Published papers

2024

• (12) Bernard, M., Barrere, J., Morin, X., Saïd, S., Boulanger, V., Granda, E., Benavides, R., Jactel, H., Heurich, M., Rabasa, S. G., Valladares, F., Kunstler, G. (2024). Elevation affects both the occurrence of ungulate browsing and its effect on tree seedling growth for four major tree species in European mountain forests. Annals of Forest Science, 81(13), 1-16. [url] [pdf]
• (11) Barrere, J., Ligot, G., Boulanger, V., Collet, C., Courbaud, B., de Coligny, F., Marell, A., Saïd, S., Balandier, P. (2024). Oak regeneration facing deer browsing: Can competition between saplings offset the diversion effect? A simulation experiment. Ecological modelling, 489, 1-10. [url]
• (10) Barrere, J., Reineking, B., Jaunatre, M., Kunstler, J. (2024). Forest storm resilience depends on the interplay between functional composition and climate - insights from European-scale simulations. Functional Ecology. [url]

2023

• (9) Kulha, N., Honkaniemi, J., Barrere, J., Brandl, S., Cordonnier, T., Korhonen, K. T., Kunstler, G., Paul, C., Reineking, B., Peltoniemi, M. (2023). Competition-induced tree mortality across Europe is driven by shade tolerance, proportion of conspecifics and drought. Journal of Ecology, 111(10), 2310-2323. [pdf] [url]
• (8) Barrere, J., Reineking, B., Cordonnier, T., Kulha, N., Honkaniemi, J., Peltoniemi, M, Korhonen, K., Ruiz-Benito, P., Zavala, M. & Kunstler, G. (2023). Functional traits and climate drive interspecific differences in disturbance-induced tree mortality Global Change Biology, 29(10), 2836-2851. [url]

2022

• (7) Barrere, J., Collet, C., Saïd, S., Bastianelli, D., Verheyden, H., Courtines, H., Bonnet, A., Segrestin, J., & Boulanger, V. (2022). Do trait responses to simulated browsing in Quercus robur saplings affect their attractiveness to Capreolus capreolus the following year? Environmental and Experimental Botany, 194. [url]

2021

• (6) Barrere, J., Petersson, L. K., Boulanger, V., Collet, C., Felton, A. M., Löf, M., & Saïd, S. (2021). Canopy openness and exclusion of wild ungulates act synergistically to improve oak natural regeneration. Forest Ecology and Management, 487, 118976. [url]
• (5) Löf, M., Barrere, J., Engman, M., Petersson, L. K., & Villalobos, A. (2021). The influence of fencing on seedling establishment during reforestation of oak stands: a comparison of artificial and natural regeneration techniques including costs. European Journal of Forest Research, 140, 807–817. [pdf] [url]

2020

• (4) Barrere, J., Boulanger, V., Collet, C., Walker, E., Siat, V., Henry, L., & Saïd, S. (2020). How does oak mast seeding affect the feeding behavior of sympatric red and roe deer? Basic and Applied Ecology, 47, 1–20. [url]
• (3) Quemmerais-amice, F., Barrere, J., la Rivière, M., Contin, G., & Bailly, D. (2020). A Methodology and Tool for Mapping the Risk of Cumulative Effects on Benthic Habitats. Frontiers in Marine Science, 7, 1–27. [pdf] [url]

2019

• (2) Barrere, J., Saïd, S., Morin, X., Boulanger, V., Rowe, N., Amiaud, B., & Bernard, M. (2019). The cost of deer to trees: changes in resource allocation from growth- related traits and phenolic content to structural defence. Plant Ecology and Evolution, 152(3), 417–425. [pdf] [url]
• (1) Blouin, M., Barrere, J., Meyer, N., Lartigue, S., Barot, S., & Mathieu, J. (2019). Vermicompost significantly affects plant growth. A meta-analysis. Agriculture for Sustainable Development, 39, 34. [pdf] [url]

Science communication

• Barrere, J., Boulanger, V., Collet, C., Beroud, T., Bonal, T., Saïd, S. (2024). La simulation d’abroutissement : un outil pour mieux comprendre l’effet de l’herbivorie par les cervidés sur les jeunes plants de Chênes Revue forestière française, 75(1), 15-24. (in French) [url] [pdf]

• Saïd, S., Saba, C., Laurent, L., Barrere, J., Reeb, M., Tissaux, J.-C., Warnant, C., Lambert, J., & Cuiller, B. (2019). Influence des populations d’ongulés sauvages sur la régénération forestière du chêne: le dispositif EFFORT. Faune Sauvage, 322, 25–30. (in French) [pdf]

Thesis

• Barrere, J. (2021). Interactions between oak and cervids during the process of forest regeneration – the case study of plain temperate oak stands (Quercus robur and Q. Petraea). PhD thesis. Lorraine University, Nancy, France. [url] [pdf]