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RESEARCH ARTICLE

Responses of vegetation to different land-use histories involving grazing and fire in the North-east Patagonian Monte, Argentina

Guadalupe Peter A B D , Flavia Alejandra Funk C and Silvia Susana Torres Robles B
+ Author Affiliations
- Author Affiliations

A Centro Universitario Regional Zona Atlántica, Universidad Nacional del Comahue – CONICET, 8500 Viedma, Argentina.

B Sede Atlántica, Universidad Nacional de Río Negro, 8500 Viedma, Argentina.

C Centro de Recursos Naturales Renovables de la Zona Semiárida – CONICET, 8000 Bahía Blanca, Argentina.

D Corresponding author. Email: gpeter@unrn.edu.ar

The Rangeland Journal 35(3) 273-283 https://doi.org/10.1071/RJ12093
Submitted: 22 November 2012  Accepted: 10 April 2013   Published: 6 June 2013

Abstract

In arid and semiarid lands around the world, vegetation is distributed in patches within a bare soil matrix. Vegetation in the North-east Patagonian Monte, Argentina is a shrubland steppe, and patches are dominated by shrubs, with grasses, forbs and cryptogams under their canopy. It was hypothesised that grazing increases patchiness; and fires and wind erosion homogenise the distribution of vegetation. It was predicted that there would be: (1) greater cover, specific frequency and richness of shrubs in grazed sites; (2) greater cover, specific frequency and richness of herbs and preferred grasses in ungrazed sites; and (3) a random pattern of distribution in burnt areas. Aerial cover of all perennial species was measured at six sites with different land-use histories: heavily grazed, medium grazed, ungrazed, long exclosure from grazing followed by grazing, burnt and then ungrazed, and burnt and then grazed. Species were grouped into five functional types: shrubs, sub-shrubs, preferred grasses, non-preferred grasses and forbs. The results showed significant differences in the cover of preferred and non-preferred grasses, forbs and total cover with previous grazing but there was no evidence of shrub encroachment. Species frequency and richness decreased especially with increased grazing intensity. The pattern of spatial distribution changed from aggregated in grazed sites to random in ungrazed and burnt sites for all plant functional types. At the population level, the cover of the grass, Poa ligularis, was greatest on ungrazed sites whereas the cover of the shrub, Chuquiraga erinacea, was greatest on burnt sites. It is concluded that, after applying a heterogeneous patchwork of disturbance, such as grazing, or with fire, followed by periods of rest, the plant diversity is increased.

Additional keywords: distribution pattern, fire, grazing intensity, plant functional types, rangeland communities.


References

Aguiar, M. R., and Sala, O. A. (1999). Patch structure, dynamics and implications for the functioning of arid ecosystems. Trends in Ecology & Evolution 14, 273–277.
Patch structure, dynamics and implications for the functioning of arid ecosystems.Crossref | GoogleScholarGoogle Scholar |

Allington, G. R. H., and Valone, T. J. (2011). Long-term livestock exclusion in an arid grassland alters vegetation and soil. Rangeland Ecology and Management 64, 424–428.
Long-term livestock exclusion in an arid grassland alters vegetation and soil.Crossref | GoogleScholarGoogle Scholar |

Balzarini, M. G., Gonzalez, L., Tablada, M., Casanoves, F., Di Rienzo, J. A., and Robledo, C. W. (2008). ‘Infostat. Manual del Usuario.’ [Infostat. User Manual.] (Editorial Brujas: Córdoba.)

Bertiller, M. B., and Bisigato, A. J. (1998). Vegetation dynamics under grazing disturbance. The state-and-transition model for the Patagonian steppes. Ecología Austral 8, 191–199.

