Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Environmental factors influencing guanaco distribution and abundance in central Patagonia, Argentina

Julieta Pedrana A B F , Alejandro Travaini A , Juan Ignacio Zanón C , Sonia Cristina Zapata A , Alejandro Rodríguez D and Javier Bustamante E
+ Author Affiliations
- Author Affiliations

A Centro de Investigación Puerto Deseado, Universidad Nacional de la Patagonia Austral, CONICET, Avenida Prefectura Naval S/N, 9050 Puerto Deseado, Santa Cruz, Argentina.

B Present address: Recursos Naturales y Gestión Ambiental. Instituto Nacional de Tecnología Agropecuaria, EEA Balcarce, CC 276, 7620 Balcarce, Argentina.

C Instituto de Ciencias de la Tierra y Ambientales de La Pampa (INCITAP-CONICET), Universidad Nacional de La Pampa, Avenida Uruguay 151, 6300 Santa Rosa, Argentina.

D Department of Conservation Biology. Estación Biológica de Doñana, CSIC, C/Américo Vespucio 26, 41092 Sevilla, España.

E Department of Wetland Ecology & Remote Sensing and GIS lab (LAST-EBD), Estación Biológica de Doñana, CSIC, C/Américo Vespucio 26, 41092 Sevilla, España.

F Corresponding author. Email: pedrana.julieta@inta.gob.ar

Wildlife Research 46(1) 1-11 https://doi.org/10.1071/WR18085
Submitted: 7 May 2018  Accepted: 5 October 2018   Published: 16 January 2019

Abstract

Context: The guanaco is the largest wild herbivore inhabiting the Patagonian steppes. Since the end of the 19th Century, it has suffered a progressive decline in numbers owing to poaching and unregulated hunting because of on an assumed competition with sheep. Unfortunately, there has never been a management program for guanaco populations in Argentine Patagonia. Consequently, the guanaco is still considered a pest species by ranchers and has never been considered profitable in the range management model implemented in Patagonia.

Aims: The present article updates the distribution limits of guanaco and estimate its abundance across Chubut, a large province of Patagonia, Argentina. The relative effects of several environmental and anthropogenic factors on guanaco distribution are also assessed.

Methods: Road surveys (7010 km) and species distribution modelling were used to build a habitat suitability model and a distribution map. A distance sampling method was used to estimate guanaco population densities and size. The survey effort required to monitor population trends in this region was also calculated.

Key results: According to the best habitat suitability model, guanaco distribution decreased with altitude and primary productivity, as measured by Normalised Difference Vegetation Index (NDVI), and increased with the distance to the nearest urban centre and oil field. Guanaco distribution showed a clear geographical pattern in Chubut, with low to medium occurrence probability towards the west and higher values towards the east. Guanaco population size was estimated as 657 304 individuals (95% CI 457 437 to 944 059), with a mean density of 2.97 guanacos km–2. Finally, through simulations of guanaco monitoring, it was estimated that an annual survey effort of 10 to thirty 30-km road transects is needed to detect with confidence a significant population decrease or increase over the next 6 or 10 years.

Conclusions: The habitat suitability map presented herein highlights areas with high guanaco densities in Chubut, where it would be possible to identify ranches suitable for performing profitable herding and shearing experiences.

Implications: The maps of guanaco distribution and density, as well as the survey effort required to monitor population trends, may be used to inform decisions concerning the sustainable use of this species.

Additional keywords: habitat models, Lama guanicoe, monitoring, predictive cartography, population density.


References

Aguiar, M. R., Paruelo, J. M., Sala, O. E., and Laurenroth, W. K. (1996). Ecosystem consequences of plant functional types changes in semiarid grassland. Journal of Vegetation Science 7, 381–390.
Ecosystem consequences of plant functional types changes in semiarid grassland.Crossref | GoogleScholarGoogle Scholar |

Amaya, J.N., von Thüngen J., and de Lamo, D.A. (2001). Relevamiento y distribución de guanacos en la Patagonia. Comunicación Técnica no. 109. (Instituto Nacional de Tecnología Agropecuaria: Bariloche, Argentina.) [In Spanish]

Ares, J. O., Beeskow, A. M., Bertiller, M. B., Rostagno, C. M., Irisarri, M. P., Anchorena, J., Defossé, G. E., and Meroni, C. (1990). Structural and dynamic characteristics of overgrazed grasslands of northern Patagonia, Argentina. In ‘Managed Grasslands: Regional Studies’. (Ed. A. Breymeyer.) pp. 149–175. (Elsevier: Amsterdam.)

