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Natalie Griffiths

Salmon VG, Brice DJ, Bridgham SD, Childs J, Graham JD, Griffiths NA, Hofmockel KS, Iversen CM, Jicha TM, Kolka RK, et al. 2021. Nitrogen and phosphorus cycling in an ombrotrophic peatland: a benchmark for assessing change. Plant and Soil. 466(1-2):649–674. doi:10.1007/s11104-021-05065-x.
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Curtinrich HJ, Sebestyen SD, Griffiths NA, Hall SJ. 2021. Warming Stimulates Iron-Mediated Carbon and Nutrient Cycling in Mineral-Poor Peatlands. Ecosystems. 25(1):44–60. doi:10.1007/s10021-021-00639-3.
View
Wilson RM, Tfaily MM, Kolton M, Johnston ER, Petro C, Zalman CM, Hanson PJ, Heyman HM, Kyle JE, Hoyt DW, et al. 2021. Soil metabolome response to whole-ecosystem warming at the Spruce and Peatland Responses under Changing Environments experiment. Proceedings of the National Academy of Sciences. 118(25). doi:10.1073/pnas.2004192118.
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Shi X, Thornton PE, Xu X, Yuan F, Norby RJ, Walker AP, Warren JM, Mao J, Hanson PJ, Meng L, et al. 2020. Modeling the hydrology and physiology of Sphagnum moss in a northern temperate bog. Biogeosciences Discussion . 2020:1–49. doi:10.5194/bg-2020-90.
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Ricciuto DM, Xu X, Shi X, Wang Y, Song X, Schadt CW, Griffiths NA, Mao J, Warren JM, Thornton PE, et al. 2021. An Integrative Model for Soil Biogeochemistry and Methane Processes: I. Model Structure and Sensitivity Analysis. Journal of Geophysical Research: Biogeosciences. 126(8). doi:10.1029/2019jg005468.
View
Griffiths NA, Sebestyen SD, Oleheiser KC. 2019. Variation in peatland porewater chemistry over time and space along a bog to fen gradient. Science of The Total Environment. 697:134152. doi:10.1016/j.scitotenv.2019.134152.
View
Hanson PJ, Griffiths NA, Iversen CM, Norby RJ, Sebestyen SD, Phillips JR, Chanton JP, Kolka RK, Malhotra A, Oleheiser KC, et al. 2020. Rapid Net Carbon Loss From a Whole‐Ecosystem Warmed Peatland. AGU Advances. 1(3). doi:10.1029/2020av000163.
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Griffiths NA, Hanson PJ, Ricciuto DM, Iversen CM, Jensen AM, Malhotra A, McFarlane KJ, Norby RJ, Sargsyan K, Sebestyen SD, et al. 2017. Temporal and Spatial Variation in Peatland Carbon Cycling and Implications for Interpreting Responses of an Ecosystem-Scale Warming Experiment. Soil Science Society of America Journal. 81(6):1668–1688. doi:10.2136/sssaj2016.12.0422.
View
Wilson RM, Hopple AM, Tfaily MM, Sebestyen SD, Schadt CW, Pfeifer-Meister L, Medvedeff CA, McFarlane KJ, Kostka JE, Kolton M, et al. 2016. Stability of peatland carbon to rising temperatures. Nature Communications. 7(1). doi:10.1038/ncomms13723.
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Griffiths NA, Sebestyen SD. 2016. Dynamic Vertical Profiles of Peat Porewater Chemistry in a Northern Peatland. Wetlands. 36(6):1119–1130. doi:10.1007/s13157-016-0829-5.
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Participant Information

Publications

2025

  1. Hanson PJ, Griffiths NA, Salmon VG, Birkebak J, Warren JM, Phillips JR, Guilliams M, Oleheiser KC, Jones M, Jones N, et al. 2025. Peatland plant community changes in annual production and composition through 8 years of warming manipulations under ambient and elevated CO2 atmospheres. JGR-Biogeosciences. 130.

