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Introduction Detailed mapping of the valley-fill aquifer within the Susquehanna River valley and adjacent tributary valleys in south-central Broome County (Towns of Conklin and Kirkwood) is the latest study in the cooperative Detailed Aquifer Mapping Program between the US Geological Survey (USGS) and the New York State Department of Environmental Conservation (NYSDEC). The aim of the program is to map sand and gravel aquifers in New York State at a scale of 1:24,000. This information is used by NYSDEC Division of Water and others to delineate groundwater contributing areas, assess potential threats to aquifers from both point and non-point sources, respond to contamination from spills or leaks from underground...
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This map represents the mean annual value of total ecosystem carbon, simulated by the model MC1 for the 30-year period 1971-2000. The data is from output variable C_ECOSYS in MC1 version B60. The data is in units of grams of carbon per square meter; values range from 6739 to 77570 g C m-2. The mean value is 35184 g C m-2. The dynamic global vegetation model MC1 (e.g. Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts at two study sites in eastern Oregon (Deschutes and Fremont-Winema National Forests) and in Arizona (Apache Sitgreaves National Forest area) in the context of a project funded by the USDA Forest Service (PNW 09-JV-11261900-003)....
The U.S. Geological Survey (USGS) is providing a polygon feature class containing the approximate locations and confining units of the unconfined and confined aquifers within the Binghamton East 1:24,000 quadrangle of south-central Broome County, New York, 2020. The shapefile was created and intended for use with geographic information system (GIS) software. A companion report, USGS Scientific Investigations Report 2021-5026 (Van Hoesen and others, 2021; https://doi.org/10.3133/sir20215026) further describes data collection and map preparation.
The U.S. Geological Survey (USGS) is providing a polygon feature class delineating the extent of Glacial Lake Great Bend within the Binghamton East 1:24,000 quadrangle of south-central Broome County, New York, 2020. The shapefile was created and intended for use with geographic information system (GIS) software. A companion report, USGS Scientific Investigations Report 2021-5026 (Van Hoesen and others, 2021; https://doi.org/10.3133/sir20215026) further describes data collection and map preparation.
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This map represents the percent change from 1971-2000 to 2071-2100 in the average annual amount of water contributed to the stream network, as simulated by the model MC1 under the MIROC medres future climate projection and A2 anthropogenic emissions scenario. The range of data values is from -92.2% to +67.3%. The mean value is -16.6%. Data values are calculated as (STREAMFLOW(2071-2100) minus STREAMFLOW(1971-2000)) divided by STREAMFLOW(1971-2000). STREAMFLOW data is from MC1 version B60. The dynamic global vegetation model MC1 (e.g. Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts at two study sites in eastern Oregon (Deschutes...
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This data was produced by MC1 version B41, using historical climate from the PRISM group at OSU.
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This map represents the change between 1971-2000 and 2071-2100 in the annual peak fraction of total live vegetation carbon held in herbaceous plants, as simulated by the model MC1 under the MIROC medres future climate projection and A2 anthropogenic emissions scenario. The range of data values is from -0.786 to +0.988. The mean value is +0.116. Data values are calculated as GFRAC(2071-2100) minus GFRAC(1971-2000). GFRAC data is from MC1 version B60. The dynamic global vegetation model MC1 (e.g. Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts at two study sites in eastern Oregon (Deschutes and Fremont-Winema National Forests)...
The U.S. Geological Survey (USGS) is providing a polygon feature class showing the extent of the study area, the Binghamton East 1:24,000 quadrangle, located within south-central Broome County, New York, 2014-2021. The shapefile was created and intended for use with geographic information system (GIS) software. A companion report, USGS Scientific Investigations Report 2021-5026 (Van Hoesen and others, 2021; https://doi.org/10.3133/sir20215026) further describes data collection and map preparation.
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This map represents the percent change in total ecosystem carbon from 1971-2000 to 2071-2100, simulated by the model MC1 under the MIROC medres future climate projection and A2 anthropogenic emissions scenario. The range of data values is from -58.9% to +36.7%. The mean value is -15.1%. The dynamic global vegetation model MC1 (e.g. Bachelet et al. 2001) was used to simulate vegetation dynamics, associated carbon and nitrogen cycle, water budget, and wild fire impacts at two study sites in eastern Oregon (Deschutes and Fremont-Winema National Forests) and in Arizona (Apache Sitgreaves National Forest area) in the context of a project funded by the USDA Forest Service (PNW 09-JV-11261900-003). Historical climate...