Baldi, R., Albon, S. D., and Elston, D. A. (2001). Guanacos and sheep: evidence for continuing competition in arid Patagonia. Oecologia 129, 561–570.
Guanacos and sheep: evidence for continuing competition in arid Patagonia.Crossref | GoogleScholarGoogle Scholar | 24577696PubMed |

Baldi, R., Novaro, A., Funes, M., Walker, S., Ferrando, P., Failla, M., and Carmanchahi, P. (2010). Guanaco management in Patagonian rangelands: a conservation opportunity on the brink of collapse. In ‘Conserving Wildlife while Maintaining Livestock in Semi-Arid Ecosystems’. (Eds J. Du Toit, R. Kock and J. Deutsch.) pp. 266–290. (Blackwell Publishing: Oxford, UK.)

Baldi, R., Acebes, P., Cuéllar, E., Funes, M., Hoces, D., Puig, S., and Franklin, W. L. (2016). Lama guanicoe. The IUCN Red List of Threatened Species 2016. Available at http://www.iucnredlist.org [Accessed 6 April 2018]

Barros, V. R., Scian, B. V., and Mattio, H. F. (1979). Campos de precipitación de la provincia de Chubut (1931–1960). Geoacta 10, 175–192.

Bisigato, A. J., and Bertiller, M. B. (1997). Grazing effects on patchy dryland vegetation in northern Patagonia. Journal of Arid Environments 36, 639–653.
Grazing effects on patchy dryland vegetation in northern Patagonia.Crossref | GoogleScholarGoogle Scholar |

Borrelli, P., and Cibils, A. (2005). Rural depopulation and grassland management in Patagonia. In ‘Grasslands: Development, Opportunities, Perspectives’. (Eds S. G. Reynolds and J. Frame.) pp. 461–488. (FAO: Enfield, NH.)

Buckland, S. T., Anderson, D. R., Burnham, K. P., Laake, J. L., Borchers, D. L., and Thomas, L. (2001). ‘Introduction to Distance Sampling: Estimating Abundance of Biological Populations.’ (Oxford University Press: Oxford.)

Burnham, K. P., and Anderson, D. R. (2002). ‘Model Selection and Multimodel Inference: a Practical Information-theoretic Approach.’ (Springer-Verlag: New York.)

Caro, J., Zapata, S. C., Zanón, J. I., Rodríguez, A., and Travaini, A. (2017). Ganadería ovina y usos alternativos del suelo en la Patagonia austral, Argentina. Multequina (Mendoza) 26, 33–50.

Chardonnet, P., des Clers, B., Fischer, J., Gerhold, R., Jori, F., and Lamarque, F. (2002). The value of wildlife. Revue scientifique et technique (International Office of Epizootics) 21, 15–51.

Child, B. A. (1988). The economic potential and utilization of wildlife in Zimbabwe. Revue scientifique et technique (International Office of Epizootics) 7, 773–782.

Child, B. A., Musengezi, J., Parent, G. D., and Child, G. F. T. (2012). The economics and institutional economics of wildlife on private land in Africa. Pastoralism 2, 18.
The economics and institutional economics of wildlife on private land in Africa.Crossref | GoogleScholarGoogle Scholar |

Di Stefano, J. (2001). Power analysis and sustainable forest management. Forest Ecology and Management 154, 141–153.
Power analysis and sustainable forest management.Crossref | GoogleScholarGoogle Scholar |

Donadio, E., and Burskik, S. W. (2006). Flight behavior in guanacos and vicuñas in areas with and without poaching in western Argentina. Biological Conservation 127, 139–145.
Flight behavior in guanacos and vicuñas in areas with and without poaching in western Argentina.Crossref | GoogleScholarGoogle Scholar |