2023

  1. Roth S, Griffiths NA, Oleheiser KC, Carrell AA, Klingeman D, Seibert A, Chanton JP, Hanson PJ, Schadt CW. 2023. Elevated temperature alters microbial communities, but not decomposition rates, during 3 years of in situ peat decomposition. . mSystems . 8:00337–23. doi:10.1128/msystems.00337-23.

2022

  1. Pierce CE, Furman OS, Nicholas SL, Wasik JC, Gionfriddo CM, Wymore AM, Sebestyen SD, Kolka RK, Mitchell CP, Griffiths NA, et al. 2022. Role of Ester Sulfate and Organic Disulfide in Mercury Methylation in Peatland Soils. Environmental Science & Technology. 56(2):1433–1444. doi:10.1021/acs.est.1c04662.
  2. Iversen CM, Latimer JM, Brice DJ, Childs J, Vander Stel H, Defrenne CE, Graham JD, Griffiths NA, Malhotra A, Norby RJ, et al. 2022. Whole-Ecosystem Warming Increases Plant-Available Nitrogen and Phosphorus in an Ombrotrophic Bog. Ecosystems. doi:10.1007/s10021-022-00744-x.

2021

  1. Ricciuto DM, Xu X, Shi X, Wang Y, Song X, Schadt CW, Griffiths NA, Mao J, Warren JM, Thornton PE, et al. 2021. An Integrative Model for Soil Biogeochemistry and Methane Processes: I. Model Structure and Sensitivity Analysis. Journal of Geophysical Research: Biogeosciences. 126(8). doi:10.1029/2019jg005468.
  2. Ricciuto DM, Xu X, Shi X, Wang Y, Song X, Schadt CW, Griffiths NA, Mao J, Warren JM, Thornton PE, et al. 2021. An Integrative Model for Soil Biogeochemistry and Methane Processes: I. Model Structure and Sensitivity Analysis. Journal of Geophysical Research: Biogeosciences. 126(8). doi:10.1029/2019jg005468.
  3. Shelley SJ, Brice DJ, Iversen CM, Kolka RK, Sebestyen SD, Griffiths NA. 2021. Deciphering the shifting role of intrinsic and extrinsic drivers on moss decomposition in peatlands over a 5‐year period. Oikos. 2022(1). doi:10.1111/oik.08584.
  4. Shi X, Ricciuto DM, Thornton PE, Xu X, Yuan F, Norby RJ, Walker AP, Warren JM, Mao J, Hanson PJ, et al. 2021. Extending a land-surface model with Sphagnum moss to simulate responses of a northern temperate bog to whole ecosystem warming and elevated CO2. Biogeosciences. 18(2):467–486. doi:10.5194/bg-18-467-2021.
  5. Yuan F, Wang Y, Ricciuto DM, Shi X, Yuan F, Brehme T, Bridgham SD, Keller JK, Warren JM, Griffiths NA, et al. 2021. Hydrological feedbacks on peatland CH4 emission under warming and elevated CO2: A modeling study. Journal of Hydrology. 603:127137. doi:10.1016/j.jhydrol.2021.127137.
  6. Salmon VG, Brice DJ, Bridgham SD, Childs J, Graham JD, Griffiths NA, Hofmockel KS, Iversen CM, Jicha TM, Kolka RK, et al. 2021. Nitrogen and phosphorus cycling in an ombrotrophic peatland: a benchmark for assessing change. Plant and Soil. 466(1-2):649–674. doi:10.1007/s11104-021-05065-x.
  7. Salmon VG, Brice DJ, Bridgham SD, Childs J, Graham JD, Griffiths NA, Hofmockel KS, Iversen CM, Jicha TM, Kolka RK, et al. 2021. Nitrogen and phosphorus cycling in an ombrotrophic peatland: a benchmark for assessing change. Plant and Soil. 466(1-2):649–674. doi:10.1007/s11104-021-05065-x.
  8. Wilson RM, Griffiths NA, Visser A, McFarlane KJ, Sebestyen SD, Oleheiser KC, Bosman S, Hopple AM, Tfaily MM, Kolka RK, et al. 2021. Radiocarbon Analyses Quantify Peat Carbon Losses With Increasing Temperature in a Whole Ecosystem Warming Experiment. Journal of Geophysical Research: Biogeosciences. 126(11). doi:10.1029/2021jg006511.
  9. Wilson RM, Tfaily MM, Kolton M, Johnston ER, Petro C, Zalman CM, Hanson PJ, Heyman HM, Kyle JE, Hoyt DW, et al. 2021. Soil metabolome response to whole-ecosystem warming at the Spruce and Peatland Responses under Changing Environments experiment. Proceedings of the National Academy of Sciences. 118(25). doi:10.1073/pnas.2004192118.
  10. Stelling JM, Sebestyen SD, Griffiths NA, Mitchell CP, Green MB. 2021. The stable isotopes of natural waters at the Marcell Experimental Forest. Hydrological Processes. 35(10). doi:10.1002/hyp.14336.
  11. Stelling JM, Sebestyen SD, Griffiths NA, Mitchell CP, Green MB. 2021. The stable isotopes of natural waters at the Marcell Experimental Forest. Hydrological Processes. 35(10). doi:10.1002/hyp.14336.
  12. Curtinrich HJ, Sebestyen SD, Griffiths NA, Hall SJ. 2021. Warming Stimulates Iron-Mediated Carbon and Nutrient Cycling in Mineral-Poor Peatlands. Ecosystems. 25(1):44–60. doi:10.1007/s10021-021-00639-3.

