TY - JOUR
T1 - Changes in forest structure and composition after fire in tropical montane cloud forests near the Andean treeline
AU - Oliveras, Imma
AU - Malhi, Yadvinder
AU - Salinas, Norma
AU - Huaman, Vicky
AU - Urquiaga-Flores, Erickson
AU - Kala-Mamani, Jose
AU - Quintano-Loaiza, Jose Antonio
AU - Cuba-Torres, Israel
AU - Lizarraga-Morales, Nohemi
AU - Román-Cuesta, Rosa Maria
PY - 2014
Y1 - 2014
N2 - Background: In tropical montane cloud forests (TMCFs) fires can be a frequent source of disturbance near the treeline. Aims: To identify how forest structure and tree species composition change in response to fire and to identify fire-tolerant species, and determine which traits or characteristics are associated with fire tolerance. Methods: Shifts in forest structure and diversity were assessed on 15 paired plots in burnt and unburnt (control) forests, along a fire chronosequence. Species were classified as fire-sensitive, fire survivors or fire thrivers, using a fire tolerance index. Regression and tree analyses were used to determine which traits contributed to the fire tolerance of species. Results: There were more small- and medium-sized trees in the burnt plots independent of time since the last fire. There were shifts in family importance value and in species diversity among the plots. Of the 73 species analysed there were 39 fire-sensitive species, 19 fire survivors and 14 fire thrivers. Sprouting ability and biomass showed a positive relationship with the fire tolerance of species. Conclusions: There were immediate as well as long-term (up to 15 years) effects of fire on forest structure and species composition, suggesting that TMCFs take more than 15 years to regenerate from a fire. Long-term studies are needed to fully understand regeneration patterns of TMCFs after fires.
AB - Background: In tropical montane cloud forests (TMCFs) fires can be a frequent source of disturbance near the treeline. Aims: To identify how forest structure and tree species composition change in response to fire and to identify fire-tolerant species, and determine which traits or characteristics are associated with fire tolerance. Methods: Shifts in forest structure and diversity were assessed on 15 paired plots in burnt and unburnt (control) forests, along a fire chronosequence. Species were classified as fire-sensitive, fire survivors or fire thrivers, using a fire tolerance index. Regression and tree analyses were used to determine which traits contributed to the fire tolerance of species. Results: There were more small- and medium-sized trees in the burnt plots independent of time since the last fire. There were shifts in family importance value and in species diversity among the plots. Of the 73 species analysed there were 39 fire-sensitive species, 19 fire survivors and 14 fire thrivers. Sprouting ability and biomass showed a positive relationship with the fire tolerance of species. Conclusions: There were immediate as well as long-term (up to 15 years) effects of fire on forest structure and species composition, suggesting that TMCFs take more than 15 years to regenerate from a fire. Long-term studies are needed to fully understand regeneration patterns of TMCFs after fires.
KW - bark thickness
KW - fire sensitivity
KW - Peruvian Andes
KW - species diversity
KW - sprouting, tree size
KW - wood density
UR - http://www.scopus.com/inward/record.url?scp=84893250342&partnerID=8YFLogxK
U2 - 10.1080/17550874.2013.816800
DO - 10.1080/17550874.2013.816800
M3 - Article
AN - SCOPUS:84893250342
SN - 1755-0874
VL - 7
SP - 329
EP - 340
JO - Plant Ecology and Diversity
JF - Plant Ecology and Diversity
IS - 1-2
ER -