Fewster, R. M., Laake, J. L., and Buckland, S. T. (2005). Line transect sampling in small and large regions. Biometrics 61, 856–861.
Line transect sampling in small and large regions.Crossref | GoogleScholarGoogle Scholar | 16135038PubMed |

Field, S. A., Tyre, A. J., and Possingham, H. P. (2005). Optimizing allocation of monitoring effort under economic and observational constraints. The Journal of Wildlife Management 69, 473–482.
Optimizing allocation of monitoring effort under economic and observational constraints.Crossref | GoogleScholarGoogle Scholar |

Franklin, W. L. (1983). Contrasting socioecologies of South America’s camelids: the vicugna and Guanaco. In ‘Advances in the Study of Mammalian Behavior’. (Eds J. F. Eisenberg and D. Kleiman.) pp. 573–629. (Special Publications No. 7, American Society of Mammalogists: Shippensburg, PA.)

Franklin, W. L., Bas, F., Bonacic, C. F., Cunazza, C., and Soto, N. (1997). Striving to manage Patagonia guanacos for sustained use in the grazing agroecosystem of southern Chile. Wildlife Society Bulletin 25, 65–73.

Fritz, M. A., and Franklin, W. L. (1994). First estimates of guanaco male group harvestability in the Patagonia of South America. Vida Silvestre Neotropical 3, 84–90.

García Brea, A., Zapata, S. C., Procopio, D. E., Martínez Peck, R., and Travaini, A. (2010). Evaluación del interés de productores ganaderos en el control selectivo y eficiente de predadores en la Patagonia Austral. Acta Zoológica Mexicana 26, 303–321.
Evaluación del interés de productores ganaderos en el control selectivo y eficiente de predadores en la Patagonia Austral.Crossref | GoogleScholarGoogle Scholar |

Gerken, M. (2010). Relationships between integumental characteristics and thermoregulation in South American camelids. Animal 4, 1451–1459.
Relationships between integumental characteristics and thermoregulation in South American camelids.Crossref | GoogleScholarGoogle Scholar | 22444692PubMed |

Gibbs, J. P., and Ene, E. (2010). Program monitor: estimating the statistical power of ecological monitoring programs. Version 11.0.0. Available at http://www.esf.edu/efb/gibbs/monitor [Accessed 9 April 2018]

Gibbs, J. P., and Melvin, S. M. (1997). Power to detect trends in waterbird abundance with call–response surveys. The Journal of Wildlife Management 61, 1262–1267.
Power to detect trends in waterbird abundance with call–response surveys.Crossref | GoogleScholarGoogle Scholar |

Golluscio, R. A., Deregibus, V. A., and Paruelo, J. M. (1998). Sustainability and range management in the Patagonian steppes. Ecología Austral 8, 265–284.

Hastie, T. J., and Tibshirani, R. J. (1990). ‘Generalized Additive Models.’ (Chapman & Hall: London.)

León, R. J. C., Bran, D., Collantes, M., Paruelo, J. M., and Soriano, A. (1998). Grandes unidades de vegetación en la Patagonia. Ecología Austral 8, 123–141.

Lichtenstein, G., and Carmanchahi, P. D. (2012). Guanaco management by pastoralists in the Southern Andes. Pastoralism 2, 1–16.
Guanaco management by pastoralists in the Southern Andes.Crossref | GoogleScholarGoogle Scholar |

Montes, C., De Lamo, D. A., and Zavatti, J. (2000). Distribución de abundancias de Guanacos (Lama guanicoe) en los distintos ambientes de Tierra del Fuego, Argentina. Mastozoología Neotropical 7, 23–31.

