TY  - JOUR
AU  - Midolo, Gabriele
AU  - Herben, Tomáš
AU  - Axmanová, Irena
AU  - Marcenò, Corrado
AU  - Pätsch, Ricarda
AU  - Bruelheide, Helge
AU  - Karger, Dirk Nikolaus
AU  - Aćić, Svetlana
AU  - Bergamini, Ariel
AU  - Bergmeier, E.
AU  - Biurrun, Erwin
AU  - Bonari, Idoia
AU  - Čarni, Andraž
AU  - Chiarucci, Alessandro
AU  - De Sanctis, Michele
AU  - Demina, Olga
AU  - Dengler, Jürgen
AU  - Dziuba, Tetiana
AU  - Fanelli, Giuliano
AU  - Garbolino, Emmanuel
AU  - Giusso del Galdo, Gianpietro
AU  - Goral, Friedemann
AU  - Güler, Behlül
AU  - Hinojos-Mendoza, Guillermo
AU  - Jansen, Florian
AU  - Jiménez-Alfaro, Borja
AU  - Lengyel, Attila
AU  - Lenoir, Jonathan
AU  - Pérez-Haase, Aaron
AU  - Pielech, Remigiusz
AU  - Prokhorov, Vadim
AU  - Rašomavičius, Valerijus
AU  - Ruprecht, Eszter
AU  - Rūsiņa, Solvita
AU  - Šilc, Urban
AU  - Škvorc, Željko
AU  - Stančić, Zvezdana
AU  - Tatarenko, Irina
AU  - Chytrý, Milan
PY  - 2023
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/6241
AB  - Motivation: Indicator values are numerical values used to characterize the ecological niches of species and to estimate their occurrence along gradients. Indicator values on climatic and edaphic niches of plant species have received considerable attention in ecological research, whereas data on the optimal positioning of species along disturbance gradients are less developed. Here, we present a new data set of disturbance indicator values identifying optima along gradients of natural and anthropogenic disturbance for 6382 vascular plant species based on the analysis of 736,366 European vegetation plots and using expert-based characterization of disturbance regimes in 236 habitat types. The indicator values presented here are crucial for integrating disturbance niche optima into large-scale vegetation analyses and macroecological studies. Main types of variables contained: We set up five main continuous indicator values for European vascular plants: disturbance severity, disturbance frequency, mowing frequency, grazing pressure and soil disturbance. The first two indicators are provided separately for the whole community and for the herb layer. We calculated the values as the average of expert-based estimates of disturbance values in all habitat types where a species occurs, weighted by the number of plots in which the species occurs within a given habitat type. Spatial location and grain: Europe. Vegetation plots ranging in size from 1 to 1000 m2. Time period and grain: Vegetation plots mostly sampled between 1956 and 2013 (= 5th and 95th quantiles of the sampling year, respectively). Major taxa and level of measurement: Species-level indicator values for vascular plants. Software format: csv file. © 2022 John Wiley & Sons Ltd.
T2  - Global Ecology and Biogeography
T2  - Global Ecology and Biogeography
T1  - Disturbance indicator values for European plants
EP  - 34
IS  - 1
SP  - 24
VL  - 32
DO  - 10.1111/geb.13603
ER  - 

