Fire tolerance of three tree species in pine–oak forests of Chignahuapan, Puebla, Mexico

Article

<< Previous

Next >>

Contents Vol 21(7)

doi:10.1071/WF11134

Published on behalf of the International Association of Wildland Fire

	Search




	Advanced Search



	Journal Home

	About the Journal

	Editorial Board

	Contacts



	Content

	Online Early

	Current Issue

	Just Accepted

	All Issues

	Special Issues

	Sample Issue

	20-Year Author Index



	For Authors

	General Information

	Notice to Authors

	Submit Article

	Open Access



	For Referees

	Referee Guidelines

	Review Article



	For Subscribers

	Subscription Prices

	Customer Service

	Print Publication Dates

e-Alerts

Subscribe to our Email Alert or

feeds for the latest journal papers.

Connect with us

Fire tolerance of three tree species in pine–oak forests of Chignahuapan, Puebla, Mexico

Juana E. Juárez Bravo ^A, Dante A. Rodríguez-Trejo ^A ^C and Ronald L. Myers ^B

^A División de Ciencias Forestales, Universidad Autónoma Chapingo, Chapingo, Estado de México, C.P. 56230, México.
^B Grupo Las Caras del Fuego, Baton Rouge, LA 70808, USA.
^C Corresponding author. Email: dantearturo@yahoo.com

International Journal of Wildland Fire 21(7) 873-881 http://dx.doi.org/10.1071/WF11134
Submitted: 13 September 2011 Accepted: 14 May 2012 Published: 18 July 2012





	PDF (516 KB) $25



	Export Citation

Print

Abstract

Resprouting is a common recovery strategy of many tree and shrub species in fire-prone environments and is an important determinant of post-fire dominance and vegetation dynamics in many ecosystems. Top-kill, mortality and resprouting of the trees Quercus crassifolia, Arbutus xalapensis and Pinus teocote were studied on contiguous burned and unburned sites in the pine–oak forests of Chignahuapan, Puebla, Mexico. The study sample consisted of 375 individual trees, 199 on the burned site and 176 on the unburned site. T-tests and logistic regression were used in the statistical analysis. The number of resprouts per tree increased significantly (P < 0.001) in the broadleaved species, but not in the pine species. On the sites affected by fire, the smaller the diameter and higher the extent of top-kill in Q. crassifolia, the greater the probability of resprouting. None of the species exhibited differences in mortality (P > 0.05) regardless of fire or lack of fire. With Q. crassifolia, top-kill and tree death were greatest in the smaller-diameter individuals. Also, the probability of top-kill was much greater than the probability of mortality; however, this difference diminished at diameters greater than 16 cm. Similarly, with A. xalapensis, there was an inverse relationship between diameter and probability of tree death.

Additional keywords: Arbutus xalapensis, Pinus teocote, probability of mortality, probability of resprouting, Quercus crassifolia, wildland fire.

References

Agee JK (1993) ‘Fire ecology of the Pacific Northwest.’ (Island Press: Washington, DC)

Blankenship BA, Arthur MA (2006) Stand structure over 9 years in burned and fire-excluded oak stands on the Cumberland Plateau, Kentucky. Forest Ecology and Management 225, 134–145.
| CrossRef |

Catry FX, Rego F, Moreira F, Fernandes FM, Pausas JG (2010) Post-fire tree mortality in mixed forests of central Portugal. Forest Ecology and Management 260, 1184–1192.
| CrossRef |

Clemente AS, Rego FC, Correia OA (2005) Growth, water relations and photosynthesis of seedlings and resprouts after fire. Acta Oecologica 27, 233–243.
| CrossRef |

Enright NJ, Fontaine JB, Westcott VC, Lade SC, Miller BP (2011) Fire interval effects on persistence of resprouter species in Mediterranean-type shrublands. Plant Ecology 212, 2071–2083.
| CrossRef |

Espinoza-Martínez A, Rodríguez-Trejo DA, Zamudio-Sanchez FJ (2008) Sinecology of the Pinus hartwegii understory two and three years after prescribed burns. Agrociencia 42, 717–730.

