Fire
Fire Frequency Literature Citations (02/18/19)
Fire Frequency Literature Citations (02/18/19)
Aldrich, S.R., C.W. Lafon, H.D. Grissino-Mayer, and G.G. DeWeese. 2014. Fire history and its relations with land use and climate over three centuries in the central Appalachian
Aldrich, S.R., C.W. Lafon, H.D. Grissino-Mayer, and G.G. DeWeese. 2014. Fire history and its relations with land use and climate over three centuries in the central Appalachian
Mountains, USA. Journal of Biogeography. 41: 2093-2104.
Mountains, USA. Journal of Biogeography. 41: 2093-2104.
Baker, W.L. and D. Ehle. 2001. Uncertainty in surface-fire history: the case of ponderosa pine forests in the western United States. Canadian Journal of Forest Research. 31: 1205-
Baker, W.L. and D. Ehle. 2001. Uncertainty in surface-fire history: the case of ponderosa pine forests in the western United States. Canadian Journal of Forest Research. 31: 1205-
1226.
1226.
Boone IV, W.W., R.A. McCleery, and B.E. Reichert. 2017. Fox squirrel response to forest restoration treatments in longleaf pine. Journal of Mammalogy. 98: 1594-1603.
Boone IV, W.W., R.A. McCleery, and B.E. Reichert. 2017. Fox squirrel response to forest restoration treatments in longleaf pine. Journal of Mammalogy. 98: 1594-1603.
Cerano-Paredes, J., J. Villanueva-Díaz, R. Cervantes-Martínez, P. Fulé, L. Yocom, G. Esquivel-Arriaga, E. Jardel-Peláez. 2015. Historia de incendios en un bosque de pino de la sierra
Cerano-Paredes, J., J. Villanueva-Díaz, R. Cervantes-Martínez, P. Fulé, L. Yocom, G. Esquivel-Arriaga, E. Jardel-Peláez. 2015. Historia de incendios en un bosque de pino de la sierra
de Manantlán, Jalisco, México. Bosque. 36:41-52.
de Manantlán, Jalisco, México. Bosque. 36:41-52.
Díaz-Delgado, R., F. Lloret, and X. Pons. 2004. Statistical ananlysis of fire frequency models for Catalonia (NE Spain, 1975-1998) based on fire scar maps from Landsat MSS data.
Díaz-Delgado, R., F. Lloret, and X. Pons. 2004. Statistical ananlysis of fire frequency models for Catalonia (NE Spain, 1975-1998) based on fire scar maps from Landsat MSS data.
International Journal of Wildland Fire. 13: 89-99.
International Journal of Wildland Fire. 13: 89-99.
Dugan, A.J., and W.L. Baker. 2014. Modern calibration and historical testing of small-area, fire-interval reconstruction methods. International Journal of Wildland Fire. 23: 58-68.
Dugan, A.J., and W.L. Baker. 2014. Modern calibration and historical testing of small-area, fire-interval reconstruction methods. International Journal of Wildland Fire. 23: 58-68.
Engbring, B.L., E. Heitzman, and M.A. Spetich. 2008. Ridgetop fire history of an oak-oine forest in the Ozark Mountains of Arkansas. Southeastern Naturalist. 7: 49-60.
Engbring, B.L., E. Heitzman, and M.A. Spetich. 2008. Ridgetop fire history of an oak-oine forest in the Ozark Mountains of Arkansas. Southeastern Naturalist. 7: 49-60.
Enright, N.J., J.B. Fontaine, V.C. Westcott, J.C. Lade, B.P. Miller. 2011. Fire interval effects on persistence of resprouter species in Mediterranean-type shrublands. Plant Ecology.
Enright, N.J., J.B. Fontaine, V.C. Westcott, J.C. Lade, B.P. Miller. 2011. Fire interval effects on persistence of resprouter species in Mediterranean-type shrublands. Plant Ecology.