@article{
author = "Midolo, Gabriele and Herben, Tomáš and Axmanová, Irena and Marcenò, Corrado and Pätsch, Ricarda and Bruelheide, Helge and Karger, Dirk Nikolaus and Aćić, Svetlana and Bergamini, Ariel and Bergmeier, E. and Biurrun, Erwin and Bonari, Idoia and Čarni, Andraž and Chiarucci, Alessandro and De Sanctis, Michele and Demina, Olga and Dengler, Jürgen and Dziuba, Tetiana and Fanelli, Giuliano and Garbolino, Emmanuel and Giusso del Galdo, Gianpietro and Goral, Friedemann and Güler, Behlül and Hinojos-Mendoza, Guillermo and Jansen, Florian and Jiménez-Alfaro, Borja and Lengyel, Attila and Lenoir, Jonathan and Pérez-Haase, Aaron and Pielech, Remigiusz and Prokhorov, Vadim and Rašomavičius, Valerijus and Ruprecht, Eszter and Rūsiņa, Solvita and Šilc, Urban and Škvorc, Željko and Stančić, Zvezdana and Tatarenko, Irina and Chytrý, Milan",
year = "2023",
abstract = "Motivation: Indicator values are numerical values used to characterize the ecological niches of species and to estimate their occurrence along gradients. Indicator values on climatic and edaphic niches of plant species have received considerable attention in ecological research, whereas data on the optimal positioning of species along disturbance gradients are less developed. Here, we present a new data set of disturbance indicator values identifying optima along gradients of natural and anthropogenic disturbance for 6382 vascular plant species based on the analysis of 736,366 European vegetation plots and using expert-based characterization of disturbance regimes in 236 habitat types. The indicator values presented here are crucial for integrating disturbance niche optima into large-scale vegetation analyses and macroecological studies. Main types of variables contained: We set up five main continuous indicator values for European vascular plants: disturbance severity, disturbance frequency, mowing frequency, grazing pressure and soil disturbance. The first two indicators are provided separately for the whole community and for the herb layer. We calculated the values as the average of expert-based estimates of disturbance values in all habitat types where a species occurs, weighted by the number of plots in which the species occurs within a given habitat type. Spatial location and grain: Europe. Vegetation plots ranging in size from 1 to 1000 m2. Time period and grain: Vegetation plots mostly sampled between 1956 and 2013 (= 5th and 95th quantiles of the sampling year, respectively). Major taxa and level of measurement: Species-level indicator values for vascular plants. Software format: csv file. © 2022 John Wiley & Sons Ltd.",
journal = "Global Ecology and Biogeography, Global Ecology and Biogeography",
title = "Disturbance indicator values for European plants",
pages = "34-24",
number = "1",
volume = "32",
doi = "10.1111/geb.13603"
}

Midolo, G., Herben, T., Axmanová, I., Marcenò, C., Pätsch, R., Bruelheide, H., Karger, D. N., Aćić, S., Bergamini, A., Bergmeier, E., Biurrun, E., Bonari, I., Čarni, A., Chiarucci, A., De Sanctis, M., Demina, O., Dengler, J., Dziuba, T., Fanelli, G., Garbolino, E., Giusso del Galdo, G., Goral, F., Güler, B., Hinojos-Mendoza, G., Jansen, F., Jiménez-Alfaro, B., Lengyel, A., Lenoir, J., Pérez-Haase, A., Pielech, R., Prokhorov, V., Rašomavičius, V., Ruprecht, E., Rūsiņa, S., Šilc, U., Škvorc, Ž., Stančić, Z., Tatarenko, I.,& Chytrý, M.. (2023). Disturbance indicator values for European plants. in Global Ecology and Biogeography, 32(1), 24-34.
https://doi.org/10.1111/geb.13603

Midolo G, Herben T, Axmanová I, Marcenò C, Pätsch R, Bruelheide H, Karger DN, Aćić S, Bergamini A, Bergmeier E, Biurrun E, Bonari I, Čarni A, Chiarucci A, De Sanctis M, Demina O, Dengler J, Dziuba T, Fanelli G, Garbolino E, Giusso del Galdo G, Goral F, Güler B, Hinojos-Mendoza G, Jansen F, Jiménez-Alfaro B, Lengyel A, Lenoir J, Pérez-Haase A, Pielech R, Prokhorov V, Rašomavičius V, Ruprecht E, Rūsiņa S, Šilc U, Škvorc Ž, Stančić Z, Tatarenko I, Chytrý M. Disturbance indicator values for European plants. in Global Ecology and Biogeography. 2023;32(1):24-34.
doi:10.1111/geb.13603 .

Midolo, Gabriele, Herben, Tomáš, Axmanová, Irena, Marcenò, Corrado, Pätsch, Ricarda, Bruelheide, Helge, Karger, Dirk Nikolaus, Aćić, Svetlana, Bergamini, Ariel, Bergmeier, E., Biurrun, Erwin, Bonari, Idoia, Čarni, Andraž, Chiarucci, Alessandro, De Sanctis, Michele, Demina, Olga, Dengler, Jürgen, Dziuba, Tetiana, Fanelli, Giuliano, Garbolino, Emmanuel, Giusso del Galdo, Gianpietro, Goral, Friedemann, Güler, Behlül, Hinojos-Mendoza, Guillermo, Jansen, Florian, Jiménez-Alfaro, Borja, Lengyel, Attila, Lenoir, Jonathan, Pérez-Haase, Aaron, Pielech, Remigiusz, Prokhorov, Vadim, Rašomavičius, Valerijus, Ruprecht, Eszter, Rūsiņa, Solvita, Šilc, Urban, Škvorc, Željko, Stančić, Zvezdana, Tatarenko, Irina, Chytrý, Milan, "Disturbance indicator values for European plants" in Global Ecology and Biogeography, 32, no. 1 (2023):24-34,
https://doi.org/10.1111/geb.13603 . .

