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Buffelgrass (Pennisetum ciliare) Invades Lands Surrounding Cultivated Pastures in Sonora, Mexico

Published online by Cambridge University Press:  20 January 2017

Jacob C. Brenner*
Affiliation:
Department of Environmental Studies and Sciences, Ithaca College, 953 Danby Rd., Ithaca, NY 14850 USA
L. Leann Kanda
Affiliation:
Department of Biology, Ithaca College, 953 Danby Rd., Ithaca, NY 14850 USA
*
Corresponding author's E-mail: [email protected]

Abstract

We examined relationships between land disturbance and the extent and abundance of exotic buffelgrass (Pennisetum ciliare) at the interface of cultivated pastures and native desert lands in Sonora, Mexico. Plot and transect surveys of lands inside and outside pasture fences and general linear mixed models revealed complex relationships among buffelgrass, native vegetation, distance from pasture fences, and three categories of land disturbance (undisturbed, moderate, and severe). Results illustrate that buffelgrass invasion is extensive in lands surrounding pastures, and that buffelgrass abundance declines steeply with distance from pasture fences. The role of disturbance is weak but significant in its interaction with distance from the fence. Buffelgrass is more successful at colonizing severely disturbed lands than native vegetation, and its decline in abundance on severely disturbed lands is relatively more gradual than on other disturbance regimes, so landscapes where severely disturbed lands are interspersed with buffelgrass pastures could become centers of extensive buffelgrass invasion. In light of its potential to transform the Sonoran Desert, buffelgrass outside pastures warrants attention in a region-wide control scheme, as well as in future research, which ideally would involve remote sensing.

