Appendix
Appendices are any supplementary material that may be associated with a particular article. Most often they are uploaded as pdf:s, but may also consist of excel files, scripts, videos etc. Appendices are searchable via manuscript number, doi or author name.
Supplementary material must follow the guidelines given here:
Article number | Year | Description | Documents |
---|---|---|---|
ECOG-01366 | 2014 | Stroud, J. T. and Feeley, K. J. 2015. Responsible academia: optimizing conference locations to minimize greenhouse gas emissions. – Ecography doi: 10.1111/ ecog.01366 | ecog-01366.pdf |
ECOG-00632 | 2014 | Strubbe, D., Beauchard, O. and Matthysen, E. 2014. Niche conservatism among non-native vertebrates in Europe and North America. – Ecography doi: 10.1111/ ecog.00632 | ecog-00632.pdf |
ECOG-04592 | 2019 | Stubbington, R., Sarremejane, R. and Datry, T. 2019. Alpha and beta diversity of connected benthic–subsurface invertebrate communities respond to drying in dynamic river ecosystems. – Ecography doi: 10.1111/ecog.04592 | ecog-04592.pdf |
ECOG-04839 | 2020 | Su, X., Shrestha, N., Xu, X., Sandanova, D., Wang, Q., Wang, S., Dimitrov, D. and Wang, Z. 2020. Phylogenetic conservatism and biogeographic affinity influence woody plant species richness–climate relationships in eastern Eurasia. – Ecography doi: 10.1111/ecog.04839 | ecog-04839.zip |
ECOG-00077 | 2013 | Suárez-Seoane, S., Virgós, E., Terroba, O., Pardavila, X. and Barea-Azcón, J. M. 2013. Scaling of species distribution models across spatial resolutions and extents along a biogeographic gradient. The case of the Iberian mole Talpa occidentalis. – Ecography 36: xxx–xxx. | ecog-00077.pdf |
ECOG-03226 | 2017 | Sugiura, S. and Hayashi, M. 2017. Functional compensation by insular scavengers: the relative contributions of vertebrates and invertebrates vary among islands. – Ecography doi: 10.1111/ecog.03226 | ecog-03226.pdf |
E7071 | 2011 | Sullivan, S. M. P. and Vierling, K. T. 2011. Exploring the influences of multiscale environmental factors on the American dipper Cinclus mexicanus. – Ecography 34: xxx–xxx. | e7071.pdf |
E7664 | 2012 | Sundberg, S. 201X. Spore rain in relation to regional sources and beyond. – Ecography 35: 000–000. | e7664.pdf |
E4397 | 2006 | Sunde, P. and Redpath, S. M. 2006. Combining information from range use and habitat selection: sex-specified spatial responses to habitat fragmentation in tawny owls Strix aluco. – Ecography 29: 152–158. | e4397.pdf |
E5480 | 2008 | Suominen, O., Persson, I.-L., Danell, K., Bergström, R. and Pastor, R. 2008. Impact of simulated moose densities on abundance and richness of vegetation, herbivorous and predatory arthropods along a productivity gradient. – Ecography 31: 637–646. | e5480.pdf |
ECOG-00102 | 2013 | Sutcliffe, P. R., Mellin, C., Pitcher, C. R., Possingham, H. P. and Caley, M. J. 2013. Regional-scale patterns and predictors of species richness and abundance across twelve major tropical inter-reef taxa. – Ecography 36: xxx–xxx. | ecog-00102.pdf |
ECOG-04551 | 2019 | Sutherland, C., Royle, J. A. and Linden, D. W. 2019. oSCR: a spatial capture–recapture R package for inference about spatial ecological processes. – Ecography doi: 10.1111/ecog.04551 | ecog-04551.pdf |
E6301 | 2010 | Svenning, J.-C., Fitzpatrick, M. C., Normand, S., Graham, C. H., Pearman, P. B., Iverson, L. R. and Skov, F. 2010. Geography, topography, and history affect realized-to-potential tree species richness patterns in Europe. – Ecography 33: 1070-1080. | e6301.pdf |
ECOG-00585 | 2014 | Swab, R. M., Regan, H. M., Matthies, D., Becker, U. and Bruun, H. H. 2014. The role of demography, intraspecies variation, and species distribution models in species’ projections under climate change. – Ecography doi: 10.1111/ecog.00585 | ecog-00585.pdf |
ECOG-00496 | 2014 | Swan, C. M. and Brown, B. L. 2014. Using rarity to infer how dendritic network structure shapes biodiversity in riverine communities . – Ecography doi: 10.1111/ecog.00496 | ecog-00496.pdf |
ECOG-00938 | 2014 | Sydenham, M. A. K., Moe, S. R., Totland, Ø. and Eldegard, K. 2014. Does multi-level environmental filtering determine the functional and phylogenetic composition of wild bee species assemblages? – Ecography doi: 10.1111/ecog.00938 | ecog-00938.pdf |
ECOG-04039 | 2018 | Synes, N. W., Brown, C., Palmer, S. C. F., Bocedi, G., Osborne, P. E., Watts, K., Franklin, J. and Travis, J. M. J. 2019. Coupled land use and ecological models reveal emergence and feedbacks in socio-ecological systems. – Ecography doi: 10.1111/ecog.04039 | ecog-04039.pdf |
ECOG-04115 | 2018 | Szewcyk, T. M. and McCain, C. M. 2019. Disentangling elevational richness: a multi-scale hierarchical Bayesian occupancy model of Colorado ant communities. – Ecography doi: 10.1111/ecog.04115 | ecog-04115.pdf |
E5532 | 2009 | Tablado, Z., Revilla, E. and Palomares, F. 2009. Breeding like rabbits: global patterns of variability and determinants of European wild rabbit reproduction. – Ecography 32: 310–320. | e5532.pdf |
ECOG-05198 | 2020 | Takashina, N. and Economo, E. P. 2020. TDeveloping generalized sampling schemes with known error properties: the case of a moving observer. – Ecography doi: 10.1111/ecog.05198 | ecog-05198.pdf |