FABRE, C. ModEpiSco: Modélisation des Épidémies de Scolytes et de l’impact sur les forêts alpines françaises du Nord dans le contexte du changement climatique, IUGA, 2023. CrossRef

SPENCER, J. W. Fourier series representation of the position of the sun, Search, 2(5), 172, 1971. CrossRef

AMMAN, G. D. Population changes of the mountain pine beetle in relation to elevation, Environmental Entomology, 1973. CrossRef

FORSEE, E. et al. Migration in the bark beetle Ips typographys L.: duration, timing and height of flight, Journal of Applied Entomology, 1985. CrossRef

BENTZ, B. J., MULLINS, D. E. Ecology of mountain pine beetle cold hardening in the field: Interactions between cold and subcortical beetle behavior, Environmental Entomology, 1999. CrossRef

HANSEN, E. M., BENTZ, B. J. Comparison of reproductive capacity among univoltine, semivoltine, and re-emerged parent mountain pine beetle (Coleoptera: Scolytidae) populations, The Canadian Entomologist, 2003. CrossRef

NETHERER, S. Modelling of bark beetle development and of site- and stand-related predisposition to Ips typographus, 2003. CrossRef

WERMELINGER, B. Ecology and management of the spruce bark beetle Ips typographus, a review of recent research, ForEco, 2004. CrossRef

POWELL, J. A., LOGAN, J. A. Insect seasonality: Circle map analysis of temperature-driven life cycles, Theoretical Population Biology, 2005. CrossRef

SAFRANYIK, L., CARROLL, A. L. The biology and epidemiology of the mountain pine beetle in lodgepole pine forests, Canadian Forest Service, 2006. CrossRef

TRÂN, J. et al. Impact of minimum winter temperatures on the population dynamics of Dendroctonus frontalis, ESA, 2007. CrossRef

DELZON, S., COCHARD, H. Recent advances in tree hydraulics highlight the ecological significance of the hydraulic safety margin, New Phytologist, 2014. CrossRef

FACCOLI, M. Composition and elevation of spruce forests affect susceptibility to bark beetle attacks, implications for forest management, Forests, 2014. CrossRef

ANDEREGG, W. et al. Meta-analysis reveals that hydraulic traits explain cross-species patterns of drought-induced tree mortality across the globe, PNAS, 2016. CrossRef

SPERRY, J. et al. Predicting stomatal responses to the environment from the optimization of photosynthetic gain and hydraulic cost, Plant, Cell & Environment, 2016. CrossRef

CHOAT, B. et al. Triggers of tree mortality under drought, Nature, 2018. CrossRef

JAKOBY, O. et al. Climate change alters elevational phenology patterns of the European spruce bark, Global Change Biology, 2019. CrossRef

POTTERF, M. et al. Hotter drought increases population levels and accelerates phenology of the European spruce bark beetle Ips typographus, Forest Ecology and Management, 2025 CrossRef