Type
Research
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Almada Bay, I. 2000. Historia regional de Sonora: pérfil socioeconómico [Regional history of Sonora: socioeconomic profile]. México, DF : Editorial Limusa. 111 p.Google Scholar
Arriaga, L., Castellanos, A. E., Moreno, E., and Alarcon, J. 2004. Potential ecological distribution of alien invasive species and risk assessment: a case study of buffel grass in arid regions of Mexico. Conserv. Biol. 18 :15041514.Google Scholar
Bahre, C. J. 1991. A legacy of change: historic human impact on vegetation of the Arizona borderlands. Tucson, AZ : University of Arizona Press. 231 p.Google Scholar
Bates, D., Maechler, M., and Bolker, B. 2011. lme4: Linear mixed-effects models using S4 classes. http://CRAN.R-project.org/package=lme4. Accessed June 6, 2011.Google Scholar
Brenner, J. C. 2010. What drives the conversion of native rangeland to buffelgrass (Pennisetum ciliare) pasture in Mexico's Sonoran Desert? : the social dimensions of a biological invasion. Hum. Ecol. 38 :495505.Google Scholar
Brenner, J. C. 2011. Pasture conversion, private ranchers, and the invasive exotic buffelgrass (Pennisetum ciliare) in Mexico's Sonoran Desert. Ann. Assoc. Am. Geogr. 101 :84106.Google Scholar
Brenner, J. C., Christman, Z., and Rogan, J. 2012. Segmentation of landsat thematic mapper imagery improves buffelgrass (Pennisetum ciliare) pasture mapping in the Sonoran Desert of Mexico. Appl. Geogr. 34 :569575.Google Scholar
Brooks, M. L., D'Antonio, C. M., Richardson, D. M., Grace, J. B., Keeley, J. E., DiTomaso, J. M., Hobbs, R. J., Pellant, M., and Pyke, D. 2004. Effects of invasive alien plants on fire regimes. BioScience 54 :677688.Google Scholar
Brusca, R. C. and Bryner, G. C. 2004. A case study of two Mexican biosphere reserves: the upper Gulf of California and Colorado River Delta and the El Pinacate and Gran Desierto de Altar biosphere reserves. Pages 2152 in Science and Politics in the International Environment. Oxford, UK : Rowman & Littlefield Publishers, Inc.Google Scholar
Burgess, T. L., Bowers, J. C., and Turner, R. M. 1991. Exotic plants at the desert laboratory, Tucson, Arizona. Madroño 38 :96114.Google Scholar
Búrquez, A. and Martínez-Yrizar, A. 2000. El desarrollo económico y la conservación de los recursos naturales [Economic development and conservation of natural resources]. Pages 273319 in Sonora 2000 a Debate: Problemas y Soluciones, Riesgos y Oportunidades [Sonora 2000 in Debate: Problems, Solutions, Risks and Opportunities]. México DF and Hermosillo, Sonora : Ediciones Cal y Arena and El Colegio de Sonora.Google Scholar
Búrquez, A. and Martínez-Yrizar, A. 2006. Conservation and landscape transformation in northwestern Mexico. Pages 465475 in Dry Borders: Great Natural Reserves of the Sonoran Desert. Salt Lake City, UT : The University of Utah Press.Google Scholar
Búrquez-Montijo, A., Miller, M. E., and Martínez-Yrizar, A. 2002. Mexican grasslands, thornscrub, and the tranformation of the Sonoran Desert by invasive exotic buffelgrass (Pennisetum ciliare). Pages 126146 in Invasive Exotic Species of the Sonoran Region. Tucson, AZ : The University of Arizona Press and The Arizona-Sonora Desert Museum.Google Scholar
Cox, J. R., Martín-R, M. H., Ibarra-F, F. A., Fourie, J. H., Rethman, N. F. G., and Wilcox, D. G. 1988. The influences of climate and soils on the distribution of four African grasses. J. Range Manage. 41 :127139.Google Scholar
Davis, M. A., Grime, J. P., and Thompson, K. 2000. Fluctuating resources in plant communities: a general theory of invasibility. J. Ecol. 88 :528534.Google Scholar
Davis, M. A. and Thompson, K. 2000. Eight ways to be a colonizer; two ways to be an invader: a proposed nomenclature scheme for invasion ecology. Bull. Ecol. Soc. Am. 81 (3):226230.Google Scholar
Decker, K. L., Allen, C. R., Acosta, L., Hellman, M. L., Jorgensen, C. F., Stutzman, R. J., Unstad, K. M., Williams, A., and Yans, M. 2012. Land use, landscapes, and biological invasions. Invasive Plant Sci. Manag. 5 :108116.Google Scholar
De la Barrera, E. 2008. Recent invasion of buffel grass (Cenchrus ciliaris) of a natural protected area from the southern Sonoran Desert. Rev. Mex. Biodiv. 79 (2):385392.Google Scholar
Dimmit, M. A. 2000. Biomes and communities of the Sonoran Desert. Pages 318 in A Natural History of the Sonoran Desert. Tucson and Berkeley : Arizona-Sonora Desert Museum Press and University of California Press.Google Scholar
Elston, D. A., Moss, R., Boulinier, T., Arrowsmith, C., and Lambin, X. 2001. Analysis of aggregation, a worked example: numbers of ticks on red grouse chicks. Parasitology 122 :563569.Google Scholar
Franklin, K. A., Lyons, K., Nagler, P. L., Lampkin, D., Glenn, D. E. P., Molina-Freaner, F., Markow, T., and Huete, A. R. 2006. Buffelgrass (Pennisetum ciliare) land conversion and productivity in the plains of Sonora, Mexico. Biol. Cons. 127 :6271.Google Scholar
Ibarra-F., F. A., Cox, J. R., Martín-R, M. H., Crowl, T. A., and Call, C. A. 1995. Predicting buffelgrass survival across a geographical and environmental gradient. J. Range Manage. 48 :5359.Google Scholar
Levine, J. M., Vila, M., D'Antonio, C. M., Dukes, J. S., Grigulis, K., and Lavorel, S. 2003. Mechanisms underlying the impacts of exotic plant invasions. P R Soc. Lond. B-Conta. 270 :775781.Google Scholar
Lonsdale, W. M. 1999. Global patterns of plant invasions and the concept of invasibility. Ecology 80 :1522 (1).Google Scholar
Lyons, K. G., Moldonado-Leal, B. G., and Owen, G. 2009. Community and ecosystem impacts of the non-indigenous C4 buffelgrass (Pennisetum ciliare) in the Sonoran Desert, Sonora, Mexico. Pages 251264 in Invasive Plants on the Move: Controlling them in North America. Tucson, AZ : Arizona-Sonora Desert Museum Press.Google Scholar
