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5. Towards an eco-evolutionary understanding of endemism hotspots and refugia.

Author

Keppel, Gunnar, Ottaviani, Gianluigi, Harrison, Susan, Wardell-Johnson, Grant W, Marcantonio, Matteo, and Mucina, Ladislav

Subjects
Biological Sciences, Ecology, Evolutionary Biology, Life on Land, Biodiversity, Biological Evolution, Ecosystem, Life History Traits, Plants, Refugium, capacity of refugia, centres of endemism, community assembly, conservation planning, eco-evolutionary processes, endemism hotspots, environmental changes, functional biogeography, functional diversity and redundancy, plant functional traits, refugia, Plant Biology, Forestry Sciences, Plant Biology & Botany, Plant biology
Abstract

BackgroundRefugia are island-like habitats that are linked to long-term environmental stability and, as a result, high endemism. Conservation of refugia and endemism hotspots should be based on a deep ecological and evolutionary understanding of their functioning, which remains limited. Although functional traits can provide such insights, a corresponding, coherent framework is lacking.Proposed frameworkPlant communities in refugia and endemism hotspots should, due to long-term environmental stability, display unique functional characteristics linked to distinct phylogenetic patterns. Therefore, such communities should be characterized by a functional signature that exhibits: (1) distinct values and combinations of traits, (2) higher functional diversity and (3) a prevalence of similar traits belonging to more distantly related lineages inside, compared to outside, of endemism hotspots and refugia. While the limited functional trait data available from refugia and endemism hotspots do not allow these predictions to be tested rigorously, three potential applications of the functional signature in biogeography and conservation planning are highlighted. Firstly, it allows the functional characteristics of endemism hotspots and refugia to be identified. Secondly, the strength of the functional signature can be compared among these entities, and with the surrounding landscape, to provide an estimate of the capacity of endemism hotspots and refugia to buffer environmental changes. Finally, the pattern of the functional signature can reveal ecological and evolutionary processes driving community assembly and functioning, which can assist in predicting the effect of environmental changes (e.g. climate, land-use) on communities in endemism hotspots and refugia.ConclusionThe proposed functional signature concept allows the systematic integration of plant functional traits and phylogeny into the study of endemism hotspots and refugia, but more data on functional traits in these entities are urgently needed. Overcoming this limitation would facilitate rigorous testing of the proposed predictions for the functional signature, advancing the eco-evolutionary understanding of endemism hotspots and refugia.

Published
2018

7. Weak phylogenetic effect on specialist plant assemblages and their persistence on habitat islands.

Author

Klimeš, Adam, Molina‐Venegas, Rafael, Carta, Angelino, Chytrý, Milan, Conti, Luisa, Götzenberger, Lars, Hájek, Michal, Horsák, Michal, Jiménez‐Alfaro, Borja, Klimešová, Jitka, Méndez‐Castro, Francisco E., Zelený, David, and Ottaviani, Gianluigi

Subjects
PLANT diversity, BIOGEOGRAPHY, LOGISTIC regression analysis, FENS, ISLANDS
Abstract

Aim: The influence of species phylogenetic relatedness on the formation of insular assemblages remains understudied in functional island biogeography, especially for terrestrial habitat islands (i.e. distinct habitat patches embedded in a matrix that differ in the prevailing environmental conditions). Here, we tested three eco‐evolutionary hypotheses: (1) functional specialization of species (i.e. specialism) is associated with phylogenetic clustering at the habitat archipelago scale, (2) such clustering increases with insularity at the habitat island scale and (3) traits indicative of effective local persistence strategies shape island specialism. Location: Terrestrial habitat islands, Europe (Fens in the Western Carpathians, Outcrops in Moravia and Mountaintops in the Cantabrian Range). Taxon: Angiosperms. Methods: We assessed the phylogenetic relatedness of habitat specialists in three different archipelagos composed of terrestrial habitat islands based on phylogenetic signals and phylogenetic diversity (PD) measures. We estimated the effect of insularity on PD using linear models and the effect of persistence traits on specialism using phylogenetic logistic regressions. Results: Our hypotheses were largely not supported. Outcrop and mountaintop specialist assemblages did not exhibit any phylogenetic structuring, whereas fen specialists were clustered at the archipelago scale. Therefore, insularity seems not to act as a selective force for phylogenetic structure, and ecologically important persistence traits do not operate as precursors of specialism. Main Conclusions: Our results show that species phylogenetic relatedness plays a minor role in shaping habitat island specialist assemblages. Furthermore, the effects of phylogenetic relatedness on assemblages of island specialists are system and scale dependent. Finally, accounting for species' phylogenetic relatedness on persistence traits yielded results similar to previous studies, which corroborates the positive relationship between insularity and functional traits (indicative of enhanced plant persistence abilities with increasing within‐archipelago insularity). [ABSTRACT FROM AUTHOR]

