The Smithsonian Institution
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Genevieve Noyce

Publications

  • Asynchronous nitrogen supply and demand produce nonlinear plant allocation responses to warming and elevated CO2
  • Effect of Carex rostrata on seasonal and interannual variability in peatland methane emissions
  • Soil and greenhouse gas responses to biochar additions in a temperate hardwood forest
  • The microbiomes and metagenomes of forest biochars
  • Soil microbial responses over 2 years following biochar addition to a north temperate forest
  • Soil microbial responses to wood ash addition and forest fire in managed Ontario forests
  • Phosphorus uptake and availability and short-term seedling growth in three Ontario soils amended with ash and biochar
  • Species interactions enhance root allocation, microbial diversity and P acquisition in intercropped wheat and soybean under P deficiency
  • Evapotranspiration Trends Over the Eastern United States During the 20th Century
  • Quantifying Shapes: Mathematical Techniques for Analysing Visual Representations of Sound and Music
  • Plant species determine tidal wetland methane response to sea level rise
  • Biogeochemical and plant trait mechanisms drive enhanced methane emissions in response to whole-ecosystem warming
  • Considering coasts: Adapting terrestrial models to characterize coastal wetland ecosystems
  • Temperature optimum for marsh resilience and carbon accumulation revealed in a whole ecosystem warming experiment
  • Asynchronous nitrogen supply and demand produce nonlinear plant allocation responses to warming and elevated CO 2
  • Temperature optimum for marsh resilience and carbon accumulation revealed in a whole‐ecosystem warming experiment
  • Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlands
  • Temperature sensitivity of soil organic carbon decomposition responses to warming and elevated CO2 in the tidal marsh ecosystem
  • The long-term effects of elevated atmospheric CO2 and warming on soil microbial communities in a tidal marsh ecosystem
  • Author Correction: Plant species determine tidal wetland methane response to sea level rise
  • Geomorphic and ecological constraints on the coastal carbon sink
  • Author Correction: Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlands
  • Reproductive Responses to Increased Shoot Density and Global Change Drivers in a Widespread Clonal Wetland Species, Schoenoplectus americanus
  • Microbial Mechanisms Governing the Reduction of CH4 Emission in Coastal Wetlands under Elevated CO2 Conditions
  • Author Correction: Geomorphic and ecological constraints on the coastal carbon sink
  • Developing a Redox Network for Coastal Saltmarsh Systems in the PFLOTRAN Reaction Model
  • Assessing root-soil interactions in wetland plants: root exudation and radial oxygen loss
  • Supplementary material to "Assessing root-soil interactions in wetland plants: root exudation and radial oxygen loss"
  • Methane fluxes in tidal marshes of the conterminous United States

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Co-workers & collaborators

J. Patrick Megonigal

Senior Scientist

J. Patrick Megonigal

Roy Rich

Roy Rich

Genevieve Noyce's public data