Mack, R. N. 2002. Natural barriers to plant naturalizations and invasions in the Sonoran Desert. Pages 6375 in Invasive Exotic Species in the Sonoran Region. Tucson, AZ : The University of Arizona Press and The Arizona-Sonora Desert Museum.Google Scholar
McDonald, C. J. and McPherson, G. R. 2011. Fire behavior characteristics of buffelgrass-fueled fires and native plant community composition in invaded patches. J. Arid Environ. 75 :11471154.Google Scholar
McIvor, J. 2003. Competition affects survival and growth of buffelgrass seedlings — is buffelgrass a colonizer or an invader? Trop. Grasslands 37 :176178.Google Scholar
Meunier, G. and Lavoie, C. 2012. Roads as corridors for invasive plant species: new evidence from smooth bedstraw (Galium mollugo). Invasive Plant Sci. Manag. 5 :92100.Google Scholar
Mittermeier, R. A., Mittermeier, C. G., Brooks, T. M., Pilgrim, J. D., Konstant, W. R., and da Fonseca, G. A. B. 2003. Wilderness and biodiversity conservation. Proc. Natl. Acad. Sci. USA 100 :1030910313.Google Scholar
Moody, M. E. and Mack, R. N. 1988. Controlling the spread of plant invasions: the importance of nascent foci. J. App. Ecol. 25 (3):10091021.Google Scholar
Morales-Romero, D., Godínez-Álvarez, H., Campo-Alves, J., and Molina-Freaner, F. 2012. Effects of land conversion on the regeneration of Pachycereus pecten-aboriginum and its consequences on the population dynamics in northwestern Mexico. J. Arid Environ. 77 :123129.Google Scholar
Morales-Romero, D. and Molina-Freaner, F. 2008. Influence of buffelgrass pasture conversion on the regeneration and reproduction of the columnar cactus, Pachycereus pecten-aboriginum, in northwestern Mexico. J. Arid Environ. 72 :228237.Google Scholar
Nabhan, G. P. and Holdsworth, A. R. 1998. State of the Sonoran Desert Biome: uniqueness, biodiversity, threats and the adequacy of protection in the Sonoran Bioregion. Tucson, Arizona : The Wildlands Project. 74 p.Google Scholar
Nabhan, G. P. and Plotkin, M. J. 1994. Introduction. Pages 58 in Ironwood: An Ecological and Cultural Keystone of the Sonoran Desert. Washington, DC : Conservation International.Google Scholar
Nagler, P. L., Glenn, E. P., Franklin, K. A., Lampkin, D., and Huete, A. R. 2009. Remote sensing methods to monitor buffelgrass (Pennisetum ciliare) and native ecosystem productivity in the plains of Sonora, Mexico. Pages 265272 in Invasive Plants on the Move: Controlling them in North America. Tucson, AZ : Arizona-Sonora Desert Museum Press.Google Scholar
Olson, D. M. and Dinerstein, E. 1998. The Global 200: A representation approach to conserving the Earth's most biologically valuable ecoregions. Cons. Biol. 12 :502515.Google Scholar
Olsson, A. D., Betancourt, J., McClaran, M. P., and Marsh, S. E. 2012. Sonoran Desert Ecosystem transformation by a C4 grass without the grass/fire cycle. Divers. Distrib. 18 :1021.Google Scholar
Olsson, A. D. 2006. Modeling the Potential Distribution of Buffelgrass in Southern Arizona: A Comparison of Logistic Regression and Artificial Neural Networking. M. S. Thesis, University of Arizona, Tucson, AZ. 165.Google Scholar
Pima County Government. 2006. Sonoran Desert Conservation Plan: A long term vision for protecting the heritage and natural resources of the West. http://www.pima.gov/CMO/SDCP/. Accessed December 21, 2012.Google Scholar
R Development Core Team. 2011. R: A language and environment for statistical computing. Vienna, Austria : R Foundation for Statistical Computing.Google Scholar
Rejmanek, M. 1989. Invasibility of plant communities. Pages 369388 in Biological Invasions: A Global Perspective. Chichester, UK : Wiley.Google Scholar
Sayre, N. F. 2002. Ranching, Endangered Species, and Urbanization in the Southwest: Species of Capital. Tucson, AZ : The University of Arizona Press. 278 p.Google Scholar
Sheridan, T. E. 2007. Embattled Ranchers, Endangered Species, and Urban Sprawl: The Political Ecology of the New American West. Ann. Rev. Anth. 36 :121138.Google Scholar
Stevens, J. M. and Falk, D. A. 2009. Can buffelgrass invasions be controlled in the American Southwest? Using invasion ecology theory to understand buffelgrass success and develop comprehensive restoration and management. Ecol. Restor. 27 :417427.Google Scholar
Stohlgren, T. J. and Schnase, J. L. 2006. Risk analysis for biological hazards: what we need to know about invasive species. Risk Anal. 26 :163173.Google Scholar
Thompson, K. and Grime, J. P. 2005. Invasibility: The local mechanism driving community assembly and species diversity. Ecography 28 :696704.Google Scholar
Turner, R. M. and Brown, D. E. 1982. Sonoran desertscrub. Desert Plants 4 :181187.Google Scholar
Van Devender, T. R. and Dimmitt, M. A. 2000. Desert grasses. Pages 265280 in A Natural History of the Sonoran Desert. Tucson, AZ and Berkeley, CA : Arizona-Sonora Desert Museum Press and University of California Press.Google Scholar
Van Devender, T. R. and Dimmitt, M. A. 2006. Final Report on “Conservation of Arizona Upland Sonoran Desert Habitat. Status and Threats of Buffelgrass (Pennisetum ciliare) in Arizona and Sonora. (Project #2004-0013-003).”. Tucson, AZ : Arizona-Sonora Desert Museum. 28 p.Google Scholar
Van Devender, T. R., Felger, R. S., Reina-G, A. L., and Sánchez-Escalante, J. J. 2009. Sonora: non-native and invasive plants. Pages 85124 in Invasive Plants on the Move: Controlling Them in North America. Tucson, AZ : Arizona-Sonora Desert Museum Press.Google Scholar
Vásquez-León, M., West, C. T., and Finan, T. J. 2003. A comparative assessment of climate vulnerability: agriculture and ranching on both sides of the U.S.–Mexico border. Global Environ. Chang. 13 :159173.Google Scholar
West, R. C. 1993. Sonora: Its Geographical Personality. Austin, TX : University of Texas Press. 197 p.Google Scholar
Yetman, D. and Búrquez, A. 1994. Buffelgrass—Sonoran Desert nightmare. Arizona Riparian Council News 7 :810.Google Scholar