Published
2024
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8. Why studying the response of trait coordination to insularity matters?

Author

Midolo, Gabriele, Méndez‐Castro, Francisco E., and Ottaviani, Gianluigi

Subjects
RESEARCH questions, ISLAND plants, BIOGEOGRAPHY, BIOTIC communities, ISLANDS
Abstract

Functional island biogeography can provide eco–evolutionary insights into which main drivers contribute to shaping the distribution of organisms' forms and functions on islands. It does so by examining trait patterns. As a result, traits are increasingly studied on islands, either along insularity gradients or by comparing patterns of island versus mainland biota. So far, functional island biogeography has investigated trends of trait values (i.e., average, functional diversity), whereas coordination between pairs of traits remains unexplored along insularity gradients. Yet, trait coordination analyses constitute the foundational tool to detect main functional spectra and strategies of organisms. In this perspective, we set out to offer a conceptual and analytical framework that should facilitate the inclusion of trait coordination (i.e., the co–variation of traits both at the intra– and interspecific level) in functional island biogeography. We illustrate, with a case study focused on persistence traits of edaphic island plant specialists, what type of insights can be gained by examining the response of trait coordination to variation in insularity. We asked two questions, namely whether, with increasing insularity, the strength of the relationship (R2) increases (Q1), and the direction of the relationship (slope) decreases (Q2). We positively answered our research questions, with lines of evidence suggesting a selective "forcing" towards tighter and more strongly coordinated strategies (Q1), and functional trade‐offs (Q2). We infer which ecological and biogeographic drivers could be behind the observed patterns, while acknowledging possible drawbacks. We conclude by identifying three main take–home messages and related future directions for integrating trait coordination in functional island biogeography to further advance the field. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Linking Plant Functional Ecology to Island Biogeography

Author

Ottaviani, Gianluigi, Keppel, Gunnar, Götzenberger, Lars, Harrison, Susan, Opedal, Øystein H., Conti, Luisa, Liancourt, Pierre, Klimešová, Jitka, Silveira, Fernando A.O., Jiménez-Alfaro, Borja, Negoita, Luka, Doležal, Jiří, Hájek, Michal, Ibanez, Thomas, Méndez-Castro, Francisco E., and Chytrý, Milan

Published
2020
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12. Handbook of standardized protocols for collecting plant modularity traits

Author

Klimešová, Jitka, Martínková, Jana, Pausas, Juli G., de Moraes, Moemy Gomes, Herben, Tomáš, Yu, Fei-Hai, Puntieri, Javier, Vesk, Peter A., de Bello, Francesco, Janeček, Štěpán, Altman, Jan, Appezzato-da-Glória, Beatriz, Bartušková, Alena, Crivellaro, Alan, Doležal, Jiři, Ott, Jacqueline P., Paula, Susana, Schnablová, Renáta, Schweingruber, Fritz H., and Ottaviani, Gianluigi

Published
2019
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22. A protocol for reproducible functional diversity analyses

Author

Palacio, Facundo X., primary, Callaghan, Corey T., additional, Cardoso, Pedro, additional, Hudgins, Emma J., additional, Jarzyna, Marta A., additional, Ottaviani, Gianluigi, additional, Riva, Federico, additional, Graco‐Roza, Caio, additional, Shirey, Vaughn, additional, and Mammola, Stefano, additional

Published
2022
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23. Insularity promotes plant persistence strategies in edaphic island systems

