Near zero mortality in juvenile Pinus hartwegii Lindl. after a prescribed burn and comparison with mortality after a wildfire

doi:10.3832/ifor2760-012

Near zero mortality in juvenile Pinus hartwegii Lindl. after a prescribed burn and comparison with mortality after a wildfire

Ramón Hernández-Correa^(1-3), Dante Arturo Rodríguez-Trejo⁽¹⁾, Arturo Cruz-Reyes⁽²⁾

iForest - Biogeosciences and Forestry, Volume 12, Issue 4, Pages 397-402 (2019)
doi: https://doi.org/10.3832/ifor2760-012
Published: Jul 31, 2019 - Copyright © 2019 SISEF

Research Articles

PDF Version

Full Text

Citation

Geo-mapping

Fire is considered a relevant ecological factor, however, human alterations of fire regime facilitate more destructive wildfires. The aims of this work were to model probability of tree mortality and to identify the factors associated with leader shoot growth in a prescribed burn area and in a nearby wildfire area in a juvenile Pinus hartwegii Lindl. stand in central Mexico. A prescribed burn was carried out in 10-ha stand in March 2012, and compared with a close area affected by a wildfire occurred one week later, as well as with a nearby unburned area taken as control. A logistic model was used to estimate the probability of mortality, and a linear regression model was employed to investigate factors related to leader shoot growth. No tree mortality was recorded in the unburned control. In contrast, mortality was 6% in the prescribed burn and 66.9% in the wildfire area. The probability of mortality was influenced by stem char height (positively, p<0.0001), tree height (negatively, p=0.0443), and diameter at breast height (negatively, p<0.0001). The variables that had more influence on leader shoot growth were stem char height (negatively, p<0.0001) and tree height (positively, p<0.0001). This work supports evidence of the feasibility of using low intensity prescribed burns in this ecosystem with minimum effects on young tree mortality.

Keywords

Fire Adaptations, Fire Ecology, Integral Fire Management, Prescribed Burning, Probability of Mortality, Logistic Regression, Pinus hartwegii

Authors’ address

(1)

0000-0002-1407-8365
División de Ciencias Forestales, Universidad Autónoma Chapingo, Chapingo, Edo. de Méx., km. 38.5 carretera México-Texcoco, C.P. 56230 (México)

(2)

Comisión Nacional Forestal, Puerta Calle Progreso 114, Santa Catarina, Del. Coyoacán, C.P. 04100, Ciudad de México (México)

(3)

Deceased

Corresponding author

dantearturo@yahoo.com

Citation

Hernández-Correa R, Rodríguez-Trejo DA, Cruz-Reyes A (2019). Near zero mortality in juvenile Pinus hartwegii Lindl. after a prescribed burn and comparison with mortality after a wildfire. iForest 12: 397-402. - doi: 10.3832/ifor2760-012

Academic Editor

Nicola Puletti

Paper history

Received: Feb 13, 2018
Accepted: May 12, 2019

First online: Jul 31, 2019
Publication Date: Aug 31, 2019
Publication Time: 2.67 months

Open Access

This article is distributed under the terms of the Creative Commons Attribution-Non Commercial 4.0 International (https://creativecommons.org/licenses/by-nc/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

Breakdown by View Type

(Waiting for server response...)

Article Usage

Total Article Views: 12129
(from publication date up to now)

Breakdown by View Type
HTML Page Views: 9284
Abstract Page Views: 762
PDF Downloads: 1739
Citation/Reference Downloads: 1
XML Downloads: 343

Web Metrics
Days since publication: 1729
Overall contacts: 12129
Avg. contacts per week: 49.11

Article Citations

Article citations are based on data periodically collected from the Clarivate Web of Science web site
(last update: Nov 2020)

(No citations were found up to date. Please come back later)

(no Plumx Metrics available for this paper)

Publication Metrics

by Dimensions ^©

Articles citing this article

List of the papers citing this article based on CrossRef Cited-by.