Bertiller, M. B., Ares, J. O., and Bisigato, A. J. (2002). Multi-scale indicators of land degradation in the Patagonian Monte, Argentina. Environmental Management 30, 704–715.
Multi-scale indicators of land degradation in the Patagonian Monte, Argentina.Crossref | GoogleScholarGoogle Scholar | 12375090PubMed |

Bertiller, M. B., Bisigato, A. J., Carrera, A. L., and del Valle, H. F. (2004). Estructura de la vegetación y funcionamiento de los ecosistemas del Monte Austral. [Structure and functioning of vegetation in ecosystems of the ‘Monte Chubutense’]. Boletín de la Sociedad Argentina de Botánica 39, 139–158.

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 |

Bisigato, A. J., and Bertiller, M. B. (1999). Seedling emergence and survival in contrasting soil microsites in Patagonian Monte shrubland. Journal of Vegetation Science 10, 335–342.
Seedling emergence and survival in contrasting soil microsites in Patagonian Monte shrubland.Crossref | GoogleScholarGoogle Scholar |

Bisigato, A. J., Bertiller, M. B., Ares, J. O., and Pazos, G. E. (2005). Effect of grazing on plant patterns in arid ecosystems of Patagonian Monte. Ecography 28, 561–572.
Effect of grazing on plant patterns in arid ecosystems of Patagonian Monte.Crossref | GoogleScholarGoogle Scholar |

Bóo, R. M., Peláez, D. M., Bunting, S. C., Elía, O. R., and Mayor, M. D. (1996). Effect of fire on grasses in central semi-arid Argentina. Journal of Arid Environments 32, 259–269.
Effect of fire on grasses in central semi-arid Argentina.Crossref | GoogleScholarGoogle Scholar |

Bóo, R. M., Peláez, D. V., Bunting, S. C., Mayor, M. D., and Elía, O. R. (1997). Effect of fire on woody species in central semi-arid Argentina. Journal of Arid Environments 35, 87–94.
Effect of fire on woody species in central semi-arid Argentina.Crossref | GoogleScholarGoogle Scholar |

Bran, D., Ayesa, J., and López, C. (2000). ‘Regiones Ecológicas de Río Negro.’ [Ecological Regions of Río Negro.] Comunicación Técnica No. 59, Área de Investigación de Recursos Naturales. (INTA: Bariloche.)

Braun-Blanquet, J. (1972). ‘Plant Sociology: The Study of Plant Communities.’ (Hafner: New York.)

Busso, C. A., and Bonvissuto, G. L. (2009). Structure of vegetation patches in north-western Patagonia, Argentina. Biodiversity and Conservation 18, 3017–3041.
Structure of vegetation patches in north-western Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |

Busso, C. A., Bonvissuto, G. L., and Torres, Y. A. (2012). Seedling recruitment and survival of two desert grasses in the Monte of Argentina. Land Degradation and Development 23, 116–129.
Seedling recruitment and survival of two desert grasses in the Monte of Argentina.Crossref | GoogleScholarGoogle Scholar |

Cabrera, A. L. (1971). Fitogeografía de la Republica Argentina. [Phytogeography of Argentinean Republic]. Boletín de la Sociedad Argentina de Botánica 16, 1–42.

Cesa, A., and Paruelo, J. M. (2011). Changes in vegetation structure induced by domestic grazing in Patagonia (Southern Argentina). Journal of Arid Environments 75, 1129–1135.
Changes in vegetation structure induced by domestic grazing in Patagonia (Southern Argentina).Crossref | GoogleScholarGoogle Scholar |

Cingolani, A. M., Noy-Meir, I., and Díaz, S. (2005). Grazing effects on rangeland diversity: a synthesis of contemporary models. Ecological Applications 15, 757–773.
Grazing effects on rangeland diversity: a synthesis of contemporary models.Crossref | GoogleScholarGoogle Scholar |

Cingolani, A. M., Noy-Meir, I., Renison, D. D., and Cabido, M. (2008). La ganadería extensiva, es compatible con la conservación de la biodiversidad y de los suelos? [Is extensive livestock production compatible with biodiversity and soil conservation?]. Ecología Austral 18, 253–271.