212: 2071-2083.
212: 2071-2083.
Frégeau, M., S. Payette1, and P. Grondin. 2015. Fire history of the central boreal forest in eastern North America reveals stability since the mid-Holocene. The Holocene. 25: 1912-
Frégeau, M., S. Payette1, and P. Grondin. 2015. Fire history of the central boreal forest in eastern North America reveals stability since the mid-Holocene. The Holocene. 25: 1912-
1922.
1922.
Gabrinski, Z.S., R.L. Sherriff, and J.M. Kane. Controls of reburn severity vary with fire interval in the Klamath Mountains, California, USA. 2017. Ecosphere. 8 (11): 1-15.
Gabrinski, Z.S., R.L. Sherriff, and J.M. Kane. Controls of reburn severity vary with fire interval in the Klamath Mountains, California, USA. 2017. Ecosphere. 8 (11): 1-15.
Greene, G.A., and L.D. Daniels. 2017. Spatial interpolation and mean fire interval analyses quantify historical mixed-severity fire regimes. International Journal of Wildland Fire. 26:
Greene, G.A., and L.D. Daniels. 2017. Spatial interpolation and mean fire interval analyses quantify historical mixed-severity fire regimes. International Journal of Wildland Fire. 26:
136-147.
136-147.
Grissino-Mayer, H.D. 1999. Modeling fire interval data from the American Southwest with the Weibull distribution. International Journal of Wildland Fire. 9: 37-50.
Grissino-Mayer, H.D. 1999. Modeling fire interval data from the American Southwest with the Weibull distribution. International Journal of Wildland Fire. 9: 37-50.
Guyette, R.P., M.C. Stambaugh, D.C. Dey,and R-M. Muzika1. 2012. Predicting fire frequency with chemistry and climate. Ecosystems. 15: 322-335.
Guyette, R.P., M.C. Stambaugh, D.C. Dey,and R-M. Muzika1. 2012. Predicting fire frequency with chemistry and climate. Ecosystems. 15: 322-335.
Guyette, R.P., F.R. Thompson, J. Whittier, M.C. Stambaugh, and D.C. Dey. 2014. Future fire probability modeling with climate change data and physical chemistry. Forest Science.
Guyette, R.P., F.R. Thompson, J. Whittier, M.C. Stambaugh, and D.C. Dey. 2014. Future fire probability modeling with climate change data and physical chemistry. Forest Science.
60:862-870.
60:862-870.
Haslem, A., S.C. Avitabile, R.S. Taylor, L.T. Kelly, S.J. Watson, D.G. Nimmob, S.A. Kenny, K.E. Callister, L.M. Spence-Bailey, A.F. Bennett, and M.F. Clarke. 2012. Time-since-fire and
Haslem, A., S.C. Avitabile, R.S. Taylor, L.T. Kelly, S.J. Watson, D.G. Nimmob, S.A. Kenny, K.E. Callister, L.M. Spence-Bailey, A.F. Bennett, and M.F. Clarke. 2012. Time-since-fire and
inter-fire interval influence hollow availability for fauna in a fire-prone system. Biological Conservation. 152: 212-221.
inter-fire interval influence hollow availability for fauna in a fire-prone system. Biological Conservation. 152: 212-221.
Huffman, D.W., J.E. Crouse, W.W. Chancellor, and P.Z. Fulé. 2012. Influence of time since fire on pinyon–juniper woodland structure. Forest Ecology and Management. 274: 29-37.
Huffman, D.W., J.E. Crouse, W.W. Chancellor, and P.Z. Fulé. 2012. Influence of time since fire on pinyon–juniper woodland structure. Forest Ecology and Management. 274: 29-37.