(1)

Agee JK (1993)
Fire ecology of Pacific Northwest forests. Island Press, Washington, DC, USA, pp. 493.
Gscholar

(2)

Brockway DG, Outcalt KW (1998)
Gap-phase regeneration in longleaf pine wire grass ecosystems. Forest Ecology and Management 106: 125-139.
CrossRef | Gscholar

(3)

Chambers JL, Dougherty PM, Hennessey TC (1986)
Fire: Its effects on growth and physiological processes in conifer forests. In: “Stress Physiology and Forest Productivity” (Hennessey TC, Dougherty PM, Kossuths V, Johnson JD eds). Martinus Nijhoff Publications, Boston, MA, USA, pp. 177-189.
Gscholar

(4)

CONAFOR (2012a)
Reporte de incendios forestales [Forest fires report]. Comisión Nacional Forestal - CONAFOR, México, pp. 18. [in Spanish]
Online | Gscholar

(5)

CONAFOR (2012b)
Programas y acciones de reforestación, conservación y restauración de suelos, incendios forestales y sanidad forestal [Programs and actions on reforestation, conservation and restoration of soils, forest fires and forest health]. Comisión Nacional Forestal - CONAFOR, México, pp. 172. [in Spanish]
Gscholar

(6)

Espinoza-Martínez A, Rodríguez-Trejo DA, Zamudio-Sánchez JF (2008)
Sinecología del sotobosque de Pinus hartwegii dos y tres años después de quemas prescritas [Synecology of the understory of Pinus hartwegii two and three years after prescribed burns]. Agrociencia 42: 717-730. [in Spanish]
Gscholar

(7)

Farjon AJ, Pérez De La Rosa A, Styles BT (1997)
A field guide to the pines of Mexico and Central America. Royal Botanic Gardens, Kew, UK, pp. 147.
Gscholar

(8)

Fernandes PM, Vega JS, Jiménez E, Rigolot E (2008)
Fire resistance of European pines. Forest Ecology and Management 256: 246-255.
CrossRef | Gscholar

(9)

González-Rosales A, Rodríguez-Trejo DA (2004)
Efecto del chamuscado de copa en el crecimiento en diámetro de Pinus hartwegii Lindl. [Effect of crown scorch on the diameter growth of Pinus hartwegii Lind.]. Agrociencia 38: 537-544. [in Spanish]
Gscholar

(10)

Grelen HE (1983)
May burning favor survival and early growth of longleaf pine seedlings? Southern Journal of Applied Forestry 7: 16-20.
Gscholar

(11)

Hood SM, Smith SL, Cluck DR (2010)
Predicting mortality of five California conifers following wildfire. Forest Ecology and Management 260: 750-762.
CrossRef | Gscholar

(12)

Hosmer DW, Lemeshow S (2000)
Applied logistic regression. Wiley, New York, USA, pp. 392.
Gscholar

(13)

Islas-Madrid GE, Rodríguez-Trejo DA, Martínez HPA (2013)
Diversidad del sotobosque y radiación solar en un bosque de Pinus hartwegii con quema prescrita [Understory diversity and solar radiation in a Pinus hartwegii forest after a prescribed burn]. Revista Mexicana de Ciencias Forestales 4: 25-40. [in Spanish]
CrossRef | Gscholar

(14)

Keeley JE (2012)
Ecology and evolution of pine life histories. Annals of Forest Science 69: 445-453.
CrossRef | Gscholar

(15)

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.
Gscholar

(16)

Mchugh CW, Kolb TE (2003)
Ponderosa pine mortality following fire in northern Arizona. International Journal of Wildland Fire 12: 7-22.
CrossRef | Gscholar

(17)

Miller M (2000)
Fire autecology. In: “Wildland Fire in Ecosystems. Effects of Fire on Flora” (Brown JK, Smith JK eds). Technical Report RMRS-GTR-42 vol. 2, USDA Forest Service, Rocky Mountain Research Station, Ogden, UT, USA, pp. 9-34.
Gscholar

(18)

Mutch LS, Parsons DJ (1998)
Mixed conifer forest mortality and establishment before and after prescribed burning in Sequoia National Park, California. Forest Science 44: 341-355.
Gscholar

(19)

Myers RL (2005)
Convivir con el fuego. Manteniendo los ecosistemas y los medios de subsistencia mediante el Manejo Integral del Fuego [Living with fire. Sustaining ecosystems and livelihoods through Integrated Fire Management]. The Nature Conservancy, Tallahassee, FL, USA. pp. 28. [in Spanish]
Gscholar

(20)

Perry JP (1991)
The pines of Mexico and Central America. Timber Press, Portland, OR, USA, pp. 231.
Gscholar

(21)

Pollet J, Omi PN (2002)
Effect of thinning and prescribed burning on crown fire severity in ponderosa pine forests. International Journal of Wildland Fire 11: 1-10.
CrossRef | Gscholar

