Assessing the Response of Different Soil Arthropod Communities to Fire: A Case Study from Northwestern Africa

Assessing the Response of Different Soil Arthropod Communities to Fire: A Case Study from Northwestern Africa

In recent decades, forest fires in the Mediterranean basin have been increasing in frequency, intensity, and the area burnt. Simultaneously, insects, a group with extraordinary biodiversity that provides vital ecosystem services such as pollination and decomposition, are undergoing a precipitous dec...

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Bibliographic Details
Published in:Fire (Basel, Switzerland) Switzerland), 2023-05, Vol.6 (5), p.206
Main Authors: EL Khayati, Mounia, Chergui, Brahim, Barranco, Pablo, Fahd, Soumia, Ruiz, José L., Taheri, Ahmed, Santos, Xavier
Format: Article
Language:eng
Subjects:
Abundance
Arthropoda
Arthropods
Biodiversity
Climate change
Coleoptera
Composition
Coniferous forests
Dispersal
Dispersion
Ecosystem services
Environmental aspects
fire
Forest fires
Habitat preferences
Insects
Life history
Mediterranean basin
Nests
pine plantations
Pitfall traps
Plant reproduction
Pollination
Sampling
soil arthropods
Soils
Species composition
Taxonomy
Vegetation
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Summary:In recent decades, forest fires in the Mediterranean basin have been increasing in frequency, intensity, and the area burnt. Simultaneously, insects, a group with extraordinary biodiversity that provides vital ecosystem services such as pollination and decomposition, are undergoing a precipitous decline. Unfortunately, the impact of fire on arthropod communities has been poorly addressed despite the high diversity of taxonomic and functional arthropod groups. Responses to fire can differ considerably, depending on the life history and functional traits of the species. In the present study, we investigate the short-term impact of fire (three years after a blaze) on the abundance and species composition of soil arthropods in a burnt pine forest located in Ceuta (Spain, northwestern Africa). Soil arthropods were collected from pitfall traps in burnt and unburnt pine forest sampling points. In terms of total abundance per taxonomic order, Blattodea and Diptera were the only orders seemingly affected by the fire, whereas other arthropod groups (e.g., Araneae, Coleoptera, and Isopoda) showed no differences. In terms of species composition, Coleoptera and Formicidae (Hymenoptera) communities differed between burnt and unburnt sampling points, having more species associated with burnt areas than with unburnt ones. In burnt areas, some species from open areas built nests, fed in/on the ground, and dispersed over longer distances. Within the unburnt plots, we found more species in vegetated habitats, particularly those with shorter dispersal distances. We conclude that arthropod communities differ between burnt and unburnt sites and that the response of each taxon appears to be related to particular functional traits such as habitat preference (from open to forested landscapes) and ecological specialization (from generalist to specialist species).
ISSN:2571-6255
2571-6255