Early vegetation recovery following a mid to high-severity fire in the Andean-Patagonian forests

RAGO, MARIA MELISA; URRETAVIZCAYA, MARÍA FLORENCIA; MORELLI, PABLO; MOHR BELL, DIEGO; GUZMÁN, MARIO

AUSTRAL ECOLOGY

WILEY-BLACKWELL PUBLISHING, INC

Año: 2023

1442-9985

A change in fire regimes is occurring worldwide, affecting post-fire succession. Under this context, there is an increasing need to prioritize restoration areas and focus on their particular goals. To assess the emergent understorey represents the first approximation of post-fire re-vegetation, necessary to establish appropriate restoration guidelines. In this study, we aimed to assess the initial post-fire response in a mid to high-severity fire in the Andean-Patagonian forests. We (1) compared plant community structure among fire severities, (2) evaluated the response of plant community structure to the interaction between fire severity and forest type, (3) compared plant composition among fire severity-forest type categories and (4) evaluated woody species regeneration after fire. We found that the vegetation cover of the lower stratum began to recover early after the fire and to a greater extent in mid than in high severity, whereas the upper stratum was incipient in the mid and nil in high severity. Native species predominated in burned and unburned plots, although they were less in the burned plots. Among the growth form, shrubs and trees were similarly affected by fire, independently of the forest type. Plant community composition varied among most fire severity-forest type categories. The frequency of woody species regenerated by resprouts and by seeds was lower in burned than unburned plots. These results suggest that although there is an early recovery of vegetation, the high cover of exposed soil and the loss of the upper vegetation stratum may favour erosion and difficult tree establishment. Besides, tree species that only regenerate from seeds will probably not recover naturally. In addition, the presence of exotic species with high invasive risk may need control. Thus, since fire severity and forest type may drive different post-fire natural recovery scenarios, different restoration actions should be taken to promote resilient systems for the future.