PETERSON. 2014. Niche similarities among white-eared opossums (Mammalia, Didelphidae): is ecological niche modelling relevant to setting species limits? Zoologica Scripta 44:1-10.

WALPOLE, D. K., S. K. DAVIS, AND I. F. GREENBAUM. 1997. Variation in mitochondrial DNA in populations of Peromyscus eremicus from the Chihuahuan and Sonoran deserts. Journal of Mammalogy 78:397-404.

WILGENBUSCH, J. C., D. L. WARREN, AND D. L. SWOFFORD. 2004. AWTY: a system for graphical exploration of MCMC convergence in Bayesian phylogenetic inference. Available at: https://ceb.csit.fsu.edu/awty.

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Publicado

2021-05-09

Número

Vol. 12 Núm. 2 (2021)

Sección

Special contributions

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