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in forested landscapes. Forestry Chronicle 67: 353–54.

Vyse, A., Cleary, M. A., and Cameron, I. R. 2013. Tree species selection revisited for plantations in the Interior Cedar Hemlock zone of southern British Columbia. Forestry Chronicle 89: 382–91.

Vyse, A., and Simard, S. W. 2009. Broadleaves in the interior of British Columbia: Their extent, use, management and prospects for investment in genetic conservation and improvement. Forestry Chronicle 85: 528–37.

Weir, L. C., and Johnson, A. L. S. 1970. Control of Poria weirii study establishment and preliminary evaluations. Canadian Forest Service, мForest Research Laboratory, Victoria, Canada.

White, R. H., and Zipperer, W. C. 2010. Testing and classification of individual plants for fire behaviour: Plant selection for the wildland-urban interface. International Journal of Wildland Fire 19: 213–27.

ГЛАВА 12. ДЕВЯТЬ ЧАСОВ ДО РАБОТЫ

Babikova, Z., Gilbert, L., Bruce, T. J. A., et al. 2013. Underground signals carried through common mycelial networks warn neighbouring plants of aphid attack. Ecology Letters 16: 835–43.

Barker, J. S., Simard, S. W., and Jones, M. D. 2014. Clearcutting and wildfire have com- parable effects on growth of directly seeded interior Douglas-fir. Forest Ecology and Management 331: 188–95.

Barker, J. S., Simard, S. W., Jones, M. D., and Durall, D. M. 2013. Ectomycorrhizal fungal community assembly on regenerating Douglas-fir after wildfire and clearcut harvesting. Oecologia 172: 1179–89.

Barto, E. K., Hilker, M., Müller, F., et al. 2011. The fungal fast lane: Common mycorrhizal networks extend bioactive zones of allelochemicals in soils. PLOS ONE 6: e27195.

Barto, E. K., Weidenhamer, J. D., Cipollini, D., and Rillig, M. C. 2012. Fungal super- highways: Do common mycorrhizal networks enhance below ground communication? Trends in Plant Science 17: 633–37.

Beiler, K. J., Durall, D. M., Simard, S.W., et al. 2010. Mapping the wood-wide web: Mycorrhizal networks link multiple Douglas-fir cohorts. New Phytologist 185: 543–53.

Beiler, K. J., Simard, S. W., and Durall, D. M. 2015. Topology of Rhizopogon spp. mycorrhizal meta-networks in xeric and mesic old-growth interior Douglas-fir forests. Journal of Ecology 103: 616–28.

Beiler, K. J., Simard, S. W., Lemay, V., and Durall, D. M. 2012. Vertical partitioning between sister species of Rhizopogon fungi on mesic and xeric sites in an interior Douglas-fir forest. Molecular Ecology 21: 6163–74.

Bingham, M. A., and Simard, S. W. 2011. Do mycorrhizal network benefits to survival and growth of interior Douglas-fir seedlings increase with soil moisture stress? Ecology and Evolution 3: 306–16.

–. 2012. Ectomycorrhizal networks of old Pseudotsuga menziesii var. glauca trees facilitate establishment of conspecific seedlings under drought. Ecosystems 15: 188–99.

–. 2012. Mycorrhizal networks affect ectomycorrhizal fungal community similarity between conspecific trees and seedlings. Mycorrhiza 22: 317–26.

–. 2013. Seedling genetics and life history outweigh mycorrhizal network potential to improve conifer regeneration under drought. Forest Ecology and Management 287: 132–39.

Carey, E. V., Marler, M. J., and Callaway, R. M. 2004. Mycorrhizae transfer carbon from a native grass to an invasive weed: Evidence from stable isotopes and physiology. Plant Ecology 172: 133–41.

Defrenne, C. A., Oka, G. A., Wilson, J. E., et al. 2016. Disturbance legacy on soil carbon stocks and stability within a coastal temperate forest of southwestern British Columbia. Open Journal of Forestry 6: 305–23.

Erland, L. A. E., Shukla, M. R., Singh, A. S., and Murch, S. J. 2018. Melatonin and serotonin: Mediators in the symphony of plant morphogenesis. Journal of Pineal Research 64: e12452.

Heineman, J. L., Simard, S. W., and Mather, W. J. 2002. Natural regeneration of small patch cuts in a southern interior ICH forest. Working Paper 64. Victoria, BC: BC Ministry of Forests.

Jones, M. D., Twieg, B., Ward, V., et al. 2010. Functional complementarity of Douglas-fir ectomycorrhizas for extracellular enzyme activity after wildfire or clearcut logging. Functional Ecology 4: 1139–51.

Kazantseva, O., Bingham, M. A., Simard, S. W., and Berch, S. M. 2009. Effects of growth medium, nutrients, water and aeration on mycorrhization and biomass allocation of greenhouse-grown interior Douglas-fir seedlings. Mycorrhiza 20: 51–66.

Kiers, E. T., Duhamel, M., Beesetty, Y., et al. 2011. Reciprocal rewards stabilize cooperation in the mycorrhizal symbiosis. Science 333: 880– 82.

Kretzer, A. M., Dunham, S., Molina, R., and Spatafora, J. W. 2004. Microsatellite markers reveal the below ground distribution of genets in two species of Rhizopogon form- ing tuberculate ectomycorrhizas on Douglas fir. New Phytologist 161: 313–20.

Lewis, K., and Simard, S. W. 2012. Transforming forest management in B.C. Opinion editorial, special to the Vancouver Sun, March 11, 2012.

Marcoux, H. M., Daniels, L. D., Gergel, S. E., et al. 2015. Differentiating mixed- and high-severity fire regimes in mixed-conifer forests of the Canadian Cordillera. Forest Ecology and Management 341: 45–58.

Marler, M. J., Zabinski, C. A., and Callaway, R. M. 1999. Mycorrhizae indirectly enhance competitive effects of an invasive forb on a native bunchgrass. Ecology 80: 1180–86.

Mather, W. J., Simard, S. W., Heineman, J. L., Sachs, D. L. 2010. Decline of young lodgepole pine in southern interior British Columbia. Forestry Chronicle 86: 484–97.

Perry, D. A., Hessburg, P. F., Skinner, C. N., et al. 2011. The ecology of mixed severity fire regimes in Washington, Oregon, and Northern California, Forest Ecology and Management 262: 703–17.

Philip, L. J., Simard, S. W., and Jones, M. D. 2011. Pathways for belowground carbon transfer between paper birch and Douglas-fir seedlings. Plant Ecology and Diversity 3: 221–33.

Roach, W. J., Simard, S. W., and Sachs, D. L. 2015. Evidence against planting lodgepole pine monocultures in cedar-hemlock forests in southern British Columbia. Forestry 88: 345–58.

Schoonmaker, A. L., Teste, F. P., Simard, S. W., and Guy, R. D. 2007. Tree proximity, soil pathways and common mycorrhizal networks: Their influence on utilization of redistributed water by understory seedlings. Oecologia 154: 455–66.

Simard, S. W. 2009. The foundational role of mycorrhizal networks in self-organization of interior Douglas-fir forests. Forest Ecology and Management 258S: S95–107.

Simard, S. W., ed. 2010. Climate Change and Variability. Intech. https:// www.intechopen.com/books/climate-change-and-variability.

–. 2012. Mycorrhizal networks and seedling establishment in Douglas-fir forests. Chapter 4 in Biocomplexity of Plant-Fungal Interactions, ed. D. Southworth. Ames, IA: Wiley-Blackwell, 85–107.

–. 2017. The mother tree. In

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