Publications d'article publiés dans des revues avec comité de lecture

  1. Meyer, J., Handa, I.T., Fabianek, F., Kneeshaw, D.D. (2024) Invasion by common reed in peri-urban wetlands does not affect insectivorous bat activity, despite a negative effect on prey abundance. Global Ecology and Conservation, 52:e02939

  3. Rissanen, K., Lapa, G., Houle, D.Kneeshaw, D.D.Paquette, A. (2024) Large variation in the radial patterns of sap flow among urban trees. Agricultural and Forest Meteorology, 345:109848

  5. McNie, P., Kneeshaw, D.D.Filotas, E. (2024) Increased unpredictability in spruce budworm outbreaks following habitat loss and landscape fragmentation. Ecological Modelling, 491

  7. St-Denis, A., Maure, F., Belbahar, R., Delagrange, S.Handa, I.T.Kneeshaw, D.D.Paquette, A., Nicol, M., Meurs, M.-J., Messier, C. (2024) An Urban Forest Diversification Software to Improve Resilience to Global Change. Arboriculture and Urban Forestry, 50(1):76 – 91

  9. Guo, J., Feng, H., Peng, C., Du, J., Wang, W., Kneeshaw, D.D., Pan, C., Roberge, G., Feng, L., Chen, A. (2024) Fire effects on soil CH4 and N2O fluxes across terrestrial ecosystems. Science of The Total Environment, 948:174708

  11. Cooke, B.J., Robert, L.-E., Sturtevant, B.R., Kneeshaw, D.D., Thapa, B. (2024) Confronting the cycle synchronisation paradigm of defoliator outbreaks in space and time—Evidence from two systems in a mixed-species forest landscape. Journal of Ecology, 112(1):152 – 173
  1. Liu, Q., Peng, C.Schneider, R., Cyr, D., McDowell, N.G., Kneeshaw, D.D. (2023) Drought-induced increase in tree mortality and corresponding decrease in the carbon sink capacity of Canada’s boreal forests from 1970 to 2020. Global Change Biology, 29(8):2274-2285
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  3. Oogathoo, S., Duchesne, L., Houle, D.Kneeshaw, D.D.Belanger, N. (2023) Seasonal, Monthly, Daily, and Diel Growth, and Water Status Dynamics of Balsam Fir in a Cold and Humid Boreal Environment. Forests, 14(4)
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  5. Renaudin, M., Khlifa, R., Legault, S., Kembel, S.W.Kneeshaw, D.D., Moore, J.-D., Houle, D. (2023) Long-Term Simulated Nitrogen Deposition Has Moderate Impacts on Soil Microbial Communities across Three Bioclimatic Domains of the Eastern Canadian Forest. Forests, 14(6):1124
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  7. Markgraf, R., Doyon, F.Delagrange, S.Kneeshaw, D.D. (2023) Biomass allocation and plant morphology explain the difference in shrub species abundance in a temperate forest. Ecology and Evolution, 13(12):e10774
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  9. Feng, H., Guo, J., Peng, C.Kneeshaw, D.D., Roberge, G., Pan, C., Ma, X., Zhou, D., Wang, W. (2023) Nitrogen addition promotes terrestrial plants to allocate more biomass to aboveground organs: A global meta-analysis. Global Change Biology, 29(14):3970 – 3989
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  11. Liu, Q., Peng, C.Schneider, R., Cyr, D., Liu, Z., Zhou, X., Du, M., Li, P., Jiang, Z., McDowell, N.G. et al. (2023) Vegetation browning: global drivers, impacts, and feedbacks. Trends in Plant Science, 28(9):1014-1032
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  13. Feng, H., Guo, J., Peng, C., Ma, X., Kneeshaw, D.D., Chen, H., Liu, Q., Liu, M., Hu, C., Wang, W. (2023) Global estimates of forest soil methane flux identify a temperate and tropical forest methane sink. Geoderma, 429
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  15. McNie, P., Kneeshaw, D.D.Filotas, E. (2023) Landscape-scale patterns of eastern spruce budworm outbreak risk: Defoliation onset vs. tree mortality. Ecosphere, 14(11):e4684
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  17. Guo, J., Feng, H., Peng, C., Chen, H., Xu, X., Ma, X., Li, L., Kneeshaw, D.D., Ruan, H., Yang, H. et al. (2023) Global Climate Change Increases Terrestrial Soil CH4 Emissions. Global Biogeochemical Cycles, 37:e2021GB007255
  1. Oogathoo, S., Houle, D., Duchesne, L., Kneeshaw, D.D. (2022) Tree transpiration well simulated by the Canadian Land Surface Scheme (CLASS) but not during drought. Journal of Hydrology, 604:127196
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  3. Liu, Z., Peng, C., MacLean, D.A., De Grandpre, L., Candau, J.-N., Kneeshaw, D.D. (2022) Evaluating and quantifying the effect of various spruce budworm intervention strategies on forest carbon dynamics in Atlantic Canada. Forest Ecosystems, 9
