Population parameters of the Phillips kangaroo rat (Dipodomys phillipsii)

Authors

  • Sandra H. Montero-Bagatella Instituto de Biología, UNAM
  • Fernando A. Cervantes Instituto de Biología, UNAM
  • Alberto González-Romero Instituto de Ecología A. C.

Keywords:

Density, desert rodents, Heteromydae, México, reproductive characteristics, temperature.

Abstract

Populations respond dynamically to biotic and abiotic changes in their habitat. The identification and description of such demographic oscillation can inform conservation plans that support threatened species. Human activities have reduced and fragmented the already restricted habitat of the Phillips's kangaroo rat (Dipodomys phillipsii), threatening its existence. The objective of this study was to describe and analyze D. phillipsii’s annual population cycle and structure in the context of its increasing vulnerability to extinction. The capture-recapture technique was performed monthly from 2012 to 2016. Total individual counts, age, reproductive condition, weight, and sex of D. phillipsii were determined and recorded. Daily temperature and precipitation data of the study area were analyzed with population parameters and frequency data. D. phillipsii populations responded to changes in temperature and precipitation. The highest population densities were recorded in the spring and summer and were correlated with the highest values of the environmental variables studied. Sex ratio was nearly equal during samplings, with non-pregnant females and males with abdominal testes as the most frequently presented secondary sexual characteristics. Most captured individuals were adults. Individual body weights were highly variable, which can be attributed to reproduction and fluctuations in resource availability. D. phillipsii populations severely decreased in the last year of the study, with low juvenile and pregnant or lactating female frequency counts. Anthropogenic pressures on D. phillipsii habitat persist, indicating that the proliferation of this species is at risk. Information from this study could be used to address the pressing need for the management and conservation of D. phillipsii.

Author Biography

Sandra H. Montero-Bagatella, Instituto de Biología, UNAM

Estudiante de Doctorado, con línea de investigación en Ecología.

References

ÁLVAREZ-CASTAÑEDA, S. T., T. LACHER, AND E. VÁZQUEZ. 2016. Dipodomys phillipsii. In IUCN 2016. 3.1 Version. www.iucnredlist.org. Accesed on January 11, 2023.

BEATLEY, J. C. 1976. Environments of kangaroo rats (Dipodomys) and effects of environmental change on populations in Southern Nevada. Journal of Mammalogy 57:67–93.

BLISS, L. M., J. A. VEECH, I. CASTRO-ARELLANO, AND T. R. SIMPSON. 2019. GIS-based habitat mapping and population estimation for the Gulf coast kangaroo rat (Dipodomys compactus) in The Carrizo Sands Region of Texas, USA. Mammalian Biology 98:17–27.

BRADLEY, W. G., AND R. A. MAUER. 1971. Reproduction and food habits of Merriam’s kangaroo Rat, Dipodomys merriami. Journal of Mammalog 52:497-507.

BRAUN, J. K., B. S. COYNER, AND M. A. MARES. 2021. Modern extirpation of the Texas kangaroo Rat, Dipodomys elator, In Oklahoma: changing land use and climate over a century of time as the road to eventual extinction. Therya 12:177–186.

BROCK, R. E., AND D. A. KELT. 2004. Conservation and social structure of Stephens’ kangaroo rat: implications from burrow-use behavior. Journal of Mammalogy 85:51–57.

BROWN, J. H., AND S. K. M. ERNEST. 2002. Rain and rodents: complex dynamics of desert consumers. BioScience 52:979-987.

CAUGHLEY, G. 2000. Analysis of vertebrate populations. The Blackburn Press. New Jersey, U.S.A.

DASKALOVA, G. N., I. H. MYERS-SMITH, AND J. L. GODLEE. 2020. Rare and common vertebrates span a wide spectrum of population trends. Nature Communications 11:4394.

DURÁN-ANTONIO, J., AND A. GONZÁLEZ-ROMERO. 2018. Efecto del pastoreo sobre una comunidad de roedores nocturnos en pastizales del Valle de Perote, Veracruz. Revista Mexicana de Biodiversidad 89:268-281.

EISENBERG, J. F. 1993. Ontogeny. Pp. 479-489, in Biology of the Heteromydae (Genoways, H. H, and J. H. Brown, eds.). The American Society of Mammalogists. Utah, U.S.A.