Montes, M. C., Carmanchahi, P. D., Rey, A., and Funes, M. (2006). Live shearing free-ranging guanacos (Lama guanicoe) in Patagonia for sustainable use. Journal of Arid Environments 64, 616–625.
Live shearing free-ranging guanacos (Lama guanicoe) in Patagonia for sustainable use.Crossref | GoogleScholarGoogle Scholar |

Murtaugh, P. A. (1996). The statistical evaluation of ecological indicators. Ecological Applications 6, 132–139.
The statistical evaluation of ecological indicators.Crossref | GoogleScholarGoogle Scholar |

Nabte, M. J., Marino, A. I., Rodríguez, M. V., Monjeau, A., and Saba, S. L. (2013). Range management affects native ungulate populations in Peninsula Valdés, a World Natural Heritage. PLoS One 8, e55655.
Range management affects native ungulate populations in Peninsula Valdés, a World Natural Heritage.Crossref | GoogleScholarGoogle Scholar | 23390546PubMed |

Ortega, I. M., and Franklin, W. I. (1995). Social organization, distribution and movements of a migratory Guanaco population in the Chilean Patagonia. ‎ Revista Chilena de Historia Natural 68, 489–500.

Paruelo, J. M., Jobbágy, E. G., and Sala, O. E. (1998). Biozones of Patagonia. Ecología Austral 8, 145–153.

Pedrana, J., Rodríguez, A., Bustamante, J., Travaini, A., and Zanón Martínez, J. I. (2009). Failure to estimate reliable sex ratios of guanaco from road-survey data. Canadian Journal of Zoology 87, 886–894.
Failure to estimate reliable sex ratios of guanaco from road-survey data.Crossref | GoogleScholarGoogle Scholar |

Pedrana, J., Bustamante, J., Travaini, A., and Rodríguez, A. (2010). Factors influencing guanaco distribution in southern Argentine Patagonia and implications for its sustainable use. Biodiversity and Conservation 19, 3499–3512.
Factors influencing guanaco distribution in southern Argentine Patagonia and implications for its sustainable use.Crossref | GoogleScholarGoogle Scholar |

Pinto, J., Bonacic, C., Hamilton-West, C., Romero, J., and Lubroth, J. (2008). Climate change and animal diseases in South America. International Office of Epizootics 27, 599–613.

Puig, S. (1995). Abundancia y distribución de las poblaciones de Guanacos. In ‘Técnicas para el manejo del Guanaco’. (Ed. S. Puig.) pp. 57–68. (IUCN: Gland, Switzerland.) [In Spanish]

R Development Core Team (2016). ‘R: A Language and Environment for Statistical Computing.’ Available at www.R-project.org [Verified 11 November 2018]

Radovani, N. I., Funes, M. C., Walker, R. S., Gader, R., and Novaro, A. J. (2014). Guanaco Lama guanicoe numbers plummet in an area subject to poaching from oil-exploration trails in Patagonia. Oryx 49, 1–9.

Raedeke, K. H. (1979). Population dynamics and socioecology of the guanaco (Lama guanicoe) of Magallanes, Chile. Ph.D. Thesis, University of Washington, Seattle, WA.

Raedeke, K. H. (1982). Habitat use by guanacos (Lama guanicoe) and sheep on common range, Tierra del Fuego, Chile. Turrialba 32, 309–314.

Redford, K. H., and Eisenberg, J. F. (1992). ‘Mammals of the Neotropics: the Southern Cone.’ (The University of Chicago Press: Chicago, IL.)

Rey, A. (2010). Efectos del manejo sobre la dinámica de poblaciones de guanacos silvestres (Lama guanicoe) y mortalidad por enganches en alambrados en campos ganaderos de Patagonia Norte, Argentina. Ph.D. Thesis, University of Buenos Aires, Argentina. [In Spanish]

Rey, A., Carmanchahi, P. D., Puig, S., and Guichón, M. L. (2009). Densidad, estructura social, actividad y manejo de guanacos silvestres (Lama guanicoe) en el sur del Neuquén, Argentina. Mastozoología Neotropical 16, 389–401.

Roth, H. H., and Merz, G. (1996). ‘Wildlife Resources, a Global Account of Economic Use.’ (Springer: Berlin.)

Saba, S. L., and Battro, P. (1987). Estimación de la densidad poblacional de Guanacos (Lama guanicoe Muller). Turrialba 37, 113–118.