Farjon A, Styles BT (1997) ‘Pinus (Pinaceae). Flora Neotropica. Monograph 75.’ (New York Botanical Garden: New York)

Flores JG (Ed.) (2009) ‘Impacto ambiental de incendios forestales.’ (Mundi Prensa, INIFAP, CP: México)

García E (1981) ‘Modificaciones al sistema de clasificación climática de Köppen.’ (Instituto de Geografía de la UNAM: México)

Hosmer DW, Lemeshow S (2000) ‘Applied logistic regression.’ (Wiley: New York)

Jardel EJ, Alvarado E, Morfín JR, Castillo F, Flores JG (2009) Regímenes de fuego en ecosistemas forestales de México. In ‘Impacto ambiental de incendios forestales’. (Ed. JG Flores) pp. 73–100. (Mundiprensa, INIFAP, CP: México)

Knox KJE, Clarke PJ (2011) Fire severity and nutrient availability do not constrain resprouting in forest shrubs. Plant Ecology 212, 1967–1978.
| CrossRef |

Madrigal HL (1990) ‘Contribución al conocimiento de Quercus crassifolia Humb. & Bonpl., con énfasis en el estado de Veracruz. Tesis de Licenciatura. Universidad Autónoma Chapingo.’ (Chapingo, Edo. de México)

Martínez-Hernández HC, Rodríguez-Trejo DA (2008) Species diversity after prescribed burns at different intensities and seasons in a high altitude Pinus hartwegii forest. Interciencia 33, 337–344.

Miller M (2000) Fire autecology. In ‘Wildland fire in ecosystems: effects of fire on flora’. (Eds JK Brown, JK Smith) USDA Forest Service, Rocky Mountain Research Station, General Technical Report RMRS-GTR-42, vol. 2, pp. 9–34. (Ogden, UT)

Niembro RA (1986) ‘Árboles y arbustos útiles de México: naturales e introducidos.’ (Limusa: México)

Nixon KC (1993) The genus Quercus in Mexico. In ‘Biological diversity of Mexico: origins and distribution’. (Eds TP Ramamoorthy, R Bye, A Lot, J Fa) pp. 447–458. (Oxford University Press: Oxford, UK)

Pausas JG (1997) Resprouting of Quercus suber in NE Spain after fire. Journal of Vegetation Science 8, 703–706.
| CrossRef |

Perry JP Jr (1991) ‘The pines of Mexico and Central America.’ (Timber Press: Portland)

Robbins LE, Myers RL (1992) ‘Seasonal effects of prescribed burning in Florida: a review.’ Tall Timbers Research Station, Miscellaneous Publication Number 8. (Tallahassee, FL)

Rodríguez-Trejo DA (2008) Fire ecology, fire regimes and fire management in Mexico. Ambio 37, 548–556.
| CrossRef |

Rodríguez-Trejo DA, Fulé PZ (2003) Fire ecology of Mexican pines and a fire management proposal. International Journal of Wildland Fire 12, 23–37.
| CrossRef |

Rodríguez-Trejo DA, Myers RL (2010) Using oak characteristics to guide fire regime restoration in Mexican pine–oak and oak forests. Ecological Restoration 28, 304–323.
| CrossRef |

Rodríguez-Trejo DA, Rodríguez-Aguilar M, Villanueva-Morales A, Bonilla-Padilla E (2010) Forest structure indicators as estimators of forest fuels load in an oak-pine forest. In ‘Proceedings of the 6th International Conference on Forest Fire Research’. (Ed. DX Viegas)

Rodríguez-Trejo DA, Martínez-Hernández PA, Ortíz-Contla H, Chavarría-Sánchez MR, Hernández-Santiago F (2011) The present status of fire ecology, traditional use of fire and fire management in Mexico and Central America. Fire Ecology 7, 40–56.
| CrossRef |

Rzedowski J (1978) ‘Vegetación de México.’ (Limusa: México)

Sargent CS (1965) ‘Manual of the trees of North America (exclusive of Mexico).’ 2nd edn. (Dover Publications: New York)

van Steenis CGGJ (1972) Nothofagus, key genus to plant geography. In ‘Taxonomy phytogeography and evolution’. (Ed. DH Valantine) pp. 275–288. (Academic Press: London)

Whelan RJ (1997) ‘The ecology of fire.’ (Cambridge University Press: New York)

Zavala CF (1995) Encinos y robles: notas fitogeograficas. (Universidad Autónoma Chapingo. Chapingo: Chapingo)

Zavala CF (2003) ‘Identificación de encinos de México’. (División de Ciencias Forestales, Universidad Autónoma Chapingo: Chapingo)

Zavala CF (2007) ‘Guía de los encinos de la Sierra de Tepotzotlán, México’. (Universidad Autónoma Chapingo: Chapingo)

Subscriber Login

	Username: Password:

Legal & Privacy | Contact Us | Help