GlacierMeltModelAirT English utf8 dataset McMurdo Dry Valleys LTER http://mcmlter.org/ 2016-03-19 ISO 19115-2 Geographic Information - North American Profile Metadata - Data with Biological Extensions ISO 19115-2:2009(E) Glacier melt modeling: Air Temperature 1996-2011 2016-03-19 publication Matthew Hoffman Los Alamos National Laboratory http://www.lanl.gov Los Alamos National Lab Los Alamos NM 87545 US mhoffman@lanl.gov pointOfContact documentDigital This is the data and metatada for modeled Air Temperature - part of six modeled parameters that comprise the Taylor Valley Galcier Melt modeling Data contained and described in this document correspond to the physically-based surface energy balance model for the glaciers of Taylor Valley developed by the dataset owners. The spatial variability in ablation (ice melt and sublimation), runoff, and climate sensitivity of the glaciers was modeled using 16 years of meteorological and surface mass balance (the net mass gain or loss of ice on the surface of the glacier) observations collected in Taylor Valley (see figure).   An unusual aspect of the model is the inclusion of transmission of solar radiation into the ice and subsequent drainage of some subsurface melt .   Melt model was applied to the ablation zones of the glaciers of Taylor Valley, identified by colored areas. Mass balance stakes, meteorological stations, and stream gages shown for reference. This dataset package is part of a 6-pack multi-set, which you can find at http://mcmlter.org The input files, parameters and examples are found in this package: http://mcmlter.org/content/glacier-melt-modeling-inputs-and-example-m-file-reader Name: Andrew G. Fountain Role: field crew Name: Inigo San Gil Role: data manager completed McMurdo Dry Valleys LTER http://mcmlter.org/ unknown Data and metadata created with the assistance of Inigo San Gil on 2016  English This is the Taylor Valley, a subjectively approximated contour by San Gil. We use this to denote the geographical extent of studies that encompass the whole Taylor Valley. According to Wiki contributors, the Taylor Valley is the southernmost of the three large Dry Valleys in the Transantarctic Mountains, Victoria Land, located west of McMurdo Sound. The valley extends from Taylor Glacier in the west to McMurdo Sound at Explorers Cove at the northwest head of New Harbour in the east and is about 29 kilometres (18 mi) long. It was once occupied by the receding Taylor Glacier, from which it derives its name. Taylor Valley contains Lake Bonney in the west (inward), and Lake Fryxell in the east (coastward), and Lake Hoare, Lake Chad, Mummy Pond and Parera Pond close together between the two. Further east of Lake Bonney is Pearse Valley. Taylor Valley is separated from Wright Valley in the north by Asgard Range, and from Ferrar Glacier in the south by Kukri Hills. 163.624877929690 161.707763671880 -77.808487073526 -77.519802097166 ground condition 1996-07-10 2011-06-11 Other papers used for the study (see related publications for the author-related papers) G. E. Liston and K. Elder, “A meteorological distribution system for high-resolution terrestrial modeling (MicroMet),” J. Hydrometeorol., vol. 7, pp. 217–234, 2006.  G. E. Liston, J.-G. Winther, O. Bruland, H. Elvehoy, and K. Sand, “Below-surface ice melt on the coastal Antarctic ice sheet,” J. Glaciol., vol. 45, no. 150, pp. 273–285, 1999. MicroMet simulation code is owned by G. Liston at CU https://mcm.lternet.edu/sites/default/files/data/Tair-1996.tar__0.gz SIM_AIRT_1996 eng; US McMurdo Dry Valleys LTER SIM_AIRT_1996 Data Source Definition : Modeled data details for the air temperature, year 1996 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-1996.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-1997.tar__0.gz SIM_AIRT_1997 eng; US McMurdo Dry Valleys LTER SIM_AIRT_1997 Data Source Definition : Modeled data details for the air temperature, year 1997 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-1997.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-1998.tar__0.gz SIM_AIRT_1998 eng; US McMurdo Dry Valleys LTER SIM_AIRT_1998 Data Source Definition : Modeled data details for the air temperature, year 1998 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-1998.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-1999.tar__0.gz SIM_AIRT_1999 eng; US McMurdo Dry Valleys LTER SIM_AIRT_1999 Data Source Definition : Modeled data details for the air temperature, year 1999 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-1999.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2000.tar__0.gz SIM_AIRT_2000 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2000 Data Source Definition : Modeled data details for the air temperature, year 2000 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2000.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2001.tar__0.gz SIM_AIRT_2001 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2001 Data Source Definition : Modeled data details for the air temperature, year 2001 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2001.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2002.tar__0.gz SIM_AIRT_2002 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2002 Data Source Definition : Modeled data details for the air temperature, year 2002 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2002.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2003.tar__0.gz SIM_AIRT_2003 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2003 Data Source Definition : Modeled data details for the air temperature, year 2003 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2003.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2004.tar__0.gz SIM_AIRT_2004 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2004 Data Source Definition : Modeled data details for the air temperature, year 2004 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2004.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2005.tar__0.gz SIM_AIRT_2005 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2005 Data Source Definition : Modeled data details for the air temperature, year 2005 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2005.