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  5. Feng, H., Guo, J., Ma, X., Han, M., Kneeshaw, D.D., Sun, H., Malghani, S., Chen, H., Wang, W. (2022) Methane emissions may be driven by hydrogenotrophic methanogens inhabiting the stem tissues of poplar. New Phytologist, 233(1):182-193
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  7. Oogathoo, S., Houle, D., Duchesne, L., Kneeshaw, D.D. (2022) Evaluation of simulated soil moisture and temperature for a Canadian boreal forest. Agricultural and Forest Meteorology, 323:109078
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  9. Oogathoo, S., Duchesne, L., Houle, D.Kneeshaw, D.D. (2022) Characterizing Seasonal Radial Growth Dynamics of Balsam Fir in a Cold Environment Using Continuous Dendrometric Data: A Case Study in a 12-Year Soil Warming Experiment. Sensors, 22(14)
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  11. Kneeshaw, D.D., Gough, C.M. (2022) Editorial: North Temperate and Boreal Forest Disturbances: The Challenges of Growing in the North. Frontiers in Forests and Global Change, 5:956953
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  13. De Grandpre, L., Marchand, M., Kneeshaw, D.D.Pare, D., Boucher, D., Bourassa, S., Gervais, D., Simard, M., Griffin, J.M., Pureswaran, D.S. (2022) Defoliation-induced changes in foliage quality may trigger broad-scale insect outbreaks. Communications Biology, 5(1):463
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  15. Sanchez-Pinillos, M., Mina, M., D’Orangeville, L., Boulanger, Y., Comeau, P., Wang, J., Taylor, A.R., Kneeshaw, D.D. (2022) Sequential droughts: A silent trigger of boreal forest mortality. Global Change Biology, 28(2):542-556
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  17. D’Orangeville, L., Itter, M., Kneeshaw, D.D., Munger, J.W., Richardson, A.D., Dyer, J.M., Orwig, D.A., Pan, Y., Pederson, N. (2022) Peak radial growth of diffuse-porous species occurs during periods of lower water availability than for ring-porous and coniferous trees. Tree Physiology, 42(2):304-316
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  19. Landry, M., James, P.M.A.Kneeshaw, D.D.Kembel, S.W. (2022) Spruce budworm bacterial communities vary among sites and host tree species in a boreal landscape. Journal of Biogeography, 49(2):299-309
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  21. Budei, B.C., St-Onge, B.Fournier, R.A.Kneeshaw, D.D. (2022) Effects of Viewing Geometry on Multispectral Lidar-Based Needle-Leaved Tree Species Identification. Remote Sensing, 14(24)
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  23. Pappas, C., Belanger, N., Bastien-Beaudet, G., Couture, C., D’Orangeville, L.c, Duchesne, L., Gennaretti, F.Houle, D., Hurley, A.G., Klesse, S. et al. (2022) Xylem porosity, sapwood characteristics, and uncertainties in temperate and boreal forest water use. Agricultural and Forest Meteorology, 323:109092
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  25. Prieur, J.-F., St-Onge, B.Fournier, R.A., Woods, M.E., Rana, P., Kneeshaw, D.D. (2022) A Comparison of Three Airborne Laser Scanner Types for Species Identification of Individual Trees. Sensors, 22(1):35
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  27. Kneeshaw, D.D., De Grandpre, L., D’Orangeville, L., Marchand, M., Moisan-Perrier, J., Robert, L.-E, Bouchard, M. (2022) Forest Structure and Composition Diverge Following Harvesting Compared to a Spruce Budworm Choristoneura fumiferana (Clem.) Outbreak. Frontiers in Forests and Global Change, 5
  1. Zhao, N., Prieur, J.-F., Liu, Y., Kneeshaw, D.D., Morasse Lapointe, E., Paquette, A., Zinszer, K., Dupras, J., Villeneuve, P. J., Rainham, D. G. et al. (2021) Tree characteristics and environmental noise in complex urban settings – A case study from Montreal, Canada. Environmental Research, 202:111887
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  3. Torresan, C., Garzon, M.B., O’grady, M., Robson, T.M., Picchi, G., Panzacchi, P., Tomelleri, E., Smith, M., Marshall, J., Wingate, L. et al. (2021) A new generation of sensors and monitoring tools to support climate-smart forestry practices. Canadian Journal of Forest Research, 51(12):1751 – 1765