ERNEST, S. K. M., J. H BROWN, AND R. R. PARMENTER. 2000. Rodents, plants, and precipitation: spatial and temporal dynamics of consumers and resources. Oikos 88:470–482.

FERNÁNDEZ, J. A. ET AL. 2014. Conservation status of rodents of the families Geomyidae and Heteromyidae of Mexico. Revista Mexicana de Biodiversidad 85:576–588.

FLORES-ZAMARRIPA, F. J., AND J. A. FERNÁNDEZ. 2018. Predictive species distribution model of two endemic kangaroo rats from Mexico: Dipodomys ornatus and D. phillipsii (Rodentia: Heteromyidae). Therya 9:237–246.

FRENCH, ALAN. R. 1993. Physiological ecology of the Heteromyidae: economics of energy and water utilization. Pp. 509-534, in Biology of the Heteromydae in (Genoways, H. H, and J. H. Brown, eds). The American Society of Mammalogists. U.S.A.

GEREZ-FERNÁNDEZ, P. 1985. Uso del suelo durante cuatrocientos años y cambio fisionómico en la zona semiárida Poblano-Veracruzana, México. Biotica 10:123–144.

GOBIERNO DEL ESTADO DE VERACRUZ. 2019. Gaceta Oficial. Órgano del Gobierno del Estado de Veracruz de Ignacio de la Llave Número Extraordinario:32.

GOLDINGAY, R. L., P. A. KELLY, AND D. F. WILLIAMS. 1997. The kangaroo rats of California: endemism and conservation of keystone species. Pacific Conservation Biology 3:47–60.

GUMMER, D. L. 2005. Geographic variation in torpor patterns: the northernmost prairie dogs and Kangaroo Rats. University of Saskatchewan, Canada.

HAFNER, D. J. 2016. Family: Heteromidae (Pocket mice, kangaroo mice and kangaroo rats). Pp. 170-233, in Lagomorphs and rodents I, Handbook of the mammals of the world (Wilson, D. E., T. E. Lacher, Jr., and R. A. Mittermeier, eds.). Lynx Edition, Barcelona, Spain.

HERNÁNDEZ, L., ET AL. 2011. Tale of two metrics: density and biomass in a desert rodent community. Journal of Mammalogy 92:840–851.

HERNÁNDEZ, L., ET AL. 2005. Changes in rodent community structure in the Chihuahuan desert México: comparisons between two habitats. Journal of Arid Environments 60:239–257.

HODITSCHEK, B., AND T. L. BEST. 1983. Reproductive biology of Ord’s kangaroo rat (Dipodomys ordii) in Oklahoma. Journal of Mammalogy 64:121–127.

JIMÉNEZ-GARCÍA, L., ET AL. 2014. Agroecosystems management and biodiversity loss in an intensification gradient in traditional agriculture in Mexico. Journal of Agriculture and Environmental Sciences 14:401-420.

JONES, J. K., AND H. H. GENOWAYS. 1975. Dipodomys phillipsii. Mammalian Species 51: 1-3.

KAUFMAN, D. W., AND G. A. KAUFMAN. 2015. Ord’s kangaroo rats in North-Central Kansas: patterns of body size and reproduction. Transactions of the Kansas Academy of Science 118:251–263.

KELT, D. A. 2011. Comparative ecology of desert small mammals: a selective review of the past 30 years. Journal of Mammalogy 92:1158–1178.

KOONTZ, T. L., U. L. SHEPHERD, AND D. MARSHALL. 2001. The effect of climate change on Merriam’s kangaroo rat, Dipodomys merriami. Journal of Arid Environments 49:581–591.

LANE, J. E., ET AL. 2012. Delayed phenology and reduced fitness associated with climate change in a wild hibernator. Nature 489:554–557.

LIMA, M., ET AL. 2008. Chihuahuan desert kangaroo rats: nonlinear effects of population dynamics, competition, and rainfall. Ecology 89:2594–2603.

Longland, W. S., and L. A. Dimitri. 2021. Kangaroo rats: ecosystem engineers on Western rangelands. Rangelands 4:72–80.