Cipriotti, P. A., and Aguiar, M. R. (2005). Effects of grazing on patch structure in a semi-arid two-phase vegetation mosaic. Journal of Vegetation Science 16, 57–66.
Effects of grazing on patch structure in a semi-arid two-phase vegetation mosaic.Crossref | GoogleScholarGoogle Scholar |

Cipriotti, P. A., and Aguiar, M. R. (2012). Direct and indirect effects of grazing constrain shrub encroachment in semi-arid Patagonian steppes. Applied Vegetation Science 15, 35–47.
Direct and indirect effects of grazing constrain shrub encroachment in semi-arid Patagonian steppes.Crossref | GoogleScholarGoogle Scholar |

de la Cruz Rot, M. (2008). Capítulo 3: Métodos para analizar datos puntuales. In: ‘Introducción al Análisis Espacial de Datos en Ecología y Ciencias Ambientales: Métodos y Aplicaciones’. [Chapter 3: Methods to Analyze Punctual Data.] In: ‘Introduction to the Spatial Analysis of Information in Ecology and Environmental Sciences: Methods and Applications’. (Eds F. T. Maestre, A. Escudero and A. Bonet.) (Dykinson: Madrid.)

Di Rienzo, J. A., Casanoves, F., Balzarini, M. G., Gonzalez, L., Tablada, M., and Robledo, C. W. (2011). ‘InfoStat versión 2011.’ (Grupo InfoStat, FCA, Universidad Nacional de Córdoba: Córdoba, Argentina.)

Digby, P. G. N., and Kempton, R. A. (1987). ‘Multivariate Analysis of Ecological Communities.’ (Chapman and Hall: London.)

Fernández, O. A., Gil, M. E., and Distel, R. A. (2009). The challenge of rangeland degradation in a temperate semi-arid region of Argentina: the Caldenal. Land Degradation and Development 20, 431–440.
The challenge of rangeland degradation in a temperate semi-arid region of Argentina: the Caldenal.Crossref | GoogleScholarGoogle Scholar |

Fleischner, T. L. (1994). Ecological costs of livestock grazing in western North America. Conservation Biology 8, 629–644.
Ecological costs of livestock grazing in western North America.Crossref | GoogleScholarGoogle Scholar |

Franzese, J., and Ghermandi, L. (2012). Effect of fire on recruitment of two dominant perennial grasses with different palatability from semi-arid grasslands of NW Patagonia (Argentina). Plant Ecology 213, 471–481.
Effect of fire on recruitment of two dominant perennial grasses with different palatability from semi-arid grasslands of NW Patagonia (Argentina).Crossref | GoogleScholarGoogle Scholar |

Fuhlendorf, S. D., and Engle, D. M. (2001). Restoring heterogeneity on rangelands: ecosystem management based on evolutionary grazing patterns. Bioscience 51, 625–632.
Restoring heterogeneity on rangelands: ecosystem management based on evolutionary grazing patterns.Crossref | GoogleScholarGoogle Scholar |

Godagnone, R. E., and Bran, D. E. (Eds) (2009). ‘Inventario Integrado de los Recursos Naturales de la Provincia de Río Negro.’ [Integrated inventory of the Natural Resources of the Province of Rio Negro.] (INTA: Buenos Aires.)

Hodgkinson, K. C., and Harrington, G. N. (1985). The case for prescribed burning to control shrubs in eastern semi-arid woodlands. The Rangeland Journal 7, 64–74.
The case for prescribed burning to control shrubs in eastern semi-arid woodlands.Crossref | GoogleScholarGoogle Scholar |

Kröpfl, A. I., Cecchi, G. A., Villasuso, N. M., and Distel, R. A. (2013). Degradation and recovery processes in semi-arid patchy rangelands of northern Patagonia, Argentina. Land Degradation and Development , .
Degradation and recovery processes in semi-arid patchy rangelands of northern Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |

Loeser, M. R. R., Sisk, T. D., and Crews, T. E. (2007). Impact of grazing intensity during drought in an Arizona grassland. Conservation Biology 21, 87–97.
Impact of grazing intensity during drought in an Arizona grassland.Crossref | GoogleScholarGoogle Scholar |

Loydi, A., Zalba, S. M., and Distel, R. A. (2012). Vegetation change in response to grazing exclusion in montane grasslands, Argentina. Plant Ecology and Evolution 145, 313–322.
Vegetation change in response to grazing exclusion in montane grasslands, Argentina.Crossref | GoogleScholarGoogle Scholar |

Mateucci, S. D., and Colma, A. (1982). ‘Metodología para el estudio de la vegetación.’ [Methodology for the study of the vegetation.] Monografía No. 22, Serie Biología. (Secretaría General de la OEA: Washington, DC.)