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2006.tar__0.gz SIM_AIRT_2006 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2006 Data Source Definition : Modeled data details for the air temperature, year 2006 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2006.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2007.tar__0.gz SIM_AIRT_2007 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2007 Data Source Definition : Modeled data details for the air temperature, year 2007 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2007.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2008.tar__0.gz SIM_AIRT_2008 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2008 Data Source Definition : Modeled data details for the air temperature, year 2008 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2008.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2009.tar__1.gz SIM_AIRT_2009 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2009 Data Source Definition : Modeled data details for the air temperature, year 2009 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2009.tar__1.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2010.tar__0.gz SIM_AIRT_2010 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2010 Data Source Definition : Modeled data details for the air temperature, year 2010 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2010.tar__0.gz https://mcm.lternet.edu/sites/default/files/data/Tair-2011.tar__0.gz SIM_AIRT_2011 eng; US McMurdo Dry Valleys LTER SIM_AIRT_2011 Data Source Definition : Modeled data details for the air temperature, year 2011 Number of Header Lines : 1 Orientation : Column Field Delimiter : , false DBF https://mcm.lternet.edu/sites/default/files/data/Tair-2011.tar__0.gz dataset Field Data Collection This modeling effort makes use of the network of automated weather stations (AWS) maintained by MCM.  Additionally, it uses the glacier surface mass balance stake network for calibration and validation.  Finally, it uses the streamgauge network for validation. Model Approach The point observations were distributed across the valley on a 250 m resolution horizontal grid using the model MicroMet.  Additionally, MicroMet was used to generate forcing for the ~20 m high vertical cliffs that form the termini of the glaciers. The distributed meteorological data generated by MicroMet was used to force the IceMelt model which calculates surface and below-surface melt and runoff rates for each location in the model domain.  To adequately model glacier ablation and subsurface ice temperatures required including the transmission of solar radiation into the ice and subsequent drainage of some of the melt generated below the surface.  IceMelt was run using a daily time step for the 1995-2005 time period [4], and then with an hourly time step for the 1996-2011 time period.  The model was calibrated using seasonal surface mass balance measurements, below-surface ice temperatures, and ice density at three locations.  The model was then run in distributed mode across all glacier ablation zones in Taylor Valley.  Model results were compared to surface mass balance stake observations and proglacial streamflow records. Modeling code used MicroMet:  MicroMet is a quasi-physically based meteorological model of intermediate complexity that is suitable for generating gridded atmospheric forcings at high-resolution (~30-1000 m grid increments).  It combines spatial interpolation with known physical relationships between weather and topography for the variables of air temperature, relative humidity, wind speed and direction, incoming solar radiation, incoming longwave radiation, surface pressure, and precipitation. MicroMet includes a preprocessor for filling short gaps in the measurement time series at each station, and makes use of an autoregressive integrated moving average (ARIMA) calculation for filling gaps in diurnally varying variables. MicroMet requires a digital elevation model and the time-series of individual weather variables at various sites in or near the modeling domain. For spatial interpolation from irregularly spaced stations to a gridded dataset, MicroMet uses a Barnes objective analysis scheme. IceMelt:  IceMelt is a physical-based surface energy balance model for glacier ice.  It accounts for both the surface energy balance and subsurface solar heating from absorbed solar radiation, allowing it to reproduce the so-called ‘solid state greenhouse effect’ observed near the surface of Dry Valley glaciers.  The surface energy balance includes terms for net shortwave radiation, net longwave radiation, sensible and latent heat fluxes between the ice and atmosphere, heat conduction into or out of the ice, and melt at the ice surface.  Additionally, the model domain extends 15 m into the ice and the model includes heat conduction through that column, including a source term for solar radiation absorbed internally within the ice based on a two-stream approximation.  The model supports partial melting of ice within a grid cell below the surface, and it calculates drainage of water when partial melt surpasses a specified threshold water fraction.  IceMelt is a point model, but can be run in distributed mode where each location in a spatial grid is run independently.  IceMelt has been run with both daily and hourly time steps. Model input files Inputs to MicroMet are air temperature, relative humidity, wind speed, incoming solar radiation, and incoming longwave radiation at 3 m height at point AWS locations.  Additionally, a digital elevation model (DEM) of the model domain is required. Inputs to IceMelt are air temperature, relative humidity, wind speed, incoming solar radiation, and incoming longwave radiation at 3 m height and surface albedo at each location to be modeled.  Simulation output MicroMet outputs air temperature, relative humidity, wind speed, incoming solar radiation, and incoming longwave radiation at all locations in the specified model domain. IceMelt outputs all of the terms of the surface energy balance, and sublimation and melt at the surface.  It also outputs ice temperature, melt/freeze rate, and water drainage at all depths modeled within the ice. Both models output all fields at every glacier ablation zone location on a 250 m grid of Taylor Valley Metadata Access Constraints: none Metadata Use Constraints: none annually McMurdo Dry Valleys LTER http://mcmlter.org/ pointOfContact