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- Other research product . 2021Open Access EnglishAuthors:Clyne, Margot; Lamarque, Jean-Francois; Mills, Michael J.; Khodri, Myriam; Ball, William; Bekki, Slimane; Dhomse, Sandip S.; Lebas, Nicolas; Mann, Graham; Marshall, Lauren; +13 moreClyne, Margot; Lamarque, Jean-Francois; Mills, Michael J.; Khodri, Myriam; Ball, William; Bekki, Slimane; Dhomse, Sandip S.; Lebas, Nicolas; Mann, Graham; Marshall, Lauren; Niemeier, Ulrike; Poulain, Virginie; Robock, Alan; Rozanov, Eugene; Schmidt, Anja; Stenke, Andrea; Sukhodolov, Timofei; Timmreck, Claudia; Toohey, Matthew; Tummon, Fiona; Zanchettin, Davide; Zhu, Yunqian; Toon, Owen B.;Project: NSF | Decadal Prediction Follow... (1430051), SNSF | SPARC International Proje... (138017), UKRI | The North Atlantic Climat... (NE/N018001/1), EC | STRATOCLIM (603557), UKRI | Reconciling Volcanic Forc... (NE/S000887/1)
As part of the Model Intercomparison Project on the climatic response to Volcanic forcing (VolMIP), several climate modeling centers performed a coordinated pre-study experiment with interactive stratospheric aerosol models simulating the volcanic aerosol cloud from an eruption resembling the 1815 Mt. Tambora eruption (VolMIP-Tambora ISA ensemble). The pre-study provided the ancillary ability to assess intermodel diversity in the radiative forcing for a large stratospheric-injecting equatorial eruption when the volcanic aerosol cloud is simulated interactively. An initial analysis of the VolMIP-Tambora ISA ensemble showed large disparities between models in the stratospheric global mean aerosol optical depth (AOD). In this study, we now show that stratospheric global mean AOD differences among the participating models are primarily due to differences in aerosol size, which we track here by effective radius. We identify specific physical and chemical processes that are missing in some models and/or parameterized differently between models, which are together causing the differences in effective radius. In particular, our analysis indicates that interactively tracking hydroxyl radical (OH) chemistry following a large volcanic injection of sulfur dioxide (SO2) is an important factor in allowing for the timescale for sulfate formation to be properly simulated. In addition, depending on the timescale of sulfate formation, there can be a large difference in effective radius and subsequently AOD that results from whether the SO2 is injected in a single model grid cell near the location of the volcanic eruption, or whether it is injected as a longitudinally averaged band around the Earth.
- Other research product . Collection . 2018Open Access EnglishAuthors:Fuchs, Matthias; Grosse, Guido; Jones, Benjamin M; Strauss, Jens; Baughman, Carson A; Walker, Donald A;Fuchs, Matthias; Grosse, Guido; Jones, Benjamin M; Strauss, Jens; Baughman, Carson A; Walker, Donald A;Publisher: PANGAEAProject: EC | PETA-CARB (338335), SNSF | Permafrost carbon pool es... (171784)
This data set describes the soil core and sample characteristics from the Ikpikpuk and Fish Creek river delta on the Arctic Coastal Plain in northern Alaska. The collection of the permafrost soil cores and the analysis of the samples are described in Fuchs et al. (2018). Sedimentary and geochemical characteristics of two small permafrost-dominated Arctic river deltas in northern Alaska. This data compilation consists of two data set. The first data set describes the properties of the collected permafrost soil cores from the Ikpikpuk river (IKP) and Fish Creek river (FCR) delta. This includes the coordinates of the nine coring locations, the field measurements of the active- and organic layer thickness at the coring locations, and the length of the collected permafrost core. In addition, soil organic carbon and soil nitrogen stocks and densities derived from the laboratory analyses for the reference depths 0-30 cm, 0-100 cm, 0-150 cm and 0-200 cm are presented in kg C m-2 and in kg C m-3. The second data set provides the raw laboratory data for all the samples of the nine collected permafrost cores in the Ikpikpuk and Fish Creek River Delta. All laboratory analyzes were carried out at the Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research, Potsdam. The third data set presents the results from the radiocarbon dating of chosen samples from five different permafrost cores. This includes the AMS radiocarbon date and the calibrated age of a sample. In addition, the sediment and organic carbon accumulation rates for the dated samples are included. This data set allows to calculate the total carbon and nitrogen storage in two small Arctic river deltas (IKP and FCR) for the first two meter of soil and enlarges the available permafrost cores for Arctic river delta deposits.
