Latitudinal gradient in avian insectivory: complementary effects of climate, habitat and bird diversity

Laura Schillé*, Elena Valdés-Correcher, Frédéric Archaux, Flavius Bălăcenoiu, Mona Chor Bjørn, Michal Bogdziewicz, Thomas Boivin, Manuela Branco, Thomas Damestoy, Maarten de Groot, Jovan Dobrosavljević, Mihai-Leonard Duduman, Anne-Maïmiti Dulaurent, Samantha Green, Jan Grünwald, Csaba Béla Eötvös, Maria Faticov, Pilar Fernandez-Conradi, Elisabeth Flury, David FunosasAndrea Galmán, Martin M. Gossner, Sofia Gripenberg, Lucian Grosu, Jonas Hagge, Arndt Hampe, Deborah Harvey, Rick Houston, Rita Isenmann, Andreja Kavčič, Mikhail V. Kozlov, Vojtech Lanta, Bénédicte Le Tilly, Carlos Lopez Vaamonde, Soumen Mallick, Elina Mäntylä, Anders Mårell, Slobodan Milanović, Márton Molnár, Xoaquín Moreira, Valentin Moser, Anna Mrazova, Dmitrii L. Musolin, Thomas Perot, Andrea Piotti, Anna V. Popova, Andreas Prinzing, Ludmila Pukinskaya, Aurélien Sallé, Katerina Sam, Nickolay V. Sedikhin, Tanja Shabarova, Ayco Tack, Rebecca Thomas, Karthik Thrikkadeeri, Dragoș Toma, Grete Vaicaityte, Inge van Halder, Zulema Varela, Luc Barbaro, Bastien Castagneyrol

*Corresponding author af dette arbejde

Publikation: Working paperPreprintForskning

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Abstract

Aim: According to the Latitudinal Biotic Interaction Hypothesis (LBIH), the general increase in biodiversity towards lower latitudes can be partially explained by an increase in the intensity of biotic interactions. While LBIH received some support for plant-herbivores interactions, much less is known about how higher trophic levels may contribute to shape biotic interactions across latitudinal gradients. We hypothesized that the diversity of insectivorous birds increases towards lower latitude, leading to higher predation rates on insect herbivores.

Location: Europe.

Taxon: Insectivorous birds and pedunculate oaks.

Methods: We deployed plasticine caterpillars in 138 oak trees in 47 sites along a 19° latitudinal gradient in Europe to quantify bird insectivory through predation attempts. In addition, we used passive acoustic monitoring to (i) characterize the acoustic diversity of surrounding soundscapes; and (ii) infer both taxonomic and functional diversity of insectivorous birds from recordings.

Results: The functional diversity of insectivorous birds increased towards lower latitude. Bird predation increased with latitude, forest cover and bird acoustic diversity but decreased with mean annual temperature and functional richness of insectivorous birds. Contrary to our predictions, latitudinal clines in bird predation attempts were not directly mediated by changes in insectivorous bird diversity or acoustic diversity, but latitude and habitat still had independent effects on predation attempts.

Main conclusions: Our study does not fully support the predictions of the LBIH of more biotic interactions southwards and advocates for better accounting for activity and abundance of insectivorous birds when studying the large-scale variation in insect-tree interactions.
OriginalsprogEngelsk
UdgiverbioRxiv
Antal sider41
DOI
StatusUdgivet - 2023

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