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Plant functional traits in relation to fire in crown-fire ecosystems

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posted on 2024-11-14, 22:31 authored by Juli G Pausus, Ross BradstockRoss Bradstock, David Keith, Jon E Keeley
Disturbance is a dominant factor in many ecosystems, and the disturbance regime is likely to change over the next decades in response to land-use changes and global warming. We assume that predictions of vegetation dynamics can be made on the basis of a set of life-history traits that characterize the response of a species to disturbance. For crown-fire ecosystems, the main plant traits related to postfire persistence are the ability to resprout (persistence of individuals) and the ability to retain a persistent seed bank (persistence of populations). In this context, we asked (1) to what extent do different life-history traits co-occur with the ability to resprout and/or the ability to retain a persistent seed bank among differing ecosystems and (2) to what extent do combinations of fire-related traits (fire syndromes) change in a fire regime gradient? We explored these questions by reviewing the literature and analyzing databases compiled from different crown-fire ecosystems (mainly eastern Australia, California, and the Mediterranean basin). The review suggests that the pattern of correlation between the two basic postfire persistent traits and other plant traits varies between continents and ecosystems. From these results we predict, for instance, that not all resprouters respond in a similar way everywhere because the associated plant traits of resprouter species vary in different places. Thus, attempts to generalize predictions on the basis of the resprouting capacity may have limited power at a global scale. An example is presented for Australian heathlands. Considering the combination of persistence at individual (resprouting) and at population (seed bank) level, the predictive power at local scale was significantly increased.

History

Citation

Pausus, J. G., Bradstock, R. A., Keith, D. A. & Keeley, J. E. (2004). Plant functional traits in relation to fire in crown-fire ecosystems. Ecology, 85 (4), 1085-1100.

Journal title

Ecology

Volume

85

Issue

4

Pagination

1085-1100

Publisher website/DOI

Language

English

RIS ID

21253

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