(22)

Robles-Gutiérrez CA, Velázquez-Martínez A, Rodríguez-Trejo DA, Reyes-Hernández VJ, Etchevers-Barra JE (2015)
Probability of mortality by fire damage of young Pinus hartwegii Lindl. trees in the Izta-Popo National Park. Revista Chapingo Serie Ciencias Forestales y del Ambiente 22: 165-178.
Gscholar

(23)

Rodríguez-Trejo DA (2000)
Educación e incendios forestales [Education and forest fires]. Mundi Prensa, México, pp. 201. [in Spanish]
Gscholar

(24)

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

(25)

Rodríguez-Trejo DA, Castro-Solis UB, Zepeda-Bautista M, Carr RJ (2007)
First year survival of Pinus hartwegii following prescribed burns at different intensities and different seasons in central Mexico. International Journal of Wildland Fire 16: 54-62.
CrossRef | Gscholar

(26)

Rodríguez-Trejo DA (2014)
Incendios de vegetación. Su ecología, manejo e historia [Forest fires. Ecology, management and history]. Vol. 1. Ed. C.P., UACH, Semarnat, Conafor, PNIP, Conanp, México, pp. 889.Rodríguez-Trejo DA (2000). Educación e incendios forestales [Education and forest fires]. Mundi Prensa, México, pp. 201. [in Spanish]
Gscholar

(27)

Rodríguez-Trejo DA (2015)
Incendios de vegetación. Su ecología, manejo e historia [Forest fires. Ecology, management and history]. Vol. 2. Ed. C.P., UACH, Semarnat, Conafor, PNIP, Conanp, FMCN, Gobierno do Tabasco, México. pp. 812. [in Spanish]
Gscholar

(28)

Ryan KC, Frandsen WH (1991)
Basal injury from smoldering fires in mature Pinus ponderosa Laws. International Journal of Wildland Fire 1: 107-118.
CrossRef | Gscholar

(29)

Ryan KC, Reinhardt ED (1988)
Predicting post-fire mortality of seven western conifers in wildfires. Canadian Journal of Forest Research 3: 373-378.
Gscholar

(30)

SAS Institute (2002)
Statistical analysis system. SAS Institute, Raleigh, NC, USA.
Gscholar

(31)

Scott AD, Bowman DMJS, Bond WJ, Pyne SJ, Alexander ME (2014)
Fire on earth. An introduction. Wiley-Blackwell, Singapore, pp. 413.
Gscholar

(32)

SEMARNAP/UACH (1999)
Atlas forestal de México [Mexico’s forestry atlas]. SEMARNAP - Secretaría de Medio Ambiente, Recursos Naturales y Pesca, UACH - Universidad Autónoma Chapingo, México, pp. 103. [in Spanish]
Gscholar

(33)

UJED (2018)
Sistema de predicción de peligro de incendios forestales de México. Evolución semanal de peligro de incendio e incendios combatidos [Mexico’s Forest Fires Prediction System. Weekly evolution of forest fire danger and fighted forest fires]. Universidad Juárez del Estado de Durango, Durango, México. [in Spanish]
Online | Gscholar

(34)

Vera-Vilchis V, Rodríguez-Trejo DA (2007)
Supervivencia e incremento en altura de Pinus hartwegii a dos años de quemas prescritas e incendios experimentales [Survival and height increment of Pinus hartwegii two years after prescribed burns and experimental forest fires]. Agrociencia 41: 219-230. [in Spanish]
Gscholar

(35)

Weise DR, Fujioka FM, Nelson MRJ (2005)
A comparison of three models of 1 h time-lag fuel moisture in Hawaii. Agricultural and Forest Meteorology 133: 28-39.
CrossRef | Gscholar

(36)

Whelan RJ (1997)
The ecology of fire. Cambridge University Press, Cambridge, UK, pp. 346.
Gscholar

(37)

Woolley T, Shaw DC, Ganio LM, Fitzgerald S (2012)
A review of logistic regression models used to predict post-fire tree mortality of western North American conifers. International Journal of Wildland Fire 21: 1-35.
CrossRef | Gscholar

iForest - Biogeosciences and Forestry

Contents

Search

Journal Info

Journal Subjects and Fields

For Authors

For Reviewers

For Readers

SISEF Publishing

Search iForest Contents