McNaughton, S. J. (1983). Serengeti grassland ecology: the role of composite environmental factors and contingency in community organization. Ecological Monographs 53, 291–320.
Serengeti grassland ecology: the role of composite environmental factors and contingency in community organization.Crossref | GoogleScholarGoogle Scholar |

Milchunas, D. G., and Lauenroth, W. (1993). Quantitative effects of grazing on vegetation and soils over a global range of environments. Ecological Monographs 63, 327–366.
Quantitative effects of grazing on vegetation and soils over a global range of environments.Crossref | GoogleScholarGoogle Scholar |

Mueller-Dombois, D., and Ellenberg, H. (1974). ‘Aims and Methods of Vegetation Ecology.’ (Wiley: New York.)

Olff, H., and Ritchie, M. E. (1998). Effects of herbivores on grassland plant diversity. Science 13, 261–265.
| 1:STN:280:DC%2BC3M7itF2iug%3D%3D&md5=ff7c230306352c0e3a1d5bd733ee5314CAS |

Parizek, B., Rostagno, C. M., and Sottini, R. (2002). Soil erosion as affected by shrub encroachment in north-eastern Patagonia. Journal of Range Management 55, 43–48.
Soil erosion as affected by shrub encroachment in north-eastern Patagonia.Crossref | GoogleScholarGoogle Scholar |

Pazos, G. E., Bisigato, A. J., and Bertiller, M. B. (2007). Abundance and spatial patterning of coexisting perennial grasses in grazed shrublands of the Patagonian Monte. Journal of Arid Environments 70, 316–328.
Abundance and spatial patterning of coexisting perennial grasses in grazed shrublands of the Patagonian Monte.Crossref | GoogleScholarGoogle Scholar |

Peláez, D. V., Bóo, R. M., Elia, O. R., and Mayor, M. D. (2003). Effect of fire on growth of three perennial grasses from central semi-arid Argentina. Journal of Arid Environments 55, 657–673.
Effect of fire on growth of three perennial grasses from central semi-arid Argentina.Crossref | GoogleScholarGoogle Scholar |

Peláez, D. V., Giorgetti, H. D., Montenegro, O. A., Elía, O. R., Rodríguez, G. D., Bóo, R. M., and Mayor, M. D. (2010). Vegetation response to a controlled fire in the phytogeographical province of the Monte, Argentina. Phyton 79, 169–176.

Peter, G., Funk, F. A., Loydi, A., Casalini, A. I., and Leder, C. V. (2012). Variación de la composición específica y cobertura del pastizal bajo diferentes presiones de pastoreo en el Monte rionegrino. [Variation in specific composition and cover in grassland exposed to grazing pressures in the Monte Rionegrino]. Phyton 81, 4–11.

Pfeiffer, K. E., and Steuter, A. A. (1994). Preliminary response of sand-hills prairie to fire and bison grazing. Journal of Range Management 47, 395–397.
Preliminary response of sand-hills prairie to fire and bison grazing.Crossref | GoogleScholarGoogle Scholar |

Puigdefábregas, J. (1998). Ecological impacts of global change on drylands and their implications for desertification. Land Degradation and Development 9, 393–406.
Ecological impacts of global change on drylands and their implications for desertification.Crossref | GoogleScholarGoogle Scholar |

