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 |
---|---|---|---|
OIK-01875 | 2015 | de la Riva, E. G., Pérez-Ramos, I. M., Tosto, A., Navarro-Fernández, C. M., Olmo, M., Marañón, T. and Villar, R. 2015. Disentangling the relative importance of species occurrence, abundance and intraspecific variability in community assembly: a trait-based approach at the whole-plant level in Mediterranean forests. – Oikos doi: 10.1111/oik.01875 | oik-01875.pdf |
ECOG-01208 | 2014 | de la Vega, G. J., Medone, P., Ceccarelli, S., Rabinovich, J. and Schilman, P. E. 2015. Geographical distribution, climatic variability and thermo-tolerance of Chagas disease vectors. – Ecography doi: 10.1111/ecog.01028 | ecog-01028.pdf |
E5433 | 2008 | De Luis, M., Raventós, J., Wiegand, T. and González-Hidalgo, J. C. 2008. Temporal and spatial differentiation in seedling emergence may promote species coexistence in Mediterranean fire-prone ecosystems. – Ecography 31: 621–630. | e5433.pdf |
ECOG-00564 | 2014 | de Oliveira, G., Fernando Rangel, T., Lima-Ribeiro, M. S., Terribile, L. C. and Diniz-Filho, J. A. F. 2014. Evaluating, partitioning, and mapping the spatial autocorrelation component in ecological niche modeling: a new approach based on environmentally equidistant records. – Ecography 37: xxx–xxx. | ecog-00564.pdf |
ECOG-02228 | 2016 | De Palma, A., Dennis, R. L. H., Brereton, T., Leather, S. and Oliver, T. H. 2016. Large reorganizations in butterfly communities during an extreme weather event. – Ecography doi: 10.1111/ecog.02228 | ecog-02228.pdf |
ECOG-04122 | 2018 | De Solan, T., Renner, I., Cheylan, M., Geniez, P. and Barnagaud, J.-Y. 2019. Opportunistic records reveal Mediterranean reptiles’ scale-dependent responses to anthropogenic land use. – Ecography doi: 10.1111/ecog.04122 | ecog-04122.zip |
ECOG-04259 | 2019 | Decker, O., Eldridge, D. J. and Gibb, H. 2019. Restoration potential of threatened ecosystem engineers increases with aridity: broad scale effects on soil nutrients and function. – Ecography doi: 10.1111/ecog.04259 | ecog-04259.pdf |
E6462 | 2010 | Declerck, S. A. J., Coronel, J. S., Legendre, P. and Brendonck, L. 2010. Scale dependency of processes structuring metacommunities of cladocerans in temporary pools of High-Andes wetlands. – Ecography 33: xxx–xxx. | e6462.pdf e6462_appendix_1_create.mem_.model_.r |
ECOG-00623 | 2014 | Dehling, D. M., Fritz, S. A., Töpfer, T., Päckert, M., Estle4, P., Böhning-Gaese, K. and Schleuning, M. 2014. Functional and phylogenetic diversity and assemblage structure of frugivorous birds along an elevational gradient in the tropical Andes. – Ecography doi: 10.1111/ecog.006232 | ecog-00623.zip |
ECOG-03040 | 2017 | Delhey, K. 2017. Darker where cold and wet: Australian birds follow their own version of Gloger’s rule. – Ecography doi: 10.1111/ecog.03040 | ecog-03040.pdf |
ECOG-03296 | 2017 | Denoël, M., Dalleur, S., Langrand, E., Besnard, A. and Cayuela, H. 2017. Dispersal and alternative breeding site fidelity strategies in an amphibian. – Ecography doi: 10.1111/ecog.03296 | ecog-03296.pdf |
ECOG-01659 | 2015 | Descamps, S., Tarroux, A., Lorentsen, S.-H., Love, O. P., Varpe, Ø. and Yoccoz, N. G. 2015. Large-scale oceanographic fluctuations drive Antarctic petrel survival and reproduction. – Ecography doi: 10.1111/ ecog.01659 | ecog-01659.pdf |
ECOG-05117 | 2020 | Descombes, P., Walthert, L., Baltensweiler, A., Meuli, R. G., Karger, D. N., Ginzler, C., Zurell, D. and Zimmermann, N. E. 2020. Spatial modelling of ecological indicator values improves predictions of plant distributions in complex landscapes. – Ecography doi: 10.1111/ecog.05117 | ecog-05117.pdf |
ECOG-01557 | 2015 | Descombes,P., Pradervand, J.-N., Golay, J., Guisan, A. and Pellissier, L. 2015. Simulated shifts in trophic niche breadth modulate range loss of alpine butterflies under climate change. – Ecography doi: 10.1111/ecog.01557 | ecog-01557.pdf |
ECOG-04957 | 2020 | Devarajan, K., Morelli, T. L. and Tenan, S. 2020. Multi-species occupancy models: review, roadmap, and recommendations. – Ecography doi: 10.1111/ecog.04957 | ecog-04957.pdf |
ECOG-02671 | 2016 | Di Cola, V., Broennimann, O., Petitpierre, B., Breiner, F. T., D’Amen, M., Randin, C., Engler, R., Pottier, J., Pio, D., Dubuis, A., Pellissier, L., Mateo, R. G., Hordijk, W., Salamin, N. and Guisan, A. 2016. ecospat: an R package to support spatial analyses and modeling of species niches and distributions. – Ecography doi: 10.1111/ecog.02671 | ecog-02671.pdf |
e6263 | 2010 | Di Minin, E. and Griffiths, R. A. 2010. Viability analysis of a threatened amphibian population: modelling the past, present and future. – Ecography 33: xxx–xxx. | e6263.pdf |
ECOG-03264 | 2017 | Diamond, S. E. and Chick, L. D. 2017. Thermal specialist ant species have restricted, equatorial geographic ranges: implications for climate change vulnerability and risk of extinction. – Ecography doi: 10.1111/ecog.03264 | ecog-03264.pdf |
E7724 | 2012 | Dias, M. S., Cornu, J.-F., Oberdorff, T., Lasso, C. A. and Tedesco, P. A. 2012. Natural fragmentation in river networks as a driver of speciation for freshwater fishes. – Ecography 35: xxx–xxx. | e7724.pdf e7724-tablea2.xls |
E4344 | 2005 | Dillon, S. and Fjeldså, J. 2005. The implications of different species concepts for describing biodiversity patterns and assessing conservation needs for African birds. – Ecography 28: 682–692. | e4344.pdf |