Citation

Guiomar N, Godinho S, Fernandes PM, Machado R, Neves N, Fernandes JP. Sci. Total Environ. 2015; 536: 338-352.

Affiliation

ICAAM, Institute of Mediterranean Agricultural and Environmental Sciences, University of Évora, Núcleo da Mitra, Apt. 94, 7002-554 Évora, Portugal; Department of Landscape, Environment and Planning, University of Évora, Colégio Luis António Verney, Rua Romão Ramalho 59, 7000-671 Évora, Portugal. Electronic address: jpaf@uevora.pt.

Copyright

(Copyright © 2015, Elsevier Publishing)

DOI

10.1016/j.scitotenv.2015.07.087

PMID

26232754

Abstract

Fire is infrequent in the oak woodlands of southern Portugal (montado) but large and severe fires affected these agro-forestry systems in 2003-2005. We hypothesised transition from forest to shrubland as a fire-driven process and investigated the links between fire incidence and montado change to other land cover types, particularly those related with the presence of pioneer communities (generically designed in this context as "transitions to early-successional communities"). We present a landscape-scale framework for assessing the probability of transition from montado to pioneer communities, considering three sets of explanatory variables: montado patterns in 1990 and prior changes from montado to early-successional communities (occurred between 1960 and 1990), fire patterns, and spatial factors. These three sets of factors captured 78.2% of the observed variability in the transitions from montado to pioneer vegetation. The contributions of fire patterns and spatial factors were high, respectively 60.6% and 43.4%, the influence of montado patterns and former changes in montado being lower (34.4%). The highest amount of explained variation in the occurrence of transitions from montado to early-successional communities was related to the pure effect of fire patterns (19.9%). Low spatial connectedness in montado landscape can increase vulnerability to changes, namely to pioneer vegetation, but the observed changes were mostly explained by fire characteristics and spatial factors. Among all metrics used to characterize fire patterns and extent, effective mesh size provided the best modelling results. Transitions from montado to pioneer communities are more likely in the presence of high values of the effective mesh size of total burned area. This cross-boundary metric is an indicator of the influence of large fires in the distribution of the identified transitions and, therefore, we conclude that the occurrence of large fires in montado increases its probability of transition to shrubland.

Language: en