Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea
Minimal vessel traffic and cold water temperatures are believed to limit non-indigenous species (NIS) in high-latitude ecosystems. We evaluated whether suitable conditions exist in the Bering Sea for the introduction, survival, and reproduction of NIS. We compiled temperature and salinity thresholds...
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Knowledge Network for Biocomplexity
2019
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dataone:urn:uuid:fe17002d-f8a6-45aa-b110-e1d8d3a3b524 2024-06-03T18:46:46+00:00 Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea Amanda Droghini Anthony Fischbach Jordan Watson Jesika Reimer Bering Sea ENVELOPE(180.0,-180.0,66.5,51.5) BEGINDATE: 2016-01-01T00:00:00Z ENDDATE: 2019-01-01T00:00:00Z 2019-01-01T00:00:00Z https://search.dataone.org/view/urn:uuid:fe17002d-f8a6-45aa-b110-e1d8d3a3b524 unknown Knowledge Network for Biocomplexity marine biology suitability modeling Alaska invasive species extreme temperatures climate envelope models non-native species Dataset 2019 dataone:urn:node:KNB 2024-06-03T18:16:01Z Minimal vessel traffic and cold water temperatures are believed to limit non-indigenous species (NIS) in high-latitude ecosystems. We evaluated whether suitable conditions exist in the Bering Sea for the introduction, survival, and reproduction of NIS. We compiled temperature and salinity thresholds of known NIS and compared these to ocean conditions projected during two study periods: current (2003-2012) and mid-century (2030-2039). We also explored patterns of vessel traffic and connectivity for U.S. Bering Sea ports. We found the southeastern Bering Sea had suitable conditions for the year-round survival of 80% of NIS assessed (n=42). However, only 52% of NIS had conditions suitable for reproduction or development (n=25). Conditions north of 58° N that include sub-zero winter water temperatures were unsuitable for the survival and reproduction of most NIS. While mid-century models predicted a northward expansion of suitable conditions, conditions for reproduction remained marginal. Within the highly suitable southeastern Bering Sea is the port of Dutch Harbor, which received the most vessel arrivals and ballast water discharge in the U.S. Bering Sea. Our findings illustrate the potential vulnerability of a commercially important subarctic ecosystem and highlight the need to consider NIS reproductive and developmental life phases when evaluating limits to their establishment. This data set includes the environmental suitability models that we created using three downscaled climate models (Regional Ocean Modeling Systems or ROMS) and species' temperature and salinity thresholds. We conducted these analyses for two, 10-year study periods: current (2003-2012) and future (2030-2039). For each species, we evaluated a) the number of weeks with suitable survival conditions; b) whether each species could survive year-round; and c) the number of consecutive weeks with suitable reproductive conditions. Looking for code? Head over to our GitHub repository: https://doi.org/10.5281/zenodo.3546376 Dataset Bering Sea Subarctic Alaska Knowledge Network for Biocomplexity (via DataONE) Bering Sea ENVELOPE(180.0,-180.0,66.5,51.5) |
| institution |
Open Polar |
| collection |
Knowledge Network for Biocomplexity (via DataONE) |
| op_collection_id |
dataone:urn:node:KNB |
| language |
unknown |
| topic |
marine biology suitability modeling Alaska invasive species extreme temperatures climate envelope models non-native species |
| spellingShingle |
marine biology suitability modeling Alaska invasive species extreme temperatures climate envelope models non-native species Amanda Droghini Anthony Fischbach Jordan Watson Jesika Reimer Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| topic_facet |
marine biology suitability modeling Alaska invasive species extreme temperatures climate envelope models non-native species |
| description |
Minimal vessel traffic and cold water temperatures are believed to limit non-indigenous species (NIS) in high-latitude ecosystems. We evaluated whether suitable conditions exist in the Bering Sea for the introduction, survival, and reproduction of NIS. We compiled temperature and salinity thresholds of known NIS and compared these to ocean conditions projected during two study periods: current (2003-2012) and mid-century (2030-2039). We also explored patterns of vessel traffic and connectivity for U.S. Bering Sea ports. We found the southeastern Bering Sea had suitable conditions for the year-round survival of 80% of NIS assessed (n=42). However, only 52% of NIS had conditions suitable for reproduction or development (n=25). Conditions north of 58° N that include sub-zero winter water temperatures were unsuitable for the survival and reproduction of most NIS. While mid-century models predicted a northward expansion of suitable conditions, conditions for reproduction remained marginal. Within the highly suitable southeastern Bering Sea is the port of Dutch Harbor, which received the most vessel arrivals and ballast water discharge in the U.S. Bering Sea. Our findings illustrate the potential vulnerability of a commercially important subarctic ecosystem and highlight the need to consider NIS reproductive and developmental life phases when evaluating limits to their establishment. This data set includes the environmental suitability models that we created using three downscaled climate models (Regional Ocean Modeling Systems or ROMS) and species' temperature and salinity thresholds. We conducted these analyses for two, 10-year study periods: current (2003-2012) and future (2030-2039). For each species, we evaluated a) the number of weeks with suitable survival conditions; b) whether each species could survive year-round; and c) the number of consecutive weeks with suitable reproductive conditions. Looking for code? Head over to our GitHub repository: https://doi.org/10.5281/zenodo.3546376 |
| format |
Dataset |
| author |
Amanda Droghini Anthony Fischbach Jordan Watson Jesika Reimer |
| author_facet |
Amanda Droghini Anthony Fischbach Jordan Watson Jesika Reimer |
| author_sort |
Amanda Droghini |
| title |
Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| title_short |
Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| title_full |
Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| title_fullStr |
Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| title_full_unstemmed |
Data from: Regional ocean models indicate changing limits to biological invasions in the Bering Sea |
| title_sort |
data from: regional ocean models indicate changing limits to biological invasions in the bering sea |
| publisher |
Knowledge Network for Biocomplexity |
| publishDate |
2019 |
| url |
https://search.dataone.org/view/urn:uuid:fe17002d-f8a6-45aa-b110-e1d8d3a3b524 |
| op_coverage |
Bering Sea ENVELOPE(180.0,-180.0,66.5,51.5) BEGINDATE: 2016-01-01T00:00:00Z ENDDATE: 2019-01-01T00:00:00Z |
| long_lat |
ENVELOPE(180.0,-180.0,66.5,51.5) |
| geographic |
Bering Sea |
| geographic_facet |
Bering Sea |
| genre |
Bering Sea Subarctic Alaska |
| genre_facet |
Bering Sea Subarctic Alaska |
| _version_ |
1800870733906182144 |