The U.S. Geological Survey (USGS) is providing a polygon feature class delineating and describing the subsurface facies within the Binghamton East 1:24,000 quadrangle of south-central Broome County, New York, 2014-2021. The shapefile was created and intended for use with geographic information system (GIS) software. A companion report, USGS Scientific Investigations Report 2021-5026 (Van Hoesen and others, 2021; https://doi.org/10.3133/sir20215026) further describes data collection and map preparation.
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The U.S. Geological Survey (USGS) is providing the approximate location of the valley aquifer boundary within the Binghamton East quadrangle of south-central Broome County, New York, 2014-2021. The shapefile was created and intended for use with geographic information system (GIS) software. A companion report, USGS Scientific Investigations Report 2021-5026 (Van Hoesen and others, 2021; https://doi.org/10.3133/sir20215026) further describes data collection and map preparation.
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This map represents the mean annual fraction of the gridcell affected by wildfire, simulated by the model MC1 for the 30-year period 1971-2000. The data is from output variable PART_BURN in MC1 version B60. The data is a unitless fraction; values range from 0 to 0.110. The mean value is 0.008.


map background search result map search result map Percent change in the average annual value of total ecosystem carbon between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, USA Percent change in the average annual amount of water contributed to the stream network between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, Oregon, USA Change in the fraction of total live vegetation carbon held in herbaceous plants between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, USA Average vapor pressure deficit 2071 to 2000 under the MIROC A2 climate scenario for the eastern Oregon study area USA Average value of daily maximum temperatures (2071 to 2100) under MIROC A2 future climate scenario for the eastern Oregon study area USA Mean annual precipitation 2071 to 2100 under the MIROC A2 future climate scenario for the eastern Oregon study area USA Average vapor pressure deficit 2071 to 2000 under the CSIRO A2 climate scenario for the eastern Oregon study area USA Average value of daily minimum temperatures (2071-2100) under the CSIRO A2 future climate scenario for the eastern Oregon study area, USA Average value of daily maximum temperatures (2071-2100) under CSIRO A2 future climate scenario for the eastern Oregon study area, USA Average vapor pressure deficit (1971-2000) for the eastern Oregon study area, USA Average annual value of total ecosystem carbon (1971-2000) for the Eastern Oregon study area, USA Average value of daily minimum temperatures (1971-2000) for the eastern Oregon study area, USA Average value of daily maximum temperatures (1971-2000) for the eastern Oregon study area, USA Average annual fraction of grid cell burned (1971-2000) for the eastern Oregon study area, USA Detailed Aquifer Mapping in the Susquehanna River Valley  in South-Central Broome County –Towns of Conklin and Kirkwood Glacial Lake Great Bend within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Subsurface Facies within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Study Area Boundary within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood Aquifer Boundaries within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood Valley Aquifer Boundary within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Subsurface Facies within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Valley Aquifer Boundary within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Glacial Lake Great Bend within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood, New York Aquifer Boundaries within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood Study Area Boundary within the Susquehanna River Valley in South-Central Broome County, Towns of Conklin and Kirkwood Detailed Aquifer Mapping in the Susquehanna River Valley  in South-Central Broome County –Towns of Conklin and Kirkwood Percent change in the average annual value of total ecosystem carbon between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, USA Percent change in the average annual amount of water contributed to the stream network between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, Oregon, USA Change in the fraction of total live vegetation carbon held in herbaceous plants between 1971-2000 and 2071-2000, as simulated by MC1 under MIROC medres A2 for the eastern Oregon study area, USA Average vapor pressure deficit 2071 to 2000 under the MIROC A2 climate scenario for the eastern Oregon study area USA Average value of daily maximum temperatures (2071 to 2100) under MIROC A2 future climate scenario for the eastern Oregon study area USA Mean annual precipitation 2071 to 2100 under the MIROC A2 future climate scenario for the eastern Oregon study area USA Average vapor pressure deficit 2071 to 2000 under the CSIRO A2 climate scenario for the eastern Oregon study area USA Average value of daily minimum temperatures (2071-2100) under the CSIRO A2 future climate scenario for the eastern Oregon study area, USA Average value of daily maximum temperatures (2071-2100) under CSIRO A2 future climate scenario for the eastern Oregon study area, USA Average annual value of total ecosystem carbon (1971-2000) for the Eastern Oregon study area, USA Average annual fraction of grid cell burned (1971-2000) for the eastern Oregon study area, USA Average vapor pressure deficit (1971-2000) for the eastern Oregon study area, USA Average value of daily minimum temperatures (1971-2000) for the eastern Oregon study area, USA Average value of daily maximum temperatures (1971-2000) for the eastern Oregon study area, USA