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  5. Liu, Q., Peng, C.Schneider, R., Cyr, D., Liu, Z., Zhou, X., Kneeshaw, D.D. (2021) TRIPLEX-Mortality model for simulating drought-induced tree mortality in boreal forests: Model development and evaluation. Ecological Modelling, 455:109652
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  7. Moisan Perrier, J., Kneeshaw, D.D.St-Laurent, M.-H., Villard, M.-A. (2021) Site-infidelity by budworm-linked warblers at the edge of an area defoliated by spruce budworm. Avian Conservation and Ecology, 16(17)
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  9. Sousa-Silva, R., Smargiassi, A., Kneeshaw, D.D.Dupras, J., Zinszer, K., Paquette, A. (2021) Strong variations in urban allergenicity riskscapes due to poor knowledge of tree pollen allergenic potential. Scientific Reports, 11(1):10196
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  11. Kneeshaw, D.D., Sturtevant, B.R., DeGrandpe, L., Doblas-Miranda, E., James, P.M.A., Tardif, D., Burton, P.J. (2021) The Vision of Managing for Pest-Resistant Landscapes: Realistic or Utopic? Current Forestry Reports
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  13. Leduc, A.Leduc, A.Kneeshaw, D.D., Maleki, K., Bergeron, Y. (2021) Advancing and reversing succession as a function of time since fire and insect outbreaks: An 18 year in situ remeasurement of changes in forest composition. Journal of Vegetation Science, 32(1):e12974
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  15. Moisan Perrier, J., Kneeshaw, D.D.St-Laurent, M.-H., Pyle, P., Villard, M.-A. (2021) Budworm-linked warblers as early indicators of defoliation by spruce budworm: A field study. Ecological Indicators, 125:107543
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  17. Germain, M., Kneeshaw, D.D., De Grandpre, L., Desrochers, M., James, P.M.A., Vepakomma, U., Poulin, J.-F., Villard, M.-A. (2021) Insectivorous songbirds as early indicators of future defoliation by spruce budworm. Landscape Ecology, 36(10):3013-3027
  1. Robert, L.-E., Sturtevant, B.R., Kneeshaw, D.D.James, P.M.A.Fortin, M.-J., Wolter, P.T., Townsend, P.A., Cooke, B.J. (2020) Forest landscape structure influences the cyclic-eruptive spatial dynamics of forest tent caterpillar outbreaks. Ecosphere, 11(8)
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  3. Seidl, R., Honkaniemi, J., Aakala, T., Aleinikov, A., Angelstam, P., Bouchard, M.Boulanger, Y., Burton, P.J., De Grandpre, L., Gauthier, S. et al. (2020) Globally consistent climate sensitivity of natural disturbances across boreal and temperate forest ecosystems. Ecography, 43(7):967-978
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  5. Correia, D.L.P., Bouachir, W., Gervais, D., Pureswaran, D., Kneeshaw, D.D., De Grandpre, L. (2020) Leveraging Artificial Intelligence for Large-Scale Plant Phenology Studies From Noisy Time-Lapse Images. IEEE Access, 8(1):13151-13160
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  7. Balducci, L., Fierravanti, A., Rossi, S., Delzon, S., De Grandpre, L., Kneeshaw, D.D.Deslauriers, A. (2020) The paradox of defoliation: Declining tree water status with increasing soil water content. Agricultural and Forest Meteorology, 290:108025
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  9. Sousa-Silva, R., Smargiassi, A., Paquette, A., Kaiser, D., Kneeshaw, D.D. (2020) Exactly what do we know about tree pollen allergenicity? The Lancet Respiratory Medicine, 8(3):e10
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  11. Liu, Z., Peng, C., De Grandpré, L., Candau, J.-N., Work, T.T., Zhou, X., Kneeshaw, D.D. (2020) Aerial spraying of bacterial insecticides to control spruce budworm defoliation leads to reduced carbon losses. Ecosphere, 11(1):e02988
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  13. Markgraf, R., Doyon, F.Kneeshaw, D.D. (2020) Forest Landscape Heterogeneity Increases Shrub Diversity at the Expense of Tree Seedling Diversity in Temperate Mixedwood Forests. Forests, 11(2):160

Fierravanti, A., Rossi, S.Kneeshaw, D.D., De Grandpré, L., Deslauriers, A. (2019) Low Non-structural Carbon Accumulation in Spring Reduces Growth and Increases Mortality in Conifers Defoliated by Spruce Budworm. Frontiers in Forests and Global Change, 2:15. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )

  1.  
