| N-SDM: a high-performance computing pipeline for Nested Species Distribution Modelling
Adde, A., Rey, P. L., Brun, P., Külling, N., Fopp, F., Altermatt, F., … Guisan, A. (2023). N-SDM: a high-performance computing pipeline for Nested Species Distribution Modelling. Ecography, 2023(6), e06540 (11 pp.). https://doi.org/10.1111/ecog.06540 |
| chelsa-cmip6 1.0: a python package to create high resolution bioclimatic variables based on CHELSA ver. 2.1 and CMIP6 data
Karger, D. N., Chauvier, Y., & Zimmermann, N. E. (2023). chelsa-cmip6 1.0: a python package to create high resolution bioclimatic variables based on CHELSA ver. 2.1 and CMIP6 data. Ecography, 2023(6), e06535 (8 pp.). https://doi.org/10.1111/ecog.06535 |
| Expanding Antarctic biogeography: microbial ecology of Antarctic island soils
Lebre, P. H., Bosch, J., Coclet, C., Hallas, R., Hogg, I. D., Johnson, J., … Cowan, D. A. (2023). Expanding Antarctic biogeography: microbial ecology of Antarctic island soils. Ecography, 2023(9), e06568 (20 pp.). https://doi.org/10.1111/ecog.06568 |
| Phylogenetic composition of native island floras influences naturalized alien species richness
Bach, W., Kreft, H., Craven, D., König, C., Schrader, J., Taylor, A., … Weigelt, P. (2022). Phylogenetic composition of native island floras influences naturalized alien species richness. Ecography, 2022(11), e06227 (12 pp.). https://doi.org/10.1111/ecog.06227 |
| European mushroom assemblages are phylogenetically structured by temperature
Bässler, C., Heilmann‐Clausen, J., Andrew, C., Boddy, L., Büntgen, U., Diez, J., … Krah, F. ‐S. (2022). European mushroom assemblages are phylogenetically structured by temperature. Ecography, 2022(11), e06206 (12 pp.). https://doi.org/10.1111/ecog.06206 |
| Resolution in species distribution models shapes spatial patterns of plant multifaceted diversity
Chauvier, Y., Descombes, P., Guéguen, M., Boulangeat, L., Thuiller, W., & Zimmermann, N. E. (2022). Resolution in species distribution models shapes spatial patterns of plant multifaceted diversity. Ecography, 2022(10), e05973 (13 pp.). https://doi.org/10.1111/ecog.05973 |
| A quantitative review of abundance-based species distribution models
Waldock, C., Stuart-Smith, R. D., Albouy, C., Cheung, W. W. L., Edgar, G. J., Mouillot, D., … Pellissier, L. (2022). A quantitative review of abundance-based species distribution models. Ecography, 2022(1), e05694 (18 pp.). https://doi.org/10.1111/ecog.05694 |
| Noctuid and geometrid moth assemblages show divergent elevational gradients in body size and color lightness
Heidrich, L., Pinkert, S., Brandl, R., Bässler, C., Hacker, H., Roth, N., … Friess, N. (2021). Noctuid and geometrid moth assemblages show divergent elevational gradients in body size and color lightness. Ecography, 44(8), 1169-1179. https://doi.org/10.1111/ecog.05558 |
| Incorporating intraspecific variation into species distribution models improves distribution predictions, but cannot predict species traits for a wide‐spread plant species
Chardon, N. I., Pironon, S., Peterson, M. L., & Forest Doak, D. (2020). Incorporating intraspecific variation into species distribution models improves distribution predictions, but cannot predict species traits for a wide‐spread plant species. Ecography, 43(1), 60-74. https://doi.org/10.1111/ecog.04630 |
| Spatial modelling of ecological indicator values improves predictions of plant distributions in complex landscapes
Descombes, P., Walthert, L., Baltensweiler, A., Meuli, R. G., Karger, D. N., Ginzler, C., … Zimmermann, N. E. (2020). Spatial modelling of ecological indicator values improves predictions of plant distributions in complex landscapes. Ecography, 43(10), 1448-1463. https://doi.org/10.1111/ecog.05117 |
