TY - JOUR
T1 - Shrubs versus 'gullivers'
T2 - Woody species coping with disturbance in grasslands
AU - Hermann, Julia Maria
AU - Haug, Stephan
AU - DePatta Pillar, Valério
AU - Pfadenhauer, Jörg
N1 - Funding Information:
Acknowledgments Our sincere thanks go to Marcos Westphalen, Sandra Müller, the UFRGS security guards and the staff of the PUCRS research station ’Pró-Mata’, Dona Eronita Homem and family and Dr. Ricardo Mello, for support and assistance during field campaigns. Gerhard Overbeck, Johannes Kollmann and three anonymous reviewers provided helpful comments on earlier versions of this manuscript. JMH acknowledges funding by Deutsche Forschungsgemeinschaft (DFG, PF120/10-1 and PF120/10-2).
PY - 2012/11
Y1 - 2012/11
N2 - Resprouting of trees and shrubs in forest-grassland ecotones is a key process to understand the dynamics of these systems under different disturbance regimes. This study integrates resprouting of grassland shrubs and pioneer forest trees ('gullivers'), burned in subtropical lowland grassland and cut in temperate highland grassland of Rio Grande do Sul, Brazil. Per grassland site, 20 individuals each of 1-2 grassland shrub species (Asteraceae) and two forest tree species (Myrsinaceae, Myrtaceae) were tagged, and post-disturbance survival and growth monitored for 1 year at 2-4 month intervals. Differences in resprouting vigour (summed-up basal area of resprouted shoots per pre-disturbance summed-up area of basal stems), and in density and allometry of resprouted shoots (allocation mode) were compared between tree and shrub species by linear mixed effects modelling and multiple comparisons, using the Tukey test. All grassland shrub individuals resprouted and regained 73-142 % (species average) of pre-disturbance basal area within one year, as opposed to 14-24 % in trees. All Myrtaceae 'gullivers' resprouted, but up to two-thirds of Myrsine individuals did not survive disturbance. Tree species tended to produce either many slender or few stout shoots, while shrub species were intermediate between these extremes. Forest trees regained 22-46 % of pre-disturbance height, independent of allocation mode, and grassland shrubs up to 73 %. This suggests that grassland fires allow grassland shrubs but not forest trees to persist and to grow to reproductive size. Differing sprout allocation modes may reflect allometric constraints rather than strategies to outgrow the fire-prone grass matrix.
AB - Resprouting of trees and shrubs in forest-grassland ecotones is a key process to understand the dynamics of these systems under different disturbance regimes. This study integrates resprouting of grassland shrubs and pioneer forest trees ('gullivers'), burned in subtropical lowland grassland and cut in temperate highland grassland of Rio Grande do Sul, Brazil. Per grassland site, 20 individuals each of 1-2 grassland shrub species (Asteraceae) and two forest tree species (Myrsinaceae, Myrtaceae) were tagged, and post-disturbance survival and growth monitored for 1 year at 2-4 month intervals. Differences in resprouting vigour (summed-up basal area of resprouted shoots per pre-disturbance summed-up area of basal stems), and in density and allometry of resprouted shoots (allocation mode) were compared between tree and shrub species by linear mixed effects modelling and multiple comparisons, using the Tukey test. All grassland shrub individuals resprouted and regained 73-142 % (species average) of pre-disturbance basal area within one year, as opposed to 14-24 % in trees. All Myrtaceae 'gullivers' resprouted, but up to two-thirds of Myrsine individuals did not survive disturbance. Tree species tended to produce either many slender or few stout shoots, while shrub species were intermediate between these extremes. Forest trees regained 22-46 % of pre-disturbance height, independent of allocation mode, and grassland shrubs up to 73 %. This suggests that grassland fires allow grassland shrubs but not forest trees to persist and to grow to reproductive size. Differing sprout allocation modes may reflect allometric constraints rather than strategies to outgrow the fire-prone grass matrix.
KW - Coppice
KW - Fire
KW - Forest-grassland ecotone
KW - Resprout
KW - Shoot allometry
KW - Shoot density
KW - Sprouters
KW - Woody species
UR - http://www.scopus.com/inward/record.url?scp=84869040917&partnerID=8YFLogxK
U2 - 10.1007/s11258-012-0131-4
DO - 10.1007/s11258-012-0131-4
M3 - Article
AN - SCOPUS:84869040917
SN - 1385-0237
VL - 213
SP - 1757
EP - 1768
JO - Plant Ecology
JF - Plant Ecology
IS - 11
ER -