  2. Sanchez-Pinillos, M., Leduc, A., Ameztegui, A., Kneeshaw, D.D., Lloret, F., Coll, L. (2019) Resistance, Resilience or Change: Post-disturbance Dynamics of Boreal Forests After Insect Outbreaks. Ecosystems, 22(8):1886-1901. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  4. Liu, Z., Peng, C., De Grandpre, L., Candau, J.-N., Work, T.T., Huang, C., Kneeshaw, D.D. (2019) Simulation and Analysis of the Effect of a Spruce Budworm Outbreak on Carbon Dynamics in Boreal Forests of Quebec. Ecosystems, 22(8):1838-1851. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  6. Johns, R.C., Bowden, J.J., Carleton, D.R., Cooke, B.J., Edwards, S., Emilson, E.J.S., James, P.M.A.Kneeshaw, D.D., MacLean, D.A., Martel, V. et al. (2019) A conceptual framework for the spruce budworm Early Intervention Strategy: Can outbreaks be stopped? Forests, 10(10). (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  8. De Grandpre, L., Kneeshaw, D.D., Perigon, S., Boucher, D., Marchand, M., Pureswaran, D., Girardin, M.P. (2019) Adverse climatic periods precede and amplify defoliator-induced tree mortality in eastern boreal North America. J Ecol, 107(1):452-467. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  10. Pureswaran, D.S., Neau, M., Marchand, M., De Grandpré, L., Kneeshaw, D.D. (2019) Phenological synchrony between eastern spruce budworm and its host trees increases with warmer temperatures in the boreal forest. Ecol Evol, 9(1):576-586. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  11. Vepakomma, U., Kneeshaw, D.D., De Grandpre, L. (2018) Influence of natural and anthropogenic linear canopy openings on forest structural patterns investigated using LiDAR. Forests, 9(9). (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  13. St-Denis, A., Kneeshaw, D.D.Messier, C. (2018) Effect of Predation, Competition, and Facilitation on Tree Survival and Growth in Abandoned Fields: Towards Precision Restoration. Forests, 9(11). (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  15. Nolet, P., Kneeshaw, D.D.Messier, C.Beland, M. (2018) Comparing the effects of even- and uneven-aged silviculture on ecological diversity and processes: A review. Ecology and Evolution, 8(2):1217-1226. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  17. De Grandpré, L., Pureswaran, D., Bouchard, M.Kneeshaw, D.D. (2018) Climate-induced range shifts in boreal forest pests: ecological, economic, and social consequences1. Canadian Journal of Forest Research, 48(3):v-vi. (Scopus  | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  19. D’Orangeville, L., Maxwell, J., Kneeshaw, D.D., Pederson, N., Duchesne, L., Logan, T., Houle, D.Arseneault, D., Beier, C.M., Bishop, D.A. et al. (2018) Drought timing and local climate determine the sensitivity of eastern temperate forests to drought. Global Change Biology, 24(6):2339-2351. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  21. Nolet, P., Kneeshaw, D.D. (2018) Extreme events and subtle ecological effects: lessons from a long‐term sugar maple–American beech comparison. Ecosphere, 9(7):e02336. (Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  23. Rahimzadeh-Bajgiran, P., Weiskittel, A.R., Kneeshaw, D.D., MacLean, D.A. (2018) Detection of Annual Spruce Budworm Defoliation and Severity Classification Using Landsat Imagery. Forests, 9(6):357. (Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  24.  
