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General Environmental Science

McPartland MY, Montgomery RA, Hanson PJ, Phillips JR, Kolka RK, Palik B. Vascular plant species response to warming and elevated carbon dioxide in a boreal peatland. Environmental Research Letters. 2020;15(12):124066. doi:10.1088/1748-9326/abc4fb
McPartland MY, Kane ES, Falkowski MJ, Kolka RK, Turetsky MR, Palik B, Montgomery RA. The response of boreal peatland community composition and NDVI to hydrologic change, warming, and elevated carbon dioxide. Global Change Biology. 2018;25(1):93-107. doi:10.1111/gcb.14465
Gill AL, Giasson M‐A, Yu R, Finzi AC. Deep peat warming increases surface methane and carbon dioxide emissions in a black spruce‐dominated ombrotrophic bog. Global Change Biology. 2017;23(12):5398-5411. doi:10.1111/gcb.13806
Haynes KM, Kane ES, Potvin L, Lilleskov EA, Kolka RK, Mitchell CPJ. Gaseous mercury fluxes in peatlands and the potential influence of climate change. Atmospheric Environment. 2017;154:247-259. doi:10.1016/j.atmosenv.2017.01.049
Griffiths NA, Sebestyen SD. Dynamic Vertical Profiles of Peat Porewater Chemistry in a Northern Peatland. Wetlands. 2016;36(6):1119-1130. doi:10.1007/s13157-016-0829-5
Gunderson CA, Edwards NT, Walker AV, O'Hara KH, Campion CM, Hanson PJ. Forest phenology and a warmer climate - growing season extension in relation to climatic provenance. Global Change Biology. 2012;18(6):2008-2025. doi:10.1111/j.1365-2486.2011.02632.x
Hanson PJ, Childs KW, Wullschleger SD, Riggs JS, Thomas WK, Todd DE, Warren JM. A method for experimental heating of intact soil profiles for application to climate change experiments. Global Change Biology. 2011;17(2):1083-1096. doi:10.1111/j.1365-2486.2010.02221.x

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