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Integrating spatial and ecological information into comprehensive biodiversity monitoring on agricultural land
Ecker, K.  T., Meier, E.  S., & Tillé, Y. (2023). Integrating spatial and ecological information into comprehensive biodiversity monitoring on agricultural land. Environmental Monitoring and Assessment, 195(10), 1161 (20 pp.). https://doi.org/10.1007/s10661-023-11618-7
Traits of dominant plant species drive normalized difference vegetation index in grasslands globally
Engel, T., Bruelheide, H., Hoss, D., Sabatini, F. M., Altman, J., Arfin-Khan, M. A. S., … Pillar, V. (2023). Traits of dominant plant species drive normalized difference vegetation index in grasslands globally. Global Ecology and Biogeography, 32(5), 695-706. https://doi.org/10.1111/geb.13644
Airborne LiDAR Enables Measurements of "Greenness" Observed from the Human Perspective
Kolecka, N., Ginzler, C., Garcia Martin, M., & Tobias, S. (2023). Airborne LiDAR Enables Measurements of "Greenness" Observed from the Human Perspective. GI_Forum Journal for Geographic Information Science, 11(2), 32-46. https://doi.org/10.1553/giscience2023_02_s32
Messung der Vegetation aus der Perspektive des Menschen
Kolecka, N., Ginzler, C., Garcia Martin, M., & Tobias, S. (2023). Messung der Vegetation aus der Perspektive des Menschen. In Eidg. Forschungsanstalt für Wald, Schnee und Landschaft, WSL (Ed.), WSL Berichte: Vol. 134. Neue Fernerkundungs­technologien für die Umweltforschung und Praxis (pp. 87-94). https://doi.org/10.55419/wsl:33081
Perspective on satellite-based land data assimilation to estimate water cycle components in an era of advanced data availability and model sophistication
De Lannoy, G. J. M., Bechtold, M., Albergel, C., Brocca, L., Calvet, J. C., Carrassi, A., … Steele-Dunne, S. (2022). Perspective on satellite-based land data assimilation to estimate water cycle components in an era of advanced data availability and model sophistication. Frontiers in Water, 4, 981745 (14 pp.). https://doi.org/10.3389/frwa.2022.981745
LOTVS: a global collection of permanent vegetation plots
Sperandii, M. G., de Bello, F., Valencia, E., Götzenberger, L., Bazzichetto, M., Galland, T., … Lepš, J. (2022). LOTVS: a global collection of permanent vegetation plots. Journal of Vegetation Science, 33(2), e13115 (11 pp.). https://doi.org/10.1111/jvs.13115
Thirty years later: how successful was the restoration of a raised bog in the swiss plateau?
Frei, S., Holderegger, R., & Bergamini, A. (2021). Thirty years later: how successful was the restoration of a raised bog in the swiss plateau? Mires and Peat, 27, 20 (27 pp.). https://doi.org/10.19189/MaP.2021.SNPG.StA.2193
Snow interception modelling: isolated observations have led to many land surface models lacking appropriate temperature sensitivities
Lundquist, J. D., Dickerson-Lange, S., Gutmann, E., Jonas, T., Lumbrazo, C., & Reynolds, D. (2021). Snow interception modelling: isolated observations have led to many land surface models lacking appropriate temperature sensitivities. Hydrological Processes, 35(7), e14274 (20 pp.). https://doi.org/10.1002/hyp.14274
Drying conditions in Switzerland – indication from a 35-year Landsat time-series analysis of vegetation water content estimates to support SDGs
Poussin, C., Massot, A., Ginzler, C., Weber, D., Chatenoux, B., Lacroix, P., … Giuliani, G. (2021). Drying conditions in Switzerland – indication from a 35-year Landsat time-series analysis of vegetation water content estimates to support SDGs. Big Earth Data, 5(4), 445-475. https://doi.org/10.1080/20964471.2021.1974681
Editorial: Experimental manipulations to predict future plant phenology