Huffman, D.W., T.J. Zegler, and P.Z. Fule´. 2015. Fire history of a mixed conifer forest on the Mogollon Rim, northern Arizona, USA. International Journal of Wildland Fire. 24: 680-
Huffman, D.W., T.J. Zegler, and P.Z. Fule´. 2015. Fire history of a mixed conifer forest on the Mogollon Rim, northern Arizona, USA. International Journal of Wildland Fire. 24: 680-
689.
689.
Júnior, A.C.P., S.L.J. Oliveira, J.M.C. Pereira, and M.A.A. Turkman. 2014. Modelling fire frequency in a Cerrado savanna protected area. PLoS ONE. 9(7): 1-11.
Júnior, A.C.P., S.L.J. Oliveira, J.M.C. Pereira, and M.A.A. Turkman. 2014. Modelling fire frequency in a Cerrado savanna protected area. PLoS ONE. 9(7): 1-11.
Kelly, L.T., A. Haslem, G.J. Holland, S.W. Leonard, J. MacHunter, M. Bassett, A.F. Bennett, M.J. Bruce, E.K. Chia, F.J. Christie, M.F. Clarke, J. Di Stefano, R. Loyn, M.A. McCarthy, A. Pung, N. Robinson, H. Sitters, M. Swan, and A. York. 2017. Fire regimes and environmental gradients shape vertebrate and plant distributions in temperate eucalypt forests.
Kelly, L.T., A. Haslem, G.J. Holland, S.W. Leonard, J. MacHunter, M. Bassett, A.F. Bennett, M.J. Bruce, E.K. Chia, F.J. Christie, M.F. Clarke, J. Di Stefano, R. Loyn, M.A. McCarthy, A. Pung, N. Robinson, H. Sitters, M. Swan, and A. York. 2017. Fire regimes and environmental gradients shape vertebrate and plant distributions in temperate eucalypt forests.
Ecosphere. 8(4): 1-31.
Ecosphere. 8(4): 1-31.
Kou, X. and W.L. Baker. 2006. Accurate estimation of mean fire interval for managing fire. International Journal of Wildland Fire. 15: 489-495.
Kou, X. and W.L. Baker. 2006. Accurate estimation of mean fire interval for managing fire. International Journal of Wildland Fire. 15: 489-495.
Krasnow, K.D., D.L. Fry and S.L. Stephens. 2017. Spatial, temporal and latitudinal components of historical fire regimes in mixed conifer forests, California. Journal of
Krasnow, K.D., D.L. Fry and S.L. Stephens. 2017. Spatial, temporal and latitudinal components of historical fire regimes in mixed conifer forests, California. Journal of
Biogeography. 44: 1239-1253.
Biogeography. 44: 1239-1253.
Maxwell, R.S., and R.R. Hicks, Jr. 2010. Fire history of a rimrock pine forest at New River Gorge National River, West Virginia. Natural Areas Journal. 30: 305-311.
Maxwell, R.S., and R.R. Hicks, Jr. 2010. Fire history of a rimrock pine forest at New River Gorge National River, West Virginia. Natural Areas Journal. 30: 305-311.
McCarthy, M.A., A.M. Gill, and R.A. Bradstock. 2001. Theoretical fire-interval distributions. International Journal of Wildland Fire. 10: 73-77.
McCarthy, M.A., A.M. Gill, and R.A. Bradstock. 2001. Theoretical fire-interval distributions. International Journal of Wildland Fire. 10: 73-77.
McKenzie, D., A.E. Hessl, and L-K. B. Kellogg. 2006. Using neutral models to identify constraints on low-severity fire regimes. Landscape Ecology. 21: 139-152.
McKenzie, D., A.E. Hessl, and L-K. B. Kellogg. 2006. Using neutral models to identify constraints on low-severity fire regimes. Landscape Ecology. 21: 139-152.
