4.5 Article

Shedding light on trophic interactions: A field experiment on the effect of human population between latitudes on herbivory and predation patterns

Journal

ECOLOGY AND EVOLUTION
Volume 13, Issue 9, Pages -

Publisher

WILEY
DOI: 10.1002/ece3.10449

Keywords

bird predation; insect herbivory; latitude; UHI effect and urbanization

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Interactions between species within an ecosystem are vital for ecosystem functionality, but human activities are disrupting these relationships and contributing to biodiversity decline. This study examined the impact of human population on trophic interactions at different latitudes and found that bird predation intensity varied with human population density, with contrasting trends observed at different latitudes. Herbivory was not affected by urbanization, and higher levels of herbivory were found at lower latitudes.
Interactions between species within an ecosystem (e.g. predation and herbivory) play a vital role in sustaining the ecosystem functionality, which includes aspects like pest control and nutrient cycling. Unfortunately, human activities are progressively disrupting these trophic relationships, thereby contributing to the ongoing biodiversity decline. Additionally, certain human activities like urbanization may further impact the intensity of these trophic interactions, which are already known to be influenced by latitudinal gradients. The aim of this study was to test the hypothesis of whether the impact of human population, used as a proxy for human pressure, differs between latitudes. To test it, we selected 18 study sites at two latitudes (i.e. similar to 53 degrees N and similar to 50 degrees N) with varying human population density (HPD). We used artificial caterpillars placed on European beech branches to assess bird predation and took standardized pictures of the leaves to estimate insect herbivory. Remote sensing techniques were used to estimate human pressure. We found that the intensity of bird predation varied in response to HPD, with opposite trends observed depending on the latitude. At our upper latitude, bird predation increased with HPD, while the opposite was observed at the lower latitude. Herbivory was not affected by urbanization and we found higher levels of herbivory in the lower compared to the higher latitude. At the lower latitude, certain species may experience a disadvantage attributed to the urban heat island effect due to their sensitivity to temperature fluctuations. Conversely, at the higher latitude, where minimum temperatures can be a limitation, certain species may benefit from milder winters. Overall, this study highlights the complex and dynamic nature of trophic relationships in the face of human-driven changes to ecosystems. It also emphasizes the importance of considering both human pressure and latitudinal gradients when assessing the ecological consequences of future climate change scenarios, especially in urban environments.

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