| Linking variability of tree water use and growth with species resilience to environmental changes
Pappas, C., Peters, R. L., & Fonti, P. (2020). Linking variability of tree water use and growth with species resilience to environmental changes. Ecography, 43(9), 1386-1399. https://doi.org/10.1111/ecog.04968 |
| Insect occurrence in agricultural land-uses depends on realized niche and geographic range properties
Waldock, C. A., De Palma, A., Borges, P. A. V., & Purvis, A. (2020). Insect occurrence in agricultural land-uses depends on realized niche and geographic range properties. Ecography, 43(11), 1717-1728. https://doi.org/10.1111/ecog.05162 |
| A standard protocol for reporting species distribution models
Zurell, D., Franklin, J., König, C., Bouchet, P. J., Dormann, C. F., Elith, J., … Merow, C. (2020). A standard protocol for reporting species distribution models. Ecography, 43, 1261-1277. https://doi.org/10.1111/ecog.04960 |
| Environmental and biotic drivers of soil microbial β-diversity across spatial and phylogenetic scales
Chalmandrier, L., Pansu, J., Zinger, L., Boyer, F., Coissac, E., Génin, A., … Thuiller, W. (2019). Environmental and biotic drivers of soil microbial β-diversity across spatial and phylogenetic scales. Ecography, 42(12), 2144-2156. https://doi.org/10.1111/ecog.04492 |
| A process‐based model supports an association between dispersal and the prevalence of species traits in tropical reef fish assemblages
Donati, G. F. A., Parravicini, V., Leprieur, F., Hagen, O., Gaboriau, T., Heine, C., … Pellissier, L. (2019). A process‐based model supports an association between dispersal and the prevalence of species traits in tropical reef fish assemblages. Ecography, 42, 2095-2106. https://doi.org/10.1111/ecog.04537 |
| Of niches and distributions: range size increases with niche breadth both globally and regionally but regional estimates poorly relate to global estimates
Kambach, S., Lenoir, J., Decocq, G., Welk, E., Seidler, G., Dullinger, S., … Bruelheide, H. (2019). Of niches and distributions: range size increases with niche breadth both globally and regionally but regional estimates poorly relate to global estimates. Ecography, 42(3), 467-477. https://doi.org/10.1111/ecog.03495 |
| Climate‐driven shifts in the distribution of koala‐browse species from the Last Interglacial to the near future
Shabani, F., Ahmadi, M., Peters, K. J., Haberle, S., Champreux, A., Saltré, F., & Bradshaw, C. J. A. (2019). Climate‐driven shifts in the distribution of koala‐browse species from the Last Interglacial to the near future. Ecography, 42(9), 1587-1599. https://doi.org/10.1111/ecog.04530 |
| Trait-dependent distributional shifts in fruiting of common British fungi
Gange, A. C., Heegaard, E., Boddy, L., Andrew, C., Kirk, P., Halvorsen, R., … Kauserud, H. (2018). Trait-dependent distributional shifts in fruiting of common British fungi. Ecography, 41(1), 51-61. https://doi.org/10.1111/ecog.03233 |
| sOAR: a tool for modelling optimal animal life-history strategies in cyclic environments
Schaefer, M., Menz, S., Jeltsch, F., & Zurell, D. (2018). sOAR: a tool for modelling optimal animal life-history strategies in cyclic environments. Ecography, 41(3), 551-557. https://doi.org/10.1111/ecog.03328 |
| Linking genetic and ecological differentiation in an ungulate with a circumpolar distribution
Yannic, G., Ortego, J., Pellissier, L., Lecomte, N., Bernatchez, L., & Côté, S. D. (2018). Linking genetic and ecological differentiation in an ungulate with a circumpolar distribution. Ecography, 41(6), 922-937. https://doi.org/10.1111/ecog.02995 |