TY  - JOUR
AU  - Večera, Martin
AU  - Axmanová, Irena
AU  - Padullés Cubino, Josep
AU  - Lososova, Zdenka
AU  - Divišek, Jan
AU  - Knollová, Ilona
AU  - Aćić, Svetlana
AU  - Biurrun, Idoia
AU  - Boch, Steffen
AU  - Bonari, Gianmaria
AU  - Campos, Juan Antonio
AU  - Čarni, Andraž
AU  - Carranza, Maria Laura
AU  - Casella, Laura
AU  - Chiarucci, Alessandro
AU  - Čušterevska, Renata
AU  - Delbosc, Pauline
AU  - Dengler, Jürgen
AU  - Fernández-González, Federico
AU  - Gégout, Jean-Claude
AU  - Jandt, Ute
AU  - Jansen, Florian
AU  - Jaškova, Anni
AU  - Jiménez-Alfaro, Borja
AU  - Kuzemko, Anna
AU  - Lebedeva, Maria
AU  - Lenoir, Jonathan
AU  - Lysenko, Tatiana
AU  - Erenskjold Moeslund, Jesper
AU  - Pielech, Remigiusz
AU  - Ruprecht, Eszter
AU  - Šibík, Jozef
AU  - Šilc, Urban
AU  - Škvorc, Željko
AU  - Swacha, Grzegorz
AU  - Tatarenko, Irina
AU  - Vassilev, Kiril
AU  - Wohlgemuth, Thomas
AU  - Yamalov, Sergey
AU  - Chytrý, Milan
PY  - 2021
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5890
AB  - Biodiversity is traditionally studied mostly at the species level, but biogeographical and macroecological studies at higher taxonomic levels can provide valuable insights into the evolutionary processes at large spatial scales. Our aim was to assess the representation of vascular plant families within different vegetation formations across Europe. Location: Europe. Methods: We used a data set of 816,005 vegetation plots from the European Vegetation Archive (EVA). For each plot, we calculated the relative species richness of each plant family as the number of species belonging to that family divided by the total number of species. We mapped the relative species richness, averaged across all plots in 50 km × 50 km grid cells, for each family and broad habitat groups: forests, grasslands, scrub and wetlands. We also calculated the absolute species richness and the Shannon diversity index for each family. Results: We produced 522 maps of mean relative species richness for a total of 152 vascular plant families occurring in forests, grasslands, scrub and wetlands. We found distinct spatial patterns for many combinations of families and habitat groups. The resulting series of 522 maps is freely available, both as images and GIS layers. Conclusions: The distinct spatial patterns revealed in the maps suggest that the relative species richness of plant families at the community level reflects the evolutionary history of individual families. We believe that the maps and associated data can inspire further biogeographical and macroecological studies and strengthen the ongoing integration of phylogenetic, functional and taxonomic diversity concepts.
PB  - John Wiley and Sons Inc
T2  - Journal of Vegetation Science
T1  - Mapping species richness of plant families in European vegetation
IS  - 3
SP  - e13035
VL  - 32
DO  - 10.1111/jvs.13035
ER  - 

@article{
author = "Večera, Martin and Axmanová, Irena and Padullés Cubino, Josep and Lososova, Zdenka and Divišek, Jan and Knollová, Ilona and Aćić, Svetlana and Biurrun, Idoia and Boch, Steffen and Bonari, Gianmaria and Campos, Juan Antonio and Čarni, Andraž and Carranza, Maria Laura and Casella, Laura and Chiarucci, Alessandro and Čušterevska, Renata and Delbosc, Pauline and Dengler, Jürgen and Fernández-González, Federico and Gégout, Jean-Claude and Jandt, Ute and Jansen, Florian and Jaškova, Anni and Jiménez-Alfaro, Borja and Kuzemko, Anna and Lebedeva, Maria and Lenoir, Jonathan and Lysenko, Tatiana and Erenskjold Moeslund, Jesper and Pielech, Remigiusz and Ruprecht, Eszter and Šibík, Jozef and Šilc, Urban and Škvorc, Željko and Swacha, Grzegorz and Tatarenko, Irina and Vassilev, Kiril and Wohlgemuth, Thomas and Yamalov, Sergey and Chytrý, Milan",
year = "2021",
abstract = "Biodiversity is traditionally studied mostly at the species level, but biogeographical and macroecological studies at higher taxonomic levels can provide valuable insights into the evolutionary processes at large spatial scales. Our aim was to assess the representation of vascular plant families within different vegetation formations across Europe. Location: Europe. Methods: We used a data set of 816,005 vegetation plots from the European Vegetation Archive (EVA). For each plot, we calculated the relative species richness of each plant family as the number of species belonging to that family divided by the total number of species. We mapped the relative species richness, averaged across all plots in 50 km × 50 km grid cells, for each family and broad habitat groups: forests, grasslands, scrub and wetlands. We also calculated the absolute species richness and the Shannon diversity index for each family. Results: We produced 522 maps of mean relative species richness for a total of 152 vascular plant families occurring in forests, grasslands, scrub and wetlands. We found distinct spatial patterns for many combinations of families and habitat groups. The resulting series of 522 maps is freely available, both as images and GIS layers. Conclusions: The distinct spatial patterns revealed in the maps suggest that the relative species richness of plant families at the community level reflects the evolutionary history of individual families. We believe that the maps and associated data can inspire further biogeographical and macroecological studies and strengthen the ongoing integration of phylogenetic, functional and taxonomic diversity concepts.",
publisher = "John Wiley and Sons Inc",
journal = "Journal of Vegetation Science",
title = "Mapping species richness of plant families in European vegetation",
number = "3",
pages = "e13035",
volume = "32",
doi = "10.1111/jvs.13035"
}

