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Physiology

1. Maillard F, Fernandez CW, Mundra S, Heckman K, Kolka RK, Kauserud H, Kennedy PG. Warming drives a ‘hummockification’ of microbial communities associated with decomposing mycorrhizal fungal necromass in peatlands. New Phytologist. 2021;234(6):2032–2043. doi:10.1111/nph.17755
1. Defrenne CE, Abs E, Cordeiro AL, Dietterich L, Hough M, Jones JM, Kivlin SN, Chen W, Cusack D, Franco ALC, et al. The Ecology Underground coalition: building a collaborative future of belowground ecology and ecologists. New Phytologist. 2021;229(6):3058–3064. doi:10.1111/nph.17163
1. Carrell AA, Lawrence TJ, Cabugao KGM, Carper DL, Pelletier DA, Lee JH, Jawdy SS, Grimwood J, Schmutz J, Hanson PJ, et al. Habitat‐adapted microbial communities mediate Sphagnum peatmoss resilience to warming. New Phytologist. 2022;234(6):2111–2125. doi:10.1111/nph.18072
1. Jensen AM, Warren JM, King AW, Ricciuto DM, Hanson PJ, Wullschleger SD. Simulated projections of boreal forest peatland ecosystem productivity are sensitive to observed seasonality in leaf physiology. Tree Physiology. 2019;39(4):556–572. doi:10.1093/treephys/tpy140
1. Kostka JE, Weston DJ, Glass JB, Lilleskov EA, Shaw J, Turetsky MR. The Sphagnum microbiome: new insights from an ancient plant lineage. New Phytologist. 2016;211(1):57–64. doi:10.1111/nph.13993
1. Weston DJ, Timm CM, Walker AP, Gu L, Muchero W, Schmutz J, Shaw J, Tuskan GA, Warren JM, Wullschleger SD. Sphagnum physiology in the context of changing climate: emergent influences of genomics, modelling and host–microbiome interactions on understanding ecosystem function. Plant, Cell & Environment. 2014;38(9):1737–1751. doi:10.1111/pce.12458

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