Jueterbock, Alexander; Smolina, Irina; Coyer, James A; Hoarau, Galice (2015): Global ASCII grids with daylenth values during summer and winter solstice and ASCII grids representing habitat suitability of Fucus distichus and its niche overlap with temperate macroalgae under present-day and future (2100, 2200) conditions [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.848687, Supplement to: Jueterbock, A et al. (2016): The fate of the Arctic seaweed Fucus distichus under climate change: an ecological niche modelling approach. Ecology and Evolution, 6(6), 1712-1724, https://doi.org/10.1002/ece3.2001
Always quote citation above when using data! You can download the citation in several formats below.
Abstract:
Abstract has to be submitted by the author!
Other version:
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | File content | Content | Jueterbock, Alexander | |||
2 | File name | File name | Jueterbock, Alexander | |||
3 | Uniform resource locator/link to model result file | URL model | Jueterbock, Alexander | ASCII grid, zipped | ||
4 | File size | File size | kByte | Jueterbock, Alexander | zipped |
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
104 data points
Data
1 Content | 2 File name | 3 URL model | 4 File size [kByte] |
---|---|---|---|
ASCII grid of habitat suitability for Fucus distichus under present-day conditions. Grid values represent logistic probabilities of presence (0.5 to 1) | 20150519RasterCoastalGradual.asc | 20150519RasterCoastalGradual.zip | 2617.2 |
ASCII grid of habitat suitability for Fucus distichus in year 2100 under the CO2 emission scenario B1. Grid values represent habitat that is remaining (1), will become suitable (2), or will become unsuitable (3) | 20150428Fd_WithoutOslo_2100B1_change_COASTREPRESENT.asc | 20150428Fd_WithoutOslo_2100B1_change_COASTREPRESENT.zip | 176.1 |
ASCII grid of habitat suitability for Fucus distichus in year 2100 under the CO2 emission scenario A2. Grid values represent habitat that is remaining (1), will become suitable (2), or will become unsuitable (3) | 20150428Fd_WithoutOslo_2100A2_change_COASTREPRESENT.asc | 20150428Fd_WithoutOslo_2100A2_change_COASTREPRESENT.zip | 179.5 |
ASCII grid of habitat suitability for Fucus distichus in year 2100 under the CO2 emission scenario A1B. Grid values represent habitat that is remaining (1), will become suitable (2), or will become unsuitable (3) | 20150428Fd_WithoutOslo_2100A1B_change_COASTREPRESENT.asc | 20150428Fd_WithoutOslo_2100A1B_change_COASTREPRESENT.zip | 178.1 |
ASCII grid of habitat suitability for Fucus distichus in year 2200 under the CO2 emission scenario B1. Grid values represent habitat that is remaining (1), will become suitable (2), or will become unsuitable (3) | 20150428Fd_WithoutOslo_2200B1_change_COASTREPRESENT.asc | 20150428Fd_WithoutOslo_2200B1_change_COASTREPRESENT.zip | 177.7 |
ASCII grid of habitat suitability for Fucus distichus in year 2200 under the CO2 emission scenario A1B. Grid values represent habitat that is remaining (1), will become suitable (2), or will become unsuitable (3) | 20150428Fd_WithoutOslo_2200A1B_change_COASTREPRESENT.asc | 20150428Fd_WithoutOslo_2200A1B_change_COASTREPRESENT.zip | 179.3 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum in year 2200 under CO2 emission scenario B1 | 20150429FdAn_WithoutOslo_2200_B1_Overlap.asc | 20150429FdAn_WithoutOslo_2200_B1_Overlap.zip | 106.1 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum in year 2200 under CO2 emission scenario A1B | 20150429FdAn_WithoutOslo_2200_A1B_Overlap.asc | 