Sacchero, D., Maurino, M. J., and Lanari, M. R. (2006). Diferencias de calidad y proporción de down en muestras individuales de vellones de Guanaco (Lama guanicoe) en distintas ecorregiones de Argentina. Revista Argentina de Producción Animal 26, 211–216.

Sakamoto, Y., Ishiguro, M., and Kitagawa, G. (1986). ‘Akaike information criterion statistics.’ (KTK Scientific Publishers: Tokyo.)

Schroeder, N., Matteucci, S. D., Moreno, P. G., Gregorio, P., Ovejero, R., Taraborelli, P., and Carmanchahi, P. D. (2014). Spatial and seasonal dynamic of abundance and distribution of guanaco and livestock: insights from using density surface and null models. PLoS One 9, e85960.
Spatial and seasonal dynamic of abundance and distribution of guanaco and livestock: insights from using density surface and null models.Crossref | GoogleScholarGoogle Scholar | 24465812PubMed |

Schroeder, N. M., González, A., Wisdom, M., Nielson, R., Rowland, M. M., and Novaro, A. J. (2018). Roads have no effect on guanaco habitat selection at a Patagonian site with limited poaching. Global Ecology and Conservation 14, e00394.
Roads have no effect on guanaco habitat selection at a Patagonian site with limited poaching.Crossref | GoogleScholarGoogle Scholar |

Soriano, A. (1956). Los distritos florísticos de la Provincia Patagónica. Revista Investigación Agropecuaria 10, 323–347.

Soriano, A., and Paruelo, J. M. (1990). El manejo de campos de pastoreo en Patagonia: aplicación de principios ecológicos. Ciencia Hoy 2, 44–53.

Texeira, M., and Paruelo, J. M. (2006). Demography, population dynamics and sustainability of the Patagonian sheep flocks. Agricultural Systems 87, 123–146.
Demography, population dynamics and sustainability of the Patagonian sheep flocks.Crossref | GoogleScholarGoogle Scholar |

Thomas, L., Buckland, S. T., Rexstad, E. A., Laake, J. L., Strindberg, S., Hedley, S. L., Bishop, J. R. B., Marques, T. A., and Burnham, K. P. (2010). Distance software: design and analysis of distance sampling surveys for estimating population size. Journal of Applied Ecology 47, 5–14.
Distance software: design and analysis of distance sampling surveys for estimating population size.Crossref | GoogleScholarGoogle Scholar | 20383262PubMed |

Travaini, A., Bustamante, J., Rodríguez, A., Zapata, S., Procopio, D., Pedrana, J., and Martínez Peck, R. (2007). An integrated framework to map animal distributions in large and remote regions. ‎ Diversity & Distributions 13, 289–298.
An integrated framework to map animal distributions in large and remote regions. ‎Crossref | GoogleScholarGoogle Scholar |

Travaini, A., Zapata, S. C., Bustamante, J., Pedrana, J., Zanón, J. I., and Rodríguez, A. (2015). Guanaco abundance and monitoring in Southern Patagonia: distance sampling reveals substantially greater numbers than previously reported. Zoological Studies (Taipei, Taiwan) 54, 23.

Von Thüngen, J., and Lanari, M. R. (2010). Profitability of sheep farming and wildlife management in Patagonia. Pastoralism 1, 274–290.

Wheeler, J. C. (2006). Guanaco 1: Working to save Peru’s endangered guanacos. Camelid Quiarterly 5, 39–42.

Young, J. K., and Franklin, W. L. (2004). Territorial fidelity of male guanacos in the Patagonia of Southern Chile. Journal of Mammalogy 85, 72–78.
Territorial fidelity of male guanacos in the Patagonia of Southern Chile.Crossref | GoogleScholarGoogle Scholar |

Zanón Martínez, J. I., Travaini, A., Zapata, S. C., Procopio, D., and Santillán, M. A. (2012). The ecological role of native and introduced species in the diet of the puma Puma concolor in southern Patagonia. Oryx 46, 106–111.
The ecological role of native and introduced species in the diet of the puma Puma concolor in southern Patagonia.Crossref | GoogleScholarGoogle Scholar |