Večera, M., Axmanová, I., Padullés Cubino, J., Lososova, Z., Divišek, J., Knollová, I., Aćić, S., Biurrun, I., Boch, S., Bonari, G., Campos, J. A., Čarni, A., Carranza, M. L., Casella, L., Chiarucci, A., Čušterevska, R., Delbosc, P., Dengler, J., Fernández-González, F., Gégout, J., Jandt, U., Jansen, F., Jaškova, A., Jiménez-Alfaro, B., Kuzemko, A., Lebedeva, M., Lenoir, J., Lysenko, T., Erenskjold Moeslund, J., Pielech, R., Ruprecht, E., Šibík, J., Šilc, U., Škvorc, Ž., Swacha, G., Tatarenko, I., Vassilev, K., Wohlgemuth, T., Yamalov, S.,& Chytrý, M.. (2021). Mapping species richness of plant families in European vegetation. in Journal of Vegetation Science
John Wiley and Sons Inc., 32(3), e13035.
https://doi.org/10.1111/jvs.13035

Večera M, Axmanová I, Padullés Cubino J, Lososova Z, Divišek J, Knollová I, Aćić S, Biurrun I, Boch S, Bonari G, Campos JA, Čarni A, Carranza ML, Casella L, Chiarucci A, Čušterevska R, Delbosc P, Dengler J, Fernández-González F, Gégout J, Jandt U, Jansen F, Jaškova A, Jiménez-Alfaro B, Kuzemko A, Lebedeva M, Lenoir J, Lysenko T, Erenskjold Moeslund J, Pielech R, Ruprecht E, Šibík J, Šilc U, Škvorc Ž, Swacha G, Tatarenko I, Vassilev K, Wohlgemuth T, Yamalov S, Chytrý M. Mapping species richness of plant families in European vegetation. in Journal of Vegetation Science. 2021;32(3):e13035.
doi:10.1111/jvs.13035 .

Večera, Martin, Axmanová, Irena, Padullés Cubino, Josep, Lososova, Zdenka, Divišek, Jan, Knollová, Ilona, Aćić, Svetlana, Biurrun, Idoia, Boch, Steffen, Bonari, Gianmaria, Campos, Juan Antonio, Čarni, Andraž, Carranza, Maria Laura, Casella, Laura, Chiarucci, Alessandro, Čušterevska, Renata, Delbosc, Pauline, Dengler, Jürgen, Fernández-González, Federico, Gégout, Jean-Claude, Jandt, Ute, Jansen, Florian, Jaškova, Anni, Jiménez-Alfaro, Borja, Kuzemko, Anna, Lebedeva, Maria, Lenoir, Jonathan, Lysenko, Tatiana, Erenskjold Moeslund, Jesper, Pielech, Remigiusz, Ruprecht, Eszter, Šibík, Jozef, Šilc, Urban, Škvorc, Željko, Swacha, Grzegorz, Tatarenko, Irina, Vassilev, Kiril, Wohlgemuth, Thomas, Yamalov, Sergey, Chytrý, Milan, "Mapping species richness of plant families in European vegetation" in Journal of Vegetation Science, 32, no. 3 (2021):e13035,
https://doi.org/10.1111/jvs.13035 . .