Prevéy, J. S., Vitasse, Y., & Fu, Y. (2021). Editorial: Experimental manipulations to predict future plant phenology. Frontiers in Plant Science, 11, 637156 (3 pp.). https://doi.org/10.3389/fpls.2020.637156
Mapping species richness of plant families in European vegetation
Večeřa, M., Axmanová, I., Padullés Cubino, J., Lososová, Z., Divíšek, J., Knollová, I., … Chytrý, M. (2021). Mapping species richness of plant families in European vegetation. Journal of Vegetation Science, 32(3), e13035 (17 pp.). https://doi.org/10.1111/jvs.13035
The handbook for standardized field and laboratory measurements in terrestrial climate change experiments and observational studies (ClimEx)
Halbritter, A. H., De Boeck, H. J., Eycott, A. E., Reinsch, S., Robinson, D. A., Vicca, S., … Vandvik, V. (2020). The handbook for standardized field and laboratory measurements in terrestrial climate change experiments and observational studies (ClimEx). Methods in Ecology and Evolution, 11(1), 22-37. https://doi.org/10.1111/2041-210X.13331
Monitoring vegetation change in the presence of high cloud cover with Sentinel-2 in a lowland tropical forest region in Brazil
Nazarova, T., Martin, P., & Giuliani, G. (2020). Monitoring vegetation change in the presence of high cloud cover with Sentinel-2 in a lowland tropical forest region in Brazil. Remote Sensing, 12(11), 1829 (20 pp.). https://doi.org/10.3390/rs12111829
Mountain hares <em>Lepus timidus</em> follow the green-up wave in the pursuit of high-quality food
Rehnus, M., & Bollmann, K. (2020). Mountain hares Lepus timidus follow the green-up wave in the pursuit of high-quality food. Wildlife Biology, 2020(3), 00720 (5 pp.). https://doi.org/10.2981/wlb.00720
Editorial: Plant-soil interactions under changing climate
Sevanto, S., Grossiord, C., Klein, T., & Reed, S. (2020). Editorial: Plant-soil interactions under changing climate. Frontiers in Plant Science, 11, 621235 (2 pp.). https://doi.org/10.3389/fpls.2020.621235
On the dilatancy of root-permeated soils under partially saturated conditions
Yildiz, A., Graf, F., & Springman, S. M. (2020). On the dilatancy of root-permeated soils under partially saturated conditions. Géotechnique Letters, 10(2), 227-230. https://doi.org/10.1680/jgele.19.00048
Soil and water bioengineering: practice and research needs for reconciling natural hazard control and ecological restoration
Rey, F., Bifulco, C., Bischetti, G. B., Bourrier, F., De Cesare, G., Florineth, F., … Stokes, A. (2019). Soil and water bioengineering: practice and research needs for reconciling natural hazard control and ecological restoration. Science of the Total Environment, 648, 1210-1218. https://doi.org/10.1016/j.scitotenv.2018.08.217
Climate‐driven change in the water sourced by trees in a de‐glaciating proglacial fore‐field, Torres del Paine, Chile
Vuaridel, M., Cherubini, P., Mettra, F., Vennemann, T., & Lane, S. N. (2019). Climate‐driven change in the water sourced by trees in a de‐glaciating proglacial fore‐field, Torres del Paine, Chile. Ecohydrology, 12(7), e2133 (13 pp.). https://doi.org/10.1002/eco.2133
Research note: garden-owner reported habitat heterogeneity predicts plant species richness in urban gardens
Young, C., Frey, D., Moretti, M., & Bauer, N. (2019). Research note: garden-owner reported habitat heterogeneity predicts plant species richness in urban gardens. Landscape and Urban Planning, 185, 222-227. https://doi.org/10.1016/j.landurbplan.2019.01.013
Improving spatial predictions of taxonomic, functional and phylogenetic diversity
D'Amen, M., Mateo, R. G., Pottier, J., Thuiller, W., Maiorano, L., Pellissier, L., … Guisan, A. (2018). Improving spatial predictions of taxonomic, functional and phylogenetic diversity. Journal of Ecology, 106(1), 76-86. https://doi.org/10.1111/1365-2745.12801