2025
Journal articles
1. Promoting natural pest control services through natural enemies in agricultural landscapes offers a sustainable perspective for pest management. Several management options across spatio-temporal scales enhance natural pest control.
However, most studies examining how pest control services respond to environmental changes focused on the magnitude of natural pest control across space and often neglect its temporal stability. Consequently, we lack information on the ecological drivers influencing interannual stability of pest control, which is especially important in perennial cropping systems threatened by multiple pests.
2. Here, we used a landscape-scale experiment in southwest France to investigate how local management and landscape context affect the mean level and temporal stability of natural pest control. Our design included paired vineyards in 20 landscapes selected along two orthogonal gradients: organic farming proportion and semi-natural habitat proportion in the landscape. We evaluated natural pest control services annually using eggs of the grape moth Lobesia botrana from 2018 to 2022 (excluding 2020). We predicted that low-intensity farming, with reduced pesticide application and soil disturbance, would enhance predation rates and its stability by benefiting natural enemy communities. Finally, we expected that more complex landscapes, both in terms of composition and configuration, would benefit natural enemy activities and lead to higher levels of pest control.
3. Our analyses revealed that mean daily pest predation decreased with pesticide use and was lower in less complex landscapes, associated with larger patch sizes.
However, farming practices and landscape context did not affect predation rate stability over time.
4. Synthesis and applications. Our results suggest that the magnitude of natural pest control services can be improved by reducing intensive management practices at the field scale and by promoting greater landscape heterogeneity, for example, by reducing the mean patch size. These findings highlight the potential for promoting ecosystem services and limit pesticide use, thereby supporting more sustainable farming systems. However, our results indicate that these management strategies may not necessarily contribute to the temporal stability of pest control across years. This suggests that complementary approaches, such as fostering specific functional groups, might be needed to ensure consistent pest control service over time.
2024
Journal articles
Vineyards are highly intensive systems very often located in biodiversity hotspots at the global scale. These ecosystems are now facing major environmental, agronomical and economic issues that challenge their sustainability. Based on multiple evidence, I illustrate here how biodiversity and several nature-based solutions across scales, from manipulating within-field plant communities to landscape-scale diversification, can provide benefits related to key societal challenges that vineyard socio-ecosystems are facing. These findings support the idea that biodiversity and ecosystem services play a key role in the functioning of these landscapes and that nature-based solutions offer a sustainable pathway for the future of vineyard agroecosystems. This literature review also highlights several gaps of knowledge that define a research agenda for nature-based solutions to strengthen multifunctionality of vineyard landscapes.
Poster communications