| human | Q5 |
| P856 | official website | https://www.metoffice.gov.uk/research/people/nicola-gedney |
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | female | Q6581072 |
| Q57207215 | A quality-controlled global runoff data set (Reply) |
| Q57891633 | A study of the role of wetlands in defining spatial patterns of near-surface (top 1 m) soil carbon in the Northern Latitudes |
| Q31111649 | Assessing the carbon balance of circumpolar Arctic tundra using remote sensing and process modeling |
| Q58245671 | Author Correction: Carbon budgets for 1.5 and 2 °C targets lowered by natural wetland and permafrost feedbacks |
| Q58410554 | Cabauw Experimental Results from the Project for Intercomparison of Land-Surface Parameterization Schemes |
| Q58245681 | Carbon budgets for 1.5 and 2 °C targets lowered by natural wetland and permafrost feedbacks |
| Q58403259 | Characterizing GCM Land Surface Schemes to Understand Their Responses to Climate Change |
| Q57949543 | Climate feedback from wetland methane emissions |
| Q112781341 | Comparing Tropical Forest Projections from Two Generations of Hadley Centre Earth System Models, HadGEM2-ES and HadCM3LC |
| Q57372660 | Comparison of the HadGEM2 climate-chemistry model against in situ and SCIAMACHY atmospheric methane data |
| Q60170690 | Comparison of the HadGEM2 climate-chemistry model against in-situ and SCIAMACHY atmospheric methane data |
| Q58079431 | Detection of solar dimming and brightening effects on Northern Hemisphere river flow |
| Q58079531 | Development and evaluation of an Earth-System model – HadGEM2 |
| Q58079550 | Development and evaluation of an Earth-system model – HadGEM2 |
| Q58316057 | Effects of Frozen Soil on Soil Temperature, Spring Infiltration, and Runoff: Results from the PILPS 2(d) Experiment at Valdai, Russia |
| Q57636942 | Estimating Potential Evaporation from Vegetated Surfaces for Water Management Impact Assessments Using Climate Model Output |
| Q57648237 | Evaluating the Simulated Seasonality of Soil Moisture with Earth Observation Data |
| Q58267227 | Evaluation of the rainfall component of a weather generator for climate impact studies |
| Q117423245 | Evaluation of wetland CH4 in the Joint UK Land Environment Simulator (JULES) land surface model using satellite observations |
| Q57892749 | Flexible parameter-sparse global temperature time profiles that stabilise at 1.5 and 2.0 °C |
| Q57239047 | From biota to chemistry and climate: towards a comprehensive description of trace gas exchange between the biosphere and atmosphere |
| Q58112728 | Global wetland contribution to 2000–2012 atmospheric methane growth rate dynamics |
| Q57895186 | High-resolution global topographic index values for use in large-scale hydrological modelling |
| Q33876192 | Highly contrasting effects of different climate forcing agents on terrestrial ecosystem services |
| Q58267193 | IMOGEN: an intermediate complexity model to evaluate terrestrial impacts of a changing climate |
| Q112764466 | Improvement of modeling plant responses to low soil moisture in JULESvn4.9 and evaluation against flux tower measurements |
| Q112764476 | JULES-GL7: the Global Land configuration of the Joint UK Land Environment Simulator version 7.0 and 7.2 |
| Q58262467 | Key results and implications from phase 1(c) of the Project for Intercomparison of Land-surface Parametrization Schemes |
| Q114112389 | Large Methane Emission Fluxes Observed From Tropical Wetlands in Zambia |
| Q109317386 | Modeled Microbial Dynamics Explain the Apparent Temperature Sensitivity of Wetland Methane Emissions |
| Q110087183 | Non-flooded riparian Amazon trees are a regionally significant methane source |
| Q57950086 | Possible role of wetlands, permafrost, and methane hydrates in the methane cycle under future climate change: A review |
| Q31122946 | Projected increase in continental runoff due to plant responses to increasing carbon dioxide |
| Q111692707 | Regional variation in the effectiveness of methane-based and land-based climate mitigation options |
| Q111692718 | Regional variation in the effectiveness of methane-based and land-based climate mitigation options |
| Q63951559 | Representing the effects of subgrid variability of soil moisture on runoff generation in a land surface model |
| Q58256215 | Role of regional wetland emissions in atmospheric methane variability |
| Q58410548 | Sensitivity of Latent Heat Flux from PILPS Land-Surface Schemes to Perturbations of Surface Air Temperature |
| Q110898952 | Spatially Resolved Isotopic Source Signatures of Wetland Methane Emissions |
| Q111692719 | Supplementary material to "Regional variation in the effectiveness of methane-based and land-based climate mitigation options" |
| Q106622130 | Supplementary material to "The Global Methane Budget 2000–2017" |
| Q106622086 | The Global Methane Budget 2000–2017 |
| Q106622144 | The Global Methane Budget 2000–2017 |
| Q57658502 | The HadGEM2 family of Met Office Unified Model climate configurations |
| Q58319090 | The Joint UK Land Environment Simulator (JULES), Model description – Part 1: Energy and water fluxes |
| Q58319088 | The Joint UK Land Environment Simulator (JULES), model description – Part 1: Energy and water fluxes |
| Q58074904 | The Joint UK Land Environment Simulator (JULES), model description – Part 2: Carbon fluxes and vegetation dynamics |
| Q58316058 | The Representation of Snow in Land Surface Schemes: Results from PILPS 2(d) |
| Q58403235 | The Sensitivity of Global Climate Model Simulations to the Representation of Soil Moisture Heterogeneity |
| Q57160507 | The global methane budget 2000–2012 |
| Q57264438 | The role of natural wetlands in the global methane cycle |
| Q112814755 | UKESM1: Description and Evaluation of the U.K. Earth System Model |
| Q57921151 | Uncertainties linked to land-surface processes in climate change simulations |
| Q57921714 | Using a GCM analogue model to investigate the potential for Amazonian forest dieback |
| Q57160488 | Variability and quasi-decadal changes in the methane budget over the period 2000–2012 |
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