Ravi, S., D’Odorico, P., Zobeck, T. M., Over, T. M., and Collins, S. L. (2007). Feedbacks between fires and wind erosion in heterogeneous arid lands. Journal of Geophysical Research 112, 1–7.
Feedbacks between fires and wind erosion in heterogeneous arid lands.Crossref | GoogleScholarGoogle Scholar |

Ravi, S., D’Odorico, P., Wang, L., White, C. S., Okin, G. S., Macko, S. A., and Collins, S. L. (2009). Post-fire resource redistribution in desert grasslands: a possible negative feedback on land degradation. Ecosystems 12, 434–444.
Post-fire resource redistribution in desert grasslands: a possible negative feedback on land degradation.Crossref | GoogleScholarGoogle Scholar |

Roig, F., Roig-Junent, S., and Corbalán, V. (2009). Biogeography of the Monte Desert. Journal of Arid Environments 73, 164–172.
Biogeography of the Monte Desert.Crossref | GoogleScholarGoogle Scholar |

Roques, K. G., O’Connor, T. G., and Watkinson, A. R. (2001). Dynamics of shrub encroachment in an African savanna: relative influences of fire, herbivory, rainfall and density. Journal of Applied Ecology 38, 268–280.
Dynamics of shrub encroachment in an African savanna: relative influences of fire, herbivory, rainfall and density.Crossref | GoogleScholarGoogle Scholar |

Rostagno, C. M., Defossé, G. E., and del Valle, H. F. (2006). Post-fire vegetation dynamics in three rangelands of north-eastern Patagonia, Argentina. Rangeland Ecology and Management 59, 163–170.
Post-fire vegetation dynamics in three rangelands of north-eastern Patagonia, Argentina.Crossref | GoogleScholarGoogle Scholar |

Tizón, F. R., Peláez, D. V., and Elía, O. R. (2010). The influence of controlled fires on a plant community in the south of the Caldenal, and its relationship with a regional state and transition model. Phyton 79, 141–146.

Villagra, P. E. (2000). Aspectos ecológicos de los algarrobales argentines. [Ecology of the Prosopis woodlands from Argentina] . Multequina 9, 35–51.

Villagra, P. E., Defossé, G. E., del Valle, H. F., Tabeni, S., Rostagno, C. M., Cesca, E. M., and Abraham, E. (2009). Land use and disturbance effects on the dynamics of natural ecosystems of the Monte Desert: implications for their management. Journal of Arid Environments 73, 202–211.
Land use and disturbance effects on the dynamics of natural ecosystems of the Monte Desert: implications for their management.Crossref | GoogleScholarGoogle Scholar |

Wambolt, C. L., and Payne, G. F. (1986). An 18-year comparison of control methods for Wyoming big sagebrush in southwestern Montana. Journal of Range Management 39, 314–319.
An 18-year comparison of control methods for Wyoming big sagebrush in southwestern Montana.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL2sXktVamt7s%3D&md5=cfe481709fdd97218eee8bebfb16be65CAS |

West, N. E., and Hassan, J. (1985). Recovery of sagebrush-grass vegetation following wildfire. Journal of Range Management 38, 131–134.
Recovery of sagebrush-grass vegetation following wildfire.Crossref | GoogleScholarGoogle Scholar |

Whicker, J. J., Breshears, D. D., Wasiolek, P. T., Kirchner, T. B., Tavani, R. A., Schoep, D. A., and Rodgers, J. C. (2002). Temporal and spatial variation of episodic wind erosion in unburned and burned semiarid shrubland. Journal of Environmental Quality 31, 599–612.
Temporal and spatial variation of episodic wind erosion in unburned and burned semiarid shrubland.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XlvVCgt7s%3D&md5=b48fe39661d5b6b4c3978caabc4aea88CAS | 11931452PubMed |

Whitford, W. G., Anderson, J., and Rice, P. M. (1997). Stemflow contribution to the ‘fertile island’ effect in creosotebush, Larrea tridentata. Journal of Arid Environments 35, 451–457.
Stemflow contribution to the ‘fertile island’ effect in creosotebush, Larrea tridentata.Crossref | GoogleScholarGoogle Scholar |