Net transfer of carbon between ectomycorrhizal tree species in the field SW Simard, DA Perry, MD Jones, DD Myrold, DM Durall, R Molina Nature 388 (6642), 579-582, 1997 | 1171 | 1997 |
Mycorrhizal networks: des liaisons dangereuses? MA Selosse, F Richard, X He, SW Simard Trends in Ecology & Evolution 21 (11), 621-628, 2006 | 669 | 2006 |
Mycorrhizal networks: mechanisms, ecology and modelling SW Simard, KJ Beiler, MA Bingham, JR Deslippe, LJ Philip, FP Teste Fungal Biology Reviews 26 (1), 39-60, 2012 | 596 | 2012 |
Mycorrhizal networks: a review of their extent, function, and importance SW Simard, DM Durall Canadian Journal of Botany 82 (8), 1140-1165, 2004 | 572 | 2004 |
Finding the mother tree: Uncovering the wisdom and intelligence of the forest S Simard Penguin UK, 2021 | 493 | 2021 |
Ectomycorrhizal fungal succession in mixed temperate forests BD Twieg, DM Durall, SW Simard New Phytologist 176 (2), 437-447, 2007 | 404 | 2007 |
Inter-plant communication through mycorrhizal networks mediates complex adaptive behaviour in plant communities MA Gorzelak, AK Asay, BJ Pickles, SW Simard AoB plants 7, 2015 | 384 | 2015 |
Carbon and nutrient fluxes within and between mycorrhizal plants SW Simard, MD Jones, DM Durall Mycorrhizal ecology, 33-74, 2003 | 348 | 2003 |
Architecture of the wood‐wide web: Rhizopogon spp. genets link multiple Douglas‐fir cohorts KJ Beiler, DM Durall, SW Simard, SA Maxwell, AM Kretzer New Phytologist 185 (2), 543-553, 2010 | 300 | 2010 |
Long-term warming alters the composition of Arctic soil microbial communities JR Deslippe, M Hartmann, SW Simard, WW Mohn FEMS microbiology ecology 82 (2), 303-315, 2012 | 278 | 2012 |
Mycorrhizal networks facilitate tree communication, learning, and memory SW Simard Memory and learning in plants, 191-213, 2018 | 245 | 2018 |
Viewing forests through the lens of complex systems science E Filotas, L Parrott, PJ Burton, RL Chazdon, KD Coates, L Coll, ... Ecosphere 5 (1), 1-23, 2014 | 224 | 2014 |
Long‐term experimental manipulation of climate alters the ectomycorrhizal community of Betula nana in Arctic tundra JR Deslippe, M Hartmann, WW Mohn, SW Simard Global change biology 17 (4), 1625-1636, 2011 | 219 | 2011 |
Access to mycorrhizal networks and roots of trees: importance for seedling survival and resource transfer FP Teste, SW Simard, DM Durall, RD Guy, MD Jones, AL Schoonmaker Ecology 90 (10), 2808-2822, 2009 | 208 | 2009 |
The foundational role of mycorrhizal networks in self-organization of interior Douglas-fir forests SW Simard Forest Ecology and Management 258, S95-S107, 2009 | 158 | 2009 |
Defoliation of interior Douglas-fir elicits carbon transfer and stress signalling to ponderosa pine neighbors through ectomycorrhizal networks YY Song, SW Simard, A Carroll, WW Mohn, RS Zeng Scientific reports 5 (1), 8495, 2015 | 148 | 2015 |
Effects of soil trenching on occurrence of ectomycorrhizas on Pseudotsuga menziesii seedlings grown in mature forests of Betula papyrifera and Pseudotsuga menziesii SW Simard, DA Perry, JE Smith, R Molina The New Phytologist 136 (2), 327-340, 1997 | 137 | 1997 |
Influence of initial chemistry on decomposition of foliar litter in contrasting forest types in British Columbia CE Prescott, L Vesterdal, CM Preston, SW Simard Canadian Journal of Forest Research 34 (8), 1714-1729, 2004 | 134 | 2004 |
Mycorrhizal networks and distance from mature trees alter patterns of competition and facilitation in dry Douglas-fir forests FP Teste, SW Simard Oecologia 158, 193-203, 2008 | 129 | 2008 |
Reciprocal transfer of carbon isotopes between ectomycorrhizal Betula papyrifera and Pseudotsuga menziesii SW Simard, MD Jones, DM Durall, DA Perry, DD Myrold, R Molina The New Phytologist 137 (3), 529-542, 1997 | 117 | 1997 |