Description: Species distribution modeling was performed to model the potential distribution of the killer shrimp (Dikerogammarus villosus). The resulting models were restricted to the Laurentian Great Lakes. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Description: Species distribution modeling was performed to model the potential distribution of the golden mussel (Limnoperna fortune). The resulting models were restricted to the Laurentian Great Lakes. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Name: Golden Muscle Restricted by Benthic Temp (16C)
Display Field: FOOTPRINT.STArea()
Type: Raster Layer
Geometry Type: null
Description: Species distribution modeling was performed to model the potential distribution of the golden mussel (Limnoperna fortune). The resulting models were restricted to benthic temperatures greater than or equal to 16 degrees Celsius within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Description: Species distribution modeling was performed to model the potential distribution of the northern snakehead (Channa argus). The resulting models were restricted to the Laurentian Great Lakes. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Description: Species distribution modeling was performed to model the potential distribution of the northern snakehead (Channa argus). The resulting models were restricted to benthic temperatures greater than or equal to 18 degrees Celsius within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Description: Species distribution modeling was performed to model the potential distribution of the northern snakehead (Channa argus). The resulting models were restricted by submerged aquatic vegetation (SAV) and wetlands within the Laurentian Great Lakes. These are preferred habitat for northern snakehead. Note that SAV data are missing for Lake St. Clair. For more information on the data and methods used please see the paper Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Kramer, A. M., G. Annis, M. E. Wittmann, W. L. Chadderton, E. S. Rutherford, D. M. Lodge, L. Mason, D. Beletsky, C. Riseng, and J. M. Drake. 2017. Suitability of Laurentian Great Lakes for invasive species based on global species distribution models and local habitat. Ecosphere 8(7):e01883.
Description: Species distribution modeling was performed to model the potential distribution of the Hydrilla (Hydrilla verticillata). The resulting models were restricted to the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.
Description: Species distribution modeling was performed to model the potential distribution of the Hydrilla (Hydrilla verticillata). The resulting models were restricted using accumulated growing degree days (GDD) based on benthic temperature observations within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.
Name: Hydrilla Restricted by Growing Degree Days and Photic Zone
Display Field: FOOTPRINT.STArea()
Type: Raster Layer
Geometry Type: null
Description: Species distribution modeling was performed to model the potential distribution of the Hydrilla (Hydrilla verticillata). The resulting models were restricted using accumulated growing degree days (GDD) and photic zone within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.
Description: Species distribution modeling was performed to model the potential distribution of the grass carp (Ctenopharyngodon idella). The resulting models were restricted the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.
Description: Species distribution modeling was performed to model the potential distribution of the grass carp (Ctenopharyngodon idella). The resulting models were restricted by submerged aquatic vegetation (SAV) and wetlands within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.
Name: Grass Carp Restricted by SAV, Wetlands, and Predicted Hydrilla
Display Field: FOOTPRINT.STArea()
Type: Raster Layer
Geometry Type: null
Description: Species distribution modeling was performed to model the potential distribution of the grass carp (Ctenopharyngodon idella). The resulting models were restricted by a combined submerged aquatic vegetation (SAV), wetlands, and predicted Hydrilla verticillata niche within the Laurentian Great Lakes. For more information on the data and methods used please see the paper Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region cited elsewhere in this metadata.
Service Item Id: ccf028312bc84b10ba8b74316897219d
Copyright Text: Wittmann, Marion E., Gust Annis, Andrew M. Kramer, Lacey Mason, Catherine Riseng, Edward S. Rutherford, William L. Chadderton, Dmitry Beletsky, John M. Drake, David M. Lodge, Refining species distribution model outputs using landscape-scale habitat data: Forecasting grass carp and Hydrilla establishment in the Great Lakes region, In Journal of Great Lakes Research, Volume 43, Issue 2, 2017, Pages 298-307, ISSN 0380-1330, https://doi.org/10.1016/j.jglr.2016.09.008.