Molina-Pérez1, I.M., J. Cerano-Paredes, S. Rosales-Mata, J. Villanueva-Díaz, R. Cervantes-Martínez, G. Esquivel-Arriaga, and E. Cornejo-Oviedo. 2017. Historical fire frequency
Molina-Pérez1, I.M., J. Cerano-Paredes, S. Rosales-Mata, J. Villanueva-Díaz, R. Cervantes-Martínez, G. Esquivel-Arriaga, and E. Cornejo-Oviedo. 2017. Historical fire frequency
(1779-2013) in pine-oak forests in the community of Charcos, Mezquital, Durango. Revista Chapingo Serie Ciencias Forestales y del Ambiente. 23: 91-104.
(1779-2013) in pine-oak forests in the community of Charcos, Mezquital, Durango. Revista Chapingo Serie Ciencias Forestales y del Ambiente. 23: 91-104.
Moore, N., S. Barrett, K. Howard, M.D. Craig, B. Bowen, B. Shearer, and G. Hardy. 2014. Time since fire and average fire interval are the best predictors of Phytophthora cinnamomi
Moore, N., S. Barrett, K. Howard, M.D. Craig, B. Bowen, B. Shearer, and G. Hardy. 2014. Time since fire and average fire interval are the best predictors of Phytophthora cinnamomi
activity in heathlands of south-western Australia. Australian Journal of Botany. 62: 587-593.
activity in heathlands of south-western Australia. Australian Journal of Botany. 62: 587-593.
Moritz. M.A., T.J. Moody, L.J. Miles, M.M. Smith, and P. de Valpine. 2009. The fire frequency analysis branch of the pyrostatistics tree: sampling decisions and censoring in fire
Moritz. M.A., T.J. Moody, L.J. Miles, M.M. Smith, and P. de Valpine. 2009. The fire frequency analysis branch of the pyrostatistics tree: sampling decisions and censoring in fire
interval data. Environmental and Ecological Statistics. 16: 271-289.
interval data. Environmental and Ecological Statistics. 16: 271-289.
Muzika, R.M., R.P. Guyette, M.C. Stambaugh, and J.M. Marschall. 2015. Fire, drought, and humans in a heterogeneous Lake Superior landscape. Journal of Sustainable Forestry. 34:
Muzika, R.M., R.P. Guyette, M.C. Stambaugh, and J.M. Marschall. 2015. Fire, drought, and humans in a heterogeneous Lake Superior landscape. Journal of Sustainable Forestry. 34:
49-70.
49-70.
Parsons, R.A., E.K. Heyerdahl, R.E. Kane, B. Dorner, and J. Fall. 2007. Assessing accuracy of point fire intervals across landscapes with simulation modeling. Canadian Journal of
Parsons, R.A., E.K. Heyerdahl, R.E. Kane, B. Dorner, and J. Fall. 2007. Assessing accuracy of point fire intervals across landscapes with simulation modeling. Canadian Journal of
Forest Research. 37: 1605-1614.
Forest Research. 37: 1605-1614.
Payette, S., A. Delwaide, A. Schaffhauser, and G. Magnan. 2012. Calculating long-term fire frequency at the stand scale from charcoal data. Ecosphere. 3(7): 1-16.
Payette, S., A. Delwaide, A. Schaffhauser, and G. Magnan. 2012. Calculating long-term fire frequency at the stand scale from charcoal data. Ecosphere. 3(7): 1-16.
Reed, W.J. 2006. A note on fire frequency concepts and definitions. Canadian Journal of Forest Research. 36: 1884-1888.
Reed, W.J. 2006. A note on fire frequency concepts and definitions. Canadian Journal of Forest Research. 36: 1884-1888.
Speer, J.H., M. Kaye, N.J. Reo, L.F. Howard, A.K. Anning, S.W. Wood, and H.M. Wilbur. 2013. Fire history and age structure of an oakpine forest on Price Mountain, Virginia, USA.
Speer, J.H., M. Kaye, N.J. Reo, L.F. Howard, A.K. Anning, S.W. Wood, and H.M. Wilbur. 2013. Fire history and age structure of an oakpine forest on Price Mountain, Virginia, USA.
