|Decline of ectomycorrhizal fungi following a mountain pine beetle epidemic|
R Treu, J Karst, M Randall, GJ Pec, PW Cigan, SW Simard, JEK Cooke, ...
Ecology 95 (4), 1096-1103, 2014
|Ectomycorrhizal fungi mediate indirect effects of a bark beetle outbreak on secondary chemistry and establishment of pine seedlings|
J Karst, N Erbilgin, GJ Pec, PW Cigan, A Najar, SW Simard, JF Cahill
New Phytologist 208 (3), 904-914, 2015
|Fungal community structure and function shifts with atmospheric nitrogen deposition|
JAM Moore, MA Anthony, GJ Pec, LK Trocha, A Trzebny, KM Geyer, ...
Global Change Biology 27 (7), 1349-1364, 2021
|No silver bullet: different soil handling techniques are useful for different research questions, exhibit differential type I and II error rates, and are sensitive to sampling …|
JF Cahill, JA Cale, J Karst, T Bao, GJ Pec, N Erbilgin
New Phytologist 216 (1), 11-14, 2017
|Change in soil fungal community structure driven by a decline in ectomycorrhizal fungi following a mountain pine beetle (Dendroctonus ponderosae) outbreak|
GJ Pec, J Karst, DL Taylor, PW Cigan, N Erbilgin, JEK Cooke, SW Simard, ...
New Phytologist 213 (2), 864-873, 2017
|Rapid Increases in Forest Understory Diversity and Productivity following a Mountain Pine Beetle (Dendroctonus ponderosae) Outbreak in Pine Forests|
GJ Pec, J Karst, AN Sywenky, PW Cigan, N Erbilgin, SW Simard, JF Cahill
PLoS ONE 10(4): e0124691, 2015
|Influence of bark beetle outbreaks on nutrient cycling in native pine stands in western Canada|
PW Cigan, J Karst, JF Cahill, AN Sywenky, GJ Pec, N Erbilgin
Plant and Soil 390 (1-2), 29-47, 2015
|Is biotic resistance to invaders dependent upon local environmental conditions or primary productivity? A meta-analysis|
GC Stotz, GJ Pec, JF Cahill
Basic and Applied Ecology 17 (5), 377-387, 2016
|Community-level determinants of smooth brome (Bromus inermis) growth and survival in the aspen parkland|
AA Carrigy, GC Stotz, MA Dettlaff, GJ Pec, Inderjit, N Erbilgin, JF Cahill
Plant Ecology 217 (11), 1395–1413, 2016
|The effects of ectomycorrhizal fungal networks on seedling establishment are contingent on species and severity of overstorey mortality|
GJ Pec, SW Simard, JF Cahill, Jr., J Karst
Mycorrhiza 30 (2-3), 173-183, 2020
|Positive Effects of Non-Native Grasses on the Growth of a Native Annual in a Southern California Ecosystem|
GJ Pec, GC Carlton
PLoS ONE 9 (11), e112437, 2014
|A Molecular Identification Protocol for Roots of Boreal Forest Tree Species|
MJ Randall, J Karst, GJ Pec, CS Davis, JC Hall, JF Cahill
Applications in Plant Sciences 2 (11), 1400069, 2014
|Fungal community response to long‐term soil warming with potential implications for soil carbon dynamics|
GJ Pec, LTA van Diepen, M Knorr, AS Grandy, JM Melillo, KM DeAngelis, ...
Ecosphere 12 (5), e03460, 2021
|Restoration of belowground fungal communities in reclaimed landscapes of the Canadian boreal forest|
GJ Pec, NM Scott, SF Hupperts, SL Hankin, SM Landhäusser, J Karst
Restoration Ecology 27 (6), 1369-1380, 2019
|Additive or synergistic? Early ectomycorrhizal fungal community response to mixed tree plantings in boreal forest reclamation|
NM Scott, GJ Pec, J Karst, SM Landhäusser
Oecologia 189 (1), 9-19, 2018
|Soil inoculation of lodgepole pine seedlings alters root-associated fungal communities but does not improve seedling performance in beetle-killed pine stands|
J Wasyliw, EG Fellrath, GJ Pec, JA Cale, J Franklin, C Thomasson, ...
Restoration Ecology 31 (1), e13663, 2022
|Choices on sampling, sequencing, and analyzing DNA influence the estimation of community composition of plant fungal symbionts|
JA Cale, N Scott, GJ Pec, SM Landhäusser, J Karst
Applications in Plant Sciences 9 (9-10), e11449, 2021
|Large-scale insect outbreak homogenizes the spatial structure of ectomycorrhizal fungal communities|
GJ Pec, JF Cahill, Jr.
PeerJ 7, e6895, 2019
|Methods in belowground botany|
GJ Pec, MK Ljubotina, JF Cahill, Jr.
Applications in Plant Sciences 7 (4), e1239, 2019
|Cascading effects of insect outbreak on plant and fungal community structure and function|