29 research outputs found

    Warramaba sp. COI sequences

    No full text
    COI sequences in MEGA format, grouped according to species/lineag

    Appendix A. A description of tests of biophysical models.

    No full text
    A description of tests of biophysical models

    Appendix B. An example data input file for the microclimate model.

    No full text
    An example data input file for the microclimate model

    CCDC 1523871: Experimental Crystal Structure Determination

    No full text
    UCUBIG : N,N'-bis(2-(benzoylamino)phenyl)pyridine-2,6-dicarboxamide chloroform solvate Space Group: P21/c, Cell: a 13.8622(4)Å b 19.5031(4)Å c 11.3742(5)Å, α 90° β 93.5030(14)° γ 90°, Work published 2016 via Cambridge Crystallographic Data Centre

    Additional file 8: Figure S5. of An estimate of the water budget for the endangered night parrot of Australia under recent and future climates

    No full text
    Predicted thermal conditions and hydric state of the night parrot at the study site from 1996–2015 under the ACCESS 1.3 global circulation model 2070 climate change scenario: a) maximum daily soil surface temperature (red), 4 cm air temperature in the open (orange) and experienced air temperature (light blue – either in the open or in the shade or in between, depending on the simulated behaviour of the parrot), with dashed horizontal lines indicating 38 °C (resting core body temperature) and 45 °C (near lethal body temperature), and vertical blue lines indicating rainfall (mm); b) daily maximum percent dehydration; c) daily cumulative dehydration, with rainfall events > 1 mm permitting complete rehydration on a given day. (PDF 357 kb

    Additional file 12: Figure S7. of An estimate of the water budget for the endangered night parrot of Australia under recent and future climates

    No full text
    The frequency daily or cumulative dehydration of night parrots was predicted to exceed 11% or 22% over the summers 1996/7 to 2014/15 at the site under historical and projected (2070 ACCESS 1.3) climate, as per Fig. 6, but assuming access to retreats 10 cm below shaded ground. (PDF 78 kb

    Appendix B. A description of the methodological details for the biophysical modeling used to predict the distribution of the cane toad in Australia.

    No full text
    A description of the methodological details for the biophysical modeling used to predict the distribution of the cane toad in Australia

    Appendix A. A description of previous species distribution modeling for cane toads in Australia.

    No full text
    A description of previous species distribution modeling for cane toads in Australia

    Additional file 10: Figure S4. of An estimate of the water budget for the endangered night parrot of Australia under recent and future climates

    No full text
    Predicted thermal conditions and hydric state of the night parrot at the study site from 1996–2015 under current climate: a) maximum daily soil surface temperature (red), 4 cm air temperature in the open (orange) and experienced air temperature (light blue – either in the open or in the shade or in between, depending on the simulated behaviour of the parrot), with dashed horizontal lines indicating 38 °C (resting core body temperature) and 45 °C (near lethal body temperature), and vertical blue lines indicating rainfall (mm); b) daily maximum percent dehydration; c) daily cumulative dehydration, with rainfall events > 1 mm permitting complete rehydration on a given day. (PDF 294 kb
    corecore