- Bérubé Deschênes, A. (2016). Modélisation de la croissance et de la qualité du bois de l'épinette blanche (Picea glauca) à l'échelle individuelle en fonction de la compétition inter-et intra-spécifique.
- Chhin, S., Wang, G. G., & Tardif, J. (2004). Dendroclimatic analysis of white spruce at its southern limit of distribution in the Spruce Woods Provincial Park, Manitoba, Canada. Tree-Ring Research, 60(1), 31-43.
- Clancy, K. M. (1991). Douglas-fir nutrients and terpenes as potential factors influencing western spruce budworm defoliation. Forest Insect Guilds: Patterns of Interaction with Host Trees. USDA For. Serv. Gen. Tech. Rep. NE-153. Radnor, Pennsylvania, 123-133.
- Clancy, K. M., Wagner, M. R., & Tinus, R. W. (1988). Variations in Nutrient Levels as a Defense: Indentifying Key Nutritional Traits of Host Plants of the Western Spruce Budworm. Mechanisms of woody plant defenses against insects: search for pattern, 203-213.
- Gray, L. K., & Hamann, A. (2013). Tracking suitable habitat for tree populations under climate change in western North America. Climatic Change, 117(1-2), 289-303.
- Heartz, S., MacLean, D. A., Johns, R. C., Carleton, D., Amos‐Binks, L., Anderson, Q., ... & Edge, C. B. (2023). Historical pesticide applications for the treatment of eastern spruce budworm infestations in New Brunswick. Ecology, e4068.
- Hudak, J. (1991). Integrated pest management and the eastern spruce budworm. Forest Ecology and Management, 39, 313-337.
- Irland, L. C. (1980). Pulpwood, pesticides, and people. Controlling spruce budworm in northeastern North America. Environmental Management, 4(5), 381-389.
- MacLean, D. A. (2019). Protection strategy against spruce budworm. Forests, 10(12), 1137.
- Marshall, K. E., & Roe, A. D. (2021). Surviving in a frozen forest: the physiology of eastern spruce budworm overwintering. Physiology, 36(3), 174-182.
- Mattson, W. J., Slocum, S. S., & Koller, C. N. (1983, April). Spruce budworm (Choristoneura fumiferana) performance in relation to foliar chemistry of its host plants. In CANUSA Workshop on Forest defoliator-host interactions: A Comparison Between Gypsy Moth and Spruce Budworm (pp. 55-66).
- Nealis, V. G. (2016). Comparative ecology of conifer-feeding spruce budworms (Lepidoptera: Tortricidae). The Canadian Entomologist, 148(S1), S33-S57.
- Petrinovic, J. F., Gélinas, N., & Beaulieu, J. (2009). Benefits of using genetically improved white spruce in Quebec: The forest landowner’s viewpoint. The Forestry Chronicle, 85(4), 571-582.
- Pureswaran, D. S., Johns, R., Heard, S. B., & Quiring, D. (2016). Paradigms in eastern spruce budworm (Lepidoptera: Tortricidae) population ecology: a century of debate. Environmental Entomology, 45(6), 1333-1342.
- Quiring, D., Flaherty, L., Adams, G., McCartney, A., Miller, J. D., & Edwards, S. (2019). An endophytic fungus interacts with crown level and larval density to reduce the survival of eastern spruce budworm, Choristoneura fumiferana (Lepidoptera: Tortricidae), on white spruce (Picea glauca). Canadian Journal of Forest Research, 49(3), 221-227.
- Sinclair, L. (2019). A range-wide common garden experiment of white spruce indicates population differentiation in drought tolerance traits.