TY - JOUR
T1 - Biotic predictors complement models of bat and bird responses to climate and tree diversity in European forests
AU - Barbaro, Luc
AU - Allan, Eric
AU - Ampoorter, Evy
AU - Castagneyrol, Bastien
AU - Charbonnier, Yohan
AU - De Wandeler, Hans
AU - Kerbiriou, Christian
AU - Milligan, Harriet T.
AU - Vialatte, Aude
AU - Carnol, Monique
AU - Deconchat, Marc
AU - De Smedt, Pallieter
AU - Jactel, Hervé
AU - Koricheva, Julia
AU - Le Viol, Isabelle
AU - Muys, Bart
AU - Scherer-Lorenzen, Michael
AU - Verheyen, Kris
AU - Van Der Plas, Fons
PY - 2019/1/16
Y1 - 2019/1/16
N2 - Bats and birds are key providers of ecosystem services in forests. How climate and habitat jointly shape their communities is well studied, but whether biotic predictors from other trophic levels may improve bird and bat diversity models is less known, especially across large bioclimatic gradients. Here, we achieved multi-taxa surveys in 209 mature forests replicated in six European countries from Spain to Finland, to investigate the importance of biotic predictors (i.e. the abundance or activity of defoliating insects, spiders, earthworms and wild ungulates) for bat and bird taxonomic and functional diversity. We found that nine out of 12 bird and bat diversity metrics were best explained when biotic factors were added to models including climate and habitat variables, with a mean gain in explained variance of 38% for birds and 15% for bats. Tree functional diversity was the most important habitat predictor for birds, while bats responded more to understorey structure. The best biotic predictors for birds were spider abundance and defoliating insect activity, while only bat functional evenness responded positively to insect herbivory. Accounting for potential biotic interactions between bats, birds and other taxa of lower trophic levels will help to understand how environmental changes along large biogeographical gradients affect higher-level predator diversity in forest ecosystems.
AB - Bats and birds are key providers of ecosystem services in forests. How climate and habitat jointly shape their communities is well studied, but whether biotic predictors from other trophic levels may improve bird and bat diversity models is less known, especially across large bioclimatic gradients. Here, we achieved multi-taxa surveys in 209 mature forests replicated in six European countries from Spain to Finland, to investigate the importance of biotic predictors (i.e. the abundance or activity of defoliating insects, spiders, earthworms and wild ungulates) for bat and bird taxonomic and functional diversity. We found that nine out of 12 bird and bat diversity metrics were best explained when biotic factors were added to models including climate and habitat variables, with a mean gain in explained variance of 38% for birds and 15% for bats. Tree functional diversity was the most important habitat predictor for birds, while bats responded more to understorey structure. The best biotic predictors for birds were spider abundance and defoliating insect activity, while only bat functional evenness responded positively to insect herbivory. Accounting for potential biotic interactions between bats, birds and other taxa of lower trophic levels will help to understand how environmental changes along large biogeographical gradients affect higher-level predator diversity in forest ecosystems.
KW - Defoliating insects
KW - Earthworms
KW - Functional diversity
KW - Spiders
KW - Trophic interactions
KW - Ungulate browsing
U2 - 10.1098/rspb.2018.2193
DO - 10.1098/rspb.2018.2193
M3 - Article
C2 - 30963868
AN - SCOPUS:85061332020
SN - 0962-8452
VL - 286
JO - Proceedings of the Royal Society B: Biological Sciences
JF - Proceedings of the Royal Society B: Biological Sciences
IS - 1894
M1 - 20182193
ER -