  25. Liu, Z., Peng, C., De Grandpre, L., Candau, J.-N., Zhou, X., Kneeshaw, D.D. (2018) Development of a new TRIPLEX-insect model for simulating the effect of spruce budworm on forest carbon dynamics. Forests, 9(9). (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  27. D’Orangeville, L., Houle, D., Duchesne, L., Phillips, R.P., Bergeron, Y.Kneeshaw, D.D. (2018) Beneficial effects of climate warming on boreal tree growth may be transitory. Nature Communications, 9:3213. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  29. Cotton-Gagnon, A., Simard, M., De Grandpré, L., Kneeshaw, D.D. (2018) Salvage logging during spruce budworm outbreaks increases defoliation of black spruce regeneration. Forest Ecology and Management, 430:421 – 430. (URL  | EndNote | BibTeX-CSV | BibTeX | Scholar )
  30.  
  31. Robert, L.-E., Sturtevant, B.R., Cooke, B.J., James, P.M.A.Fortin, M.-J., Townsend, P.A., Wolter, P.T., Kneeshaw, D.D. (2018) Landscape host abundance and configuration regulate periodic outbreak behavior in spruce budworm Choristoneura fumiferana. Ecography, 41(9):1556-1571. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  32. De Grandpré, L., Waldron, K., Bouchard, M.Gauthier, S.Beaudet, M.Ruel, J.-C., Hébert, C., Kneeshaw, D.D. (2018) Incorporating Insect and Wind Disturbances in a Natural Disturbance-Based Management Framework for the Boreal Forest. Forests, 9(8). (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  33. Liu, Z., Peng, C.Work, T.T., Candau, J.-N., DesRochers, A.Kneeshaw, D.D. (2018) Application of machine-learning methods in forest ecology: recent progress and future challenges. Environmental Reviews, 26(4):339-350. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  35. Duchesne, L., D’Orangeville, L., Ouimet, R., Houle, D.Kneeshaw, D.D. (2017) Extracting coherent tree-ring climatic signals across spatial scales from extensive forest inventory data. PLoS ONE, 12(12):1-20. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  37. Patry, Cy., Kneeshaw, D.D., Aubin, I., Messier, C. (2017) Intensive forestry filters understory plant traits over time and space in boreal forests. Forestry, 90(3):436-444. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  38.  
  39. St-Denis, A., Kneeshaw, D.D.Belanger, N., Simard, S., Laforest-Lapointe, I., Messier, C. (2017) Species-specific responses to forest soil inoculum in planted trees in an abandoned agricultural field. Applied Soil Ecology, 112:1-10. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  40.  
  41. Bognounou, F., De Grandpre, L., Pureswaran, D., Kneeshaw, D.D. (2017) Temporal variation in plant neighborhood effects on the defoliation of primary and secondary hosts by an insect pest. Ecosphere, 8(3):e01759-n/a. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
  42.  
  43. Power, H., LeMay, V., Kneeshaw, D.D.Berninger, F. (2016) Pipe-model ratio distributions and branch foliage biomass: differences between two sympatric spruce species. Scandinavian Journal of Forest Research, 31(1):8-18. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  45. D’Orangeville, L., Duchesne, L., Houle, D.Kneeshaw, D.D.Cote, B., Pederson, N. (2016) Northeastern North America as a potential refugium for boreal forests in a warming climate. Science, 352(6292):1452-1455. (URL  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  47. Ligot, G., Ameztegui, A., Courbaud, B., Coll, L., Kneeshaw, D.D. (2016) Tree light capture and spatial variability of understory light increase with species mixing and tree size heterogeneity. Canadian Journal of Forest Research, 46(7):968-977. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )
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  49. Nolet, P., Delagrange, S., Bannon, K., Messier, C.Kneeshaw, D.D. (2015) Liming has a limited effect on sugar maple – American beech dynamics compared with beech sapling elimination and canopy opening. Canadian Journal of Forest Research, 45(10):1376-1386. (Scopus  | Résumé | EndNote | BibTeX-CSV | BibTeX | Scholar )