20150429FdAn_WithoutOslo_2200_A1B_Overlap.zip | 106.0 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum in year 2100 under CO2 emission scenario B1 | 20150429FdAn_WithoutOslo_2100_B1_Overlap.asc | 20150429FdAn_WithoutOslo_2100_B1_Overlap.zip | 96.8 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum in year 2100 under CO2 emission scenario A2 | 20150429FdAn_WithoutOslo_2100_A2_Overlap.asc | 20150429FdAn_WithoutOslo_2100_A2_Overlap.zip | 97.1 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum in year 2100 under CO2 emission scenario A1B | 20150429FdAn_WithoutOslo_2100_A1B_Overlap.asc | 20150429FdAn_WithoutOslo_2100_A1B_Overlap.zip | 106.2 |
ASCII grid of niche overlap between Fucus distichus and Ascophyllum nodosum under present-day conditions | 20150429FdAn_WithoutOslo_2000_Overlap.asc | 20150429FdAn_WithoutOslo_2000_Overlap.zip | 101.7 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus in year 2200 under CO2 emission scenario B1 | 20150429FdFv_WithoutOslo_2200_B1_Overlap.asc | 20150429FdFv_WithoutOslo_2200_B1_Overlap.zip | 107.5 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus in year 2200 under CO2 emission scenario A1B | 20150429FdFv_WithoutOslo_2200_A1B_Overlap.asc | 20150429FdFv_WithoutOslo_2200_A1B_Overlap.zip | 107.9 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus in year 2100 under CO2 emission scenario B1 | 20150429FdFv_WithoutOslo_2100_B1_Overlap.asc | 20150429FdFv_WithoutOslo_2100_B1_Overlap.zip | 106.2 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus in year 2100 under CO2 emission scenario A2 | 20150429FdFv_WithoutOslo_2100_A2_Overlap.asc | 20150429FdFv_WithoutOslo_2100_A2_Overlap.zip | 111.4 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus in year 2100 under CO2 emission scenario A1B | 20150429FdFv_WithoutOslo_2100_A1B_Overlap.asc | 20150429FdFv_WithoutOslo_2100_A1B_Overlap.zip | 108.2 |
ASCII grid of niche overlap between Fucus distichus and Fucus vesiculosus under present-day conditions | 20150429FdFv_WithoutOslo_2000_Overlap.asc | 20150429FdFv_WithoutOslo_2000_Overlap.zip | 103.5 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus in year 2200 under CO2 emission scenario B1 | 20150429FdFs_WithoutOslo_2200_B1_Overlap.asc | 20150429FdFs_WithoutOslo_2200_B1_Overlap.zip | 105.7 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus in year 2200 under CO2 emission scenario A1B | 20150429FdFs_WithoutOslo_2200_A1B_Overlap.asc | 20150429FdFs_WithoutOslo_2200_A1B_Overlap.zip | 105.8 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus in year 2100 under CO2 emission scenario B1 | 20150429FdFs_WithoutOslo_2100_B1_Overlap.asc | 20150429FdFs_WithoutOslo_2100_B1_Overlap.zip | 104.1 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus in year 2100 under CO2 emission scenario A2 | 20150429FdFs_WithoutOslo_2100_A2_Overlap.asc | 20150429FdFs_WithoutOslo_2100_A2_Overlap.zip | 99.4 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus in year 2100 under CO2 emission scenario A1B | 20150429FdFs_WithoutOslo_2100_A1B_Overlap.asc | 20150429FdFs_WithoutOslo_2100_A1B_Overlap.zip | 105.8 |
ASCII grid of niche overlap between Fucus distichus and Fucus serratus under present-day conditions | 20150429FdFs_WithoutOslo_2000_Overlap.asc | 20150429FdFs_WithoutOslo_2000_Overlap.zip | 102.0 |
Global ASCII grid of daylight hours during the shortest day of the year (21 December, winter solstice) | WinterSolstice.asc | WinterSolstice.zip | 231.6 |
Global ASCII grid of daylight hours during midsummer (21 June, summer solstice) | SummerSolstice.asc | SummerSolstice.zip | 232.0 |