2020

  1. Shi X, Thornton PE, Xu X, Yuan F, Norby RJ, Walker AP, Warren JM, Mao J, Hanson PJ, Meng L, et al. 2020. Modeling the hydrology and physiology of Sphagnum moss in a northern temperate bog. Biogeosciences Discussion . 2020:1–49. doi:10.5194/bg-2020-90.
  2. Hanson PJ, Griffiths NA, Iversen CM, Norby RJ, Sebestyen SD, Phillips JR, Chanton JP, Kolka RK, Malhotra A, Oleheiser KC, et al. 2020. Rapid Net Carbon Loss From a Whole‐Ecosystem Warmed Peatland. AGU Advances. 1(3). doi:10.1029/2020av000163.

2019

  1. Griffiths NA, Sebestyen SD, Oleheiser KC. 2019. Variation in peatland porewater chemistry over time and space along a bog to fen gradient. Science of The Total Environment. 697:134152. doi:10.1016/j.scitotenv.2019.134152.

2017

  1. Griffiths NA, Hanson PJ, Ricciuto DM, Iversen CM, Jensen AM, Malhotra A, McFarlane KJ, Norby RJ, Sargsyan K, Sebestyen SD, et al. 2017. Temporal and Spatial Variation in Peatland Carbon Cycling and Implications for Interpreting Responses of an Ecosystem-Scale Warming Experiment. Soil Science Society of America Journal. 81(6):1668–1688. doi:10.2136/sssaj2016.12.0422.

2016

  1. Griffiths NA, Sebestyen SD. 2016. Dynamic Vertical Profiles of Peat Porewater Chemistry in a Northern Peatland. Wetlands. 36(6):1119–1130. doi:10.1007/s13157-016-0829-5.
  2. Wilson RM, Hopple AM, Tfaily MM, Sebestyen SD, Schadt CW, Pfeifer-Meister L, Medvedeff CA, McFarlane KJ, Kostka JE, Kolton M, et al. 2016. Stability of peatland carbon to rising temperatures. Nature Communications. 7(1). doi:10.1038/ncomms13723.

2015

  1. Shi X, Thornton PE, Ricciuto DM, Hanson PJ, Mao J, Sebestyen SD, Griffiths NA, Bisht G. 2015. Representing northern peatland microtopography and hydrology within the Community Land Model. Biogeosciences. 12(21):6463–6477. doi:10.5194/bg-12-6463-2015.

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