Natural Areas Journal. 33: 440-446.
Natural Areas Journal. 33: 440-446.
Sinsin, F., R.G. Kakaï, B. Orthmann, and B. Sinsin. 2015. Tree-ring: a suitable implement for spatial and temporal fire distribution analysis in savanna woodland and dry forest.
Sinsin, F., R.G. Kakaï, B. Orthmann, and B. Sinsin. 2015. Tree-ring: a suitable implement for spatial and temporal fire distribution analysis in savanna woodland and dry forest.
Journal of Forestry Research. 26: 435-446.
Journal of Forestry Research. 26: 435-446.
Stambaugh, M.C., R.P. Guyette, and J. Marschall. 2013. Fire history in the Cherokee Nation of Oklahoma. Human Ecology. 41: 749-758.
Stambaugh, M.C., R.P. Guyette, and J. Marschall. 2013. Fire history in the Cherokee Nation of Oklahoma. Human Ecology. 41: 749-758.
Stambaugh, M.C., J.C. Sparks, and E.R. Abadir. 2014. Historical pyrogeography of Texas, USA. Fire Ecology. 10: 72-89.
Stambaugh, M.C., J.C. Sparks, and E.R. Abadir. 2014. Historical pyrogeography of Texas, USA. Fire Ecology. 10: 72-89.
Stambaugh, M.C., R.P. Guyette, E.D. Stroh, M.A. Struckoff, and J.B. Whittier. 2018. Future southcentral US wildfire probability due to climate change. Climatic Change. 147: 617-631.
Stambaugh, M.C., R.P. Guyette, E.D. Stroh, M.A. Struckoff, and J.B. Whittier. 2018. Future southcentral US wildfire probability due to climate change. Climatic Change. 147: 617-631.
White, C.R., and G.L. Harley. 2016. Historical fire in longleaf pine (Pinus palustris) forests of south Mississippi and its relation to land use and climate. Ecosphere. 7(11): 1-17.
White, C.R., and G.L. Harley. 2016. Historical fire in longleaf pine (Pinus palustris) forests of south Mississippi and its relation to land use and climate. Ecosphere. 7(11): 1-17.
Whitehair, L., P.Z. Fulé, A.S. Meador, and A. Azpeleta. 2018. Fire regime on a cultural landscape: Navajo Nation. Ecology and Evolution. 8: 9848-9858.
Whitehair, L., P.Z. Fulé, A.S. Meador, and A. Azpeleta. 2018. Fire regime on a cultural landscape: Navajo Nation. Ecology and Evolution. 8: 9848-9858.
Wittkuhn, R.S., L. McCawb, A.J. Wills, R. Robinson, A.N. Andersen, P. Van Heurcka, J. Farr, G. Liddelow, R. Cranfield. 2011. Variation in fire interval sequences has minimal effects
Wittkuhn, R.S., L. McCawb, A.J. Wills, R. Robinson, A.N. Andersen, P. Van Heurcka, J. Farr, G. Liddelow, R. Cranfield. 2011. Variation in fire interval sequences has minimal effects
on species richness and composition in fire-prone landscapes of south-west Western Australia. Forest Ecology and Management. 261: 965-978.
on species richness and composition in fire-prone landscapes of south-west Western Australia. Forest Ecology and Management. 261: 965-978.
Yang, J., H.S. He, B.R. Sturtevant, B.R. Miranda, and E.J. Gustafson. 2008. Comparing effects of fire modeling methods on simulated fire patterns and succession: a case study in
Yang, J., H.S. He, B.R. Sturtevant, B.R. Miranda, and E.J. Gustafson. 2008. Comparing effects of fire modeling methods on simulated fire patterns and succession: a case study in
the Missouri Ozarks. Canadian Journal of Forest Research. 38: 1290-1302.
the Missouri Ozarks. Canadian Journal of Forest Research. 38: 1290-1302.