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Transnational conservation to anticipate future plant shifts in Europe
Chauvier-Mendes, Y., Pollock, L. J., Verburg, P. H., Karger, D. N., Pellissier, L., Lavergne, S., … Thuiller, W. (2024). Transnational conservation to anticipate future plant shifts in Europe. Nature Ecology & Evolution. https://doi.org/10.1038/s41559-023-02287-3
Advancing forest inventorying and monitoring
Ferretti, M., Fischer, C., Gessler, A., Graham, C., Meusburger, K., Abegg, M., … Shackleton, R. T. (2024). Advancing forest inventorying and monitoring. Annals of Forest Science, 81(1), 6 (25 pp.). https://doi.org/10.1186/s13595-023-01220-9
Climate regulation processes are linked to the functional composition of plant communities in European forests, shrublands, and grasslands
Kambach, S., Attorre, F., Axmanová, I., Bergamini, A., Biurrun, I., Bonari, G., … Bruelheide, H. (2024). Climate regulation processes are linked to the functional composition of plant communities in European forests, shrublands, and grasslands. Global Change Biology, 30(2), e17189 (14 pp.). https://doi.org/10.1111/gcb.17189
Warming underpins community turnover in temperate freshwater and terrestrial communities
Khaliq, I., Rixen, C., Zellweger, F., Graham, C. H., Gossner, M. M., McFadden, I. R., … Narwani, A. (2024). Warming underpins community turnover in temperate freshwater and terrestrial communities. Nature Communications, 15(1), 1921 (9 pp.). https://doi.org/10.1038/s41467-024-46282-z
SWECO25: a cross-thematic raster database for ecological research in Switzerland
Külling, N., Adde, A., Fopp, F., Schweiger, A. K., Broennimann, O., Rey, P. L., … Guisan, A. (2024). SWECO25: a cross-thematic raster database for ecological research in Switzerland. Scientific Data, 11(1), 21 (7 pp.). https://doi.org/10.1038/s41597-023-02899-1
Escarpment evolution drives the diversification of the Madagascar flora
Liu, Y., Wang, Y., Willett, S. D., Zimmermann, N. E., & Pellissier, L. (2024). Escarpment evolution drives the diversification of the Madagascar flora. Science, 383(6683), 653-658. https://doi.org/10.1126/science.adi0833
Global multifaceted biodiversity patterns, centers, and conservation needs in angiosperms
Luo, A., Li, Y., Shrestha, N., Xu, X., Su, X., Li, Y., … Wang, Z. (2024). Global multifaceted biodiversity patterns, centers, and conservation needs in angiosperms. Science China Life Sciences. https://doi.org/10.1007/s11427-023-2430-2
Microclimate mapping using novel radiative transfer modelling
Zellweger, F., Sulmoni, E., Malle, J. T., Baltensweiler, A., Jonas, T., Zimmermann, N. E., … Webster, C. (2024). Microclimate mapping using novel radiative transfer modelling. Biogeosciences, 21(2), 605-623. https://doi.org/10.5194/bg-21-605-2024
Current and past climate co-shape community-level plant species richness in the Western Siberian Arctic
Zemlianskii, V., Brun, P., Zimmermann, N. E., Ermokhina, K., Khitun, O., Koroleva, N., & Schaepman-Strub, G. (2024). Current and past climate co-shape community-level plant species richness in the Western Siberian Arctic. Ecology and Evolution, 14(3), e11140 (12 pp.). https://doi.org/10.1002/ece3.11140
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
Too many candidates: embedded covariate selection procedure for species distribution modelling with the covsel R package
Adde, A., Rey, P. L., Fopp, F., Petitpierre, B., Schweiger, A. K., Broennimann, O., … Guisan, A. (2023). Too many candidates: embedded covariate selection procedure for species distribution modelling with the covsel R package. Ecological Informatics, 75, 102080 (8 pp.). https://doi.org/10.1016/j.ecoinf.2023.102080
Phytodiversity is associated with habitat heterogeneity from Eurasia to the Hengduan Mountains
Chang, Y., Gelwick, K., Willett, S. D., Shen, X., Albouy, C., Luo, A., … Pellissier, L. (2023). Phytodiversity is associated with habitat heterogeneity from Eurasia to the Hengduan Mountains. New Phytologist, 240(4), 1647-1658. https://doi.org/10.1111/nph.19206
The geography of climate and the global patterns of species diversity
Coelho, M. T. P., Barreto, E., Rangel, T. F., Diniz-Filho, J. A. F., Wüest, R. O., Bach, W., … Graham, C. H. (2023). The geography of climate and the global patterns of species diversity. Nature, 622, 537-544. https://doi.org/10.1038/s41586-023-06577-5
Climate-trait relationships exhibit strong habitat specificity in plant communities across Europe
Kambach, S., Sabatini, F. M., Attorre, F., Biurrun, I., Boenisch, G., Bonari, G., … Bruelheide, H. (2023). Climate-trait relationships exhibit strong habitat specificity in plant communities across Europe. Nature Communications, 14(1), 712 (11 pp.). https://doi.org/10.1038/s41467-023-36240-6
CHELSA-TraCE21k - high-resolution (1 km) downscaled transient temperature and precipitation data since the Last Glacial Maximum
Karger, D. N., Nobis, M. P., Normand, S., Graham, C. H., & Zimmermann, N. E. (2023). CHELSA-TraCE21k - high-resolution (1 km) downscaled transient temperature and precipitation data since the Last Glacial Maximum. Climate of the Past, 19(2), 439-456. https://doi.org/10.5194/cp-19-439-2023
CHELSA-W5E5: daily 1km meteorological forcing data for climate impact studies
Karger, D. N., Lange, S., Hari, C., Reyer, C. P. O., Conrad, O., Zimmermann, N. E., & Frieler, K. (2023). CHELSA-W5E5: daily 1km meteorological forcing data for climate impact studies. Earth System Science Data, 15(6), 2445-2464. https://doi.org/10.5194/essd-15-2445-2023
Interannual climate variability improves niche estimates for ectothermic but not endothermic species
Karger, D. N., Saladin, B., Wüest, R. O., Graham, C. H., Zurell, D., Mo, L., & Zimmermann, N. E. (2023). Interannual climate variability improves niche estimates for ectothermic but not endothermic species. Scientific Reports, 13(1), 12538 (11 pp.). https://doi.org/10.1038/s41598-023-39637-x
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
An updated floristic map of the world
Liu, Y., Xu, X., Dimitrov, D., Pellissier, L., Borregaard, M. K., Shrestha, N., … Wang, Z. (2023). An updated floristic map of the world. Nature Communications, 14, 2990 (11 pp.). https://doi.org/10.1038/s41467-023-38375-y
Spatio-temporal patterns in the woodiness of flowering plants
Luo, A., Xu, X., Liu, Y., Li, Y., Su, X., Li, Y., … Wang, Z. (2023). Spatio-temporal patterns in the woodiness of flowering plants. Global Ecology and Biogeography, 32(3), 384-396. https://doi.org/10.1111/geb.13627
 

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