MILLER-RUSHING, A. J., ET AL. 2010. The Effects of phenological mismatches on demography. Philosophical Transactions: Biological Sciences 365:3177–3186.

MONTERO-BAGATELLA, S. H., ET AL. 2017. Relación entre las características de la vegetación y de las densidades de la ardilla de Perote. Revista Mexicana de Biodiversidad 88:691–700.

MONTERO-BAGATELLA, S. H., AND F. A. CERVANTES. 2022. The mexican kangaroos: main aspects of their ecology and conservation. Revista Digital Universitaria 23: 1-10.

MORRISON, L. M., L. S. MILLS, AND A. J. KUENZY. 1996. Study and management of an isolated, rare population: the Fresno kangaroo rat. Wildlife Society Bulletin 24:602-606.

PATTON, J. L., ET AL. 2019. Geographic variation and evolutionary history of Dipodomys nitratoides (Rodentia: Heteromyidae), a species in severe decline. Journal of Mammalogy 100:1546–1563.

PRICE, M. V., AND P. A. KELLY. 1994. An age-structured demographic model for the endangered Stephens’ kangaroo rat Conservation Biology 8:810–821.

PURVIS, A., ET AL. 2000. Predicting extinction risk in declining species. Proceedings of the Royal Society of London B 267:1947–1952.

REICHMAN, O. J., AND K. M. VAN DE GRAAFF. 1975. Association between ingestion of green vegetation and desert rodent reproduction. Journal of Mammalogy 56:503–506.

SÁNCHEZ-CORDERO, V., ET AL. 2005. Deforestation and extant distributions of mexican endemic mammals. Biological Conservation 126:465–473.

SECRETARÍA DE MEDIO AMBIENTE Y RECURSOS NATURALES. 2019. Modificación del Anexo Normativo III, Lista de especies en riesgo de la Norma Oficial Mexicana NOM-059SEMARNAT-2010, protección ambiental-especies nativas de méxico de flora y fauna silvestres-categorías de riesgo y especificaciones para su inclusión, exclusión o cambio. Lista de especies en riesgo. Diario Oficial de la Federación. Secretaría de Gobernación.

SIKES, R. S., AND W. L. GANNON. 2011. Guidelines of the American Society of Mammalogists for the use of wild mammals in research. Journal of Mammalogy 92:235–253.

SOHOLT, L. F. 1977. Consumption of herbaceous vegetation and water during reproduction and development of Merriam’s kangaroo rat, Dipodomys merriami. American Midland Naturalist 98:445-456.

SYKES, L., ET AL. 2019. Effects of rarity form on species’ responses to land use. Conservation Biology 34: 688–696.

THIBAULT, K. M., ET AL. 2010. Long-term insights into the influence of precipitation on community dynamics in desert rodents. Journal of Mammalogy 91:787–797.

VALONE, T. J., J. H. BROWN, AND C. L. JACOBI. 1995. Catastrophic decline of a desert rodent, Dipodomys spectabilis: insights from a long-term study. Journal of Mammalogy. 76:428–436.

VISSER, M. E., AND C. BOTH. 2005. Shifts in phenology due to global climate change: the need for a yardstick. Proceedings of the Royal Society B: Biological Sciences 272:2561–2569.

WALSBERG, G. E. 2000. Small mammals in hot deserts: some generalizations revisited. BioScience 50:109-120.

WARD, D. 2016. The biology of deserts. Second Edition. Oxford University Press. Oxford, U. K.

WILKENING, J., ET AL. 2019. Endangered species management and climate change: when habitat conservation becomes a moving target. Wildlife Society Bulletin 43:11–20.

ZENG, Z., AND J. H. BROWN. 1987. Population ecology of a desert rodent: Dipodomys merriami in the Chihuahuan Desert. Ecology 68:1328–1340.

Downloads

Published

2023-09-14

Issue

Vol. 14 No. 3 (2023)

Section

Articles

License

THERYA is based on its open access policy allowing free download of the complete contents of the magazine in digital format. It also authorizes the author to place the article in the format published by the magazine on your personal website, or in an open access repository, distribute copies of the article published in electronic or printed format that the author deems appropriate, and reuse part or whole article in own articles or future books, giving the corresponding credits.