2 Research products, page 1 of 1
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- Other research product . 2021Open Access EnglishAuthors:Clyne, Margot; Lamarque, Jean-Francois; Mills, Michael J.; Khodri, Myriam; Ball, William; Bekki, Slimane; Dhomse, Sandip S.; Lebas, Nicolas; Mann, Graham; Marshall, Lauren; +13 moreClyne, Margot; Lamarque, Jean-Francois; Mills, Michael J.; Khodri, Myriam; Ball, William; Bekki, Slimane; Dhomse, Sandip S.; Lebas, Nicolas; Mann, Graham; Marshall, Lauren; Niemeier, Ulrike; Poulain, Virginie; Robock, Alan; Rozanov, Eugene; Schmidt, Anja; Stenke, Andrea; Sukhodolov, Timofei; Timmreck, Claudia; Toohey, Matthew; Tummon, Fiona; Zanchettin, Davide; Zhu, Yunqian; Toon, Owen B.;Project: NSF | Decadal Prediction Follow... (1430051), SNSF | SPARC International Proje... (138017), UKRI | The North Atlantic Climat... (NE/N018001/1), EC | STRATOCLIM (603557), UKRI | Reconciling Volcanic Forc... (NE/S000887/1)
As part of the Model Intercomparison Project on the climatic response to Volcanic forcing (VolMIP), several climate modeling centers performed a coordinated pre-study experiment with interactive stratospheric aerosol models simulating the volcanic aerosol cloud from an eruption resembling the 1815 Mt. Tambora eruption (VolMIP-Tambora ISA ensemble). The pre-study provided the ancillary ability to assess intermodel diversity in the radiative forcing for a large stratospheric-injecting equatorial eruption when the volcanic aerosol cloud is simulated interactively. An initial analysis of the VolMIP-Tambora ISA ensemble showed large disparities between models in the stratospheric global mean aerosol optical depth (AOD). In this study, we now show that stratospheric global mean AOD differences among the participating models are primarily due to differences in aerosol size, which we track here by effective radius. We identify specific physical and chemical processes that are missing in some models and/or parameterized differently between models, which are together causing the differences in effective radius. In particular, our analysis indicates that interactively tracking hydroxyl radical (OH) chemistry following a large volcanic injection of sulfur dioxide (SO2) is an important factor in allowing for the timescale for sulfate formation to be properly simulated. In addition, depending on the timescale of sulfate formation, there can be a large difference in effective radius and subsequently AOD that results from whether the SO2 is injected in a single model grid cell near the location of the volcanic eruption, or whether it is injected as a longitudinally averaged band around the Earth.
- Other research product . Collection . 2018Open Access EnglishAuthors:Fuchs, Matthias; Grosse, Guido; Jones, Benjamin M; Strauss, Jens; Baughman, Carson A; Walker, Donald A;Fuchs, Matthias; Grosse, Guido; Jones, Benjamin M; Strauss, Jens; Baughman, Carson A; Walker, Donald A;Publisher: PANGAEAProject: EC | PETA-CARB (338335), SNSF | Permafrost carbon pool es... (171784)
This data set describes the soil core and sample characteristics from the Ikpikpuk and Fish Creek river delta on the Arctic Coastal Plain in northern Alaska. The collection of the permafrost soil cores and the analysis of the samples are described in Fuchs et al. (2018). Sedimentary and geochemical characteristics of two small permafrost-dominated Arctic river deltas in northern Alaska. This data compilation consists of two data set. The first data set describes the properties of the collected permafrost soil cores from the Ikpikpuk river (IKP) and Fish Creek river (FCR) delta. This includes the coordinates of the nine coring locations, the field measurements of the active- and organic layer thickness at the coring locations, and the length of the collected permafrost core. In addition, soil organic carbon and soil nitrogen stocks and densities derived from the laboratory analyses for the reference depths 0-30 cm, 0-100 cm, 0-150 cm and 0-200 cm are presented in kg C m-2 and in kg C m-3. The second data set provides the raw laboratory data for all the samples of the nine collected permafrost cores in the Ikpikpuk and Fish Creek River Delta. All laboratory analyzes were carried out at the Alfred Wegener Institute Helmholtz Centre for Polar and Marine Research, Potsdam. The third data set presents the results from the radiocarbon dating of chosen samples from five different permafrost cores. This includes the AMS radiocarbon date and the calibrated age of a sample. In addition, the sediment and organic carbon accumulation rates for the dated samples are included. This data set allows to calculate the total carbon and nitrogen storage in two small Arctic river deltas (IKP and FCR) for the first two meter of soil and enlarges the available permafrost cores for Arctic river delta deposits.