Author

Czech Science Foundation, Academy of Sciences of the Czech Republic, Agencia Estatal de Investigación (España), Conti, Luisa, Méndez-Castro, Francisco E., Chytrý, Milan, Götzenberger, Lars, Hájek, Michal, Horsák, Michal, Jiménez Alfaro, Borja, Klimešová, Jitka, Zelený, David, Ottaviani, Gianluigi, Czech Science Foundation, Academy of Sciences of the Czech Republic, Agencia Estatal de Investigación (España), Conti, Luisa, Méndez-Castro, Francisco E., Chytrý, Milan, Götzenberger, Lars, Hájek, Michal, Horsák, Michal, Jiménez Alfaro, Borja, Klimešová, Jitka, Zelený, David, and Ottaviani, Gianluigi

Abstract

[Aim] Trait-based approaches are being used increasingly in island biogeography, providing key insights into the eco-evolutionary dynamics of insular systems. However, the determinants of persistence of plant species after they have arrived and established on an island remain largely unexplored. Here, we used three edaphic island systems (i.e., habitat patches distinguished from the landscape matrix by distinct soil conditions and specialized vegetation) to examine relationships between persistence strategies (those associated with clonality, bud bank, seed mass and life-form) and insularity. We hypothesized that insularity promotes and selects strategies to persist locally, such that species occurring on small and/or isolated edaphic islands show trait values indicative of enhanced persistence and lower functional diversity. [Location] Three European systems of edaphic islands in the Western Carpathians, Moravia and the Cantabrian Range. [Time period] Present. Major taxa studied: Vascular plants. [Methods] For each system, we used linear models to explore persistence-related plant trait patterns (mean trait values and functional diversity) in relationship to three insularity metrics (island size, isolation and target effect). We focused on patterns of edaphic island specialists because their presence is confined to the islands. [Results] We found that insularity metrics largely explained the variation of the mean value and diversity of persistence-related traits of edaphic island plant specialists. Specifically, insularity was positively related to traits supporting local persistence (e.g., more extensive lateral spread) and to a reduced variability in persistence traits. More insular systems showed stronger and more numerous trait–insularity links. [Main conclusions] Insularity can affect plant species diversity, form and function in edaphic island systems, such as selecting for enhanced and less diverse persistence strategies. Plant species occurring in insular s

Published
2022

28. Trait hypervolumes based on natural history collections can detect ecological strategies that are distinct to biogeographic regions.

Author

Harris, Timothy, Ottaviani, Gianluigi, Mulligan, Mark, and Brummitt, Neil

Subjects
*NATURAL history, *HIERARCHICAL clustering (Cluster analysis), *REMOTE sensing, *COLLECTIONS, *INFORMATION resources
Abstract

Bioregionalisation partitions diversity so that similarity of the selected biological and ecological variables is higher within regions than it is outside those regions. The classic approach partitions an area based on species composition, whereas more recent methods based on remotely sensed data classify biogeographic regions on biophysical and structural variables of vegetation. Another, yet to be explored opportunity, is offered by identifying distinct ecological strategies of plants inhabiting a given area, that is, a functional trait‐based bioregionalisation. Here, we propose such a bioregionalisation using trait hypervolumes. We also compare the proposed functional bioregionalisation with established classifications based on species composition or on remotely sensed data to identify spatial congruence among them, and suggest possible reasons behind observed patterns.Natural history collections represent an underexploited resource, despite holding both trait and locality information and being taxonomically comprehensive. We compile values of traits (leaf size, plant height, seed number per fruit, seed volume) derived from natural history collections for a random sample of African angiosperm species (~1% of the continental flora) to estimate a trait hypervolume. We use hierarchical clustering to divide the hypervolume into four segments (each representing a distinct ecological strategy), whose spatial intersections produced 12 putative biogeographic regions, each containing one or more of these strategies. We spatially map the hypervolume segments onto the entire African continent and calculate the spatial congruence of the putative functional biogeographic regions with previous bioregionalisations.We identify values and combinations of traits that can be indicative of biogeographic regions. This functional bioregionalisation shows greater spatial congruence with that derived from species composition than from remote sensing. However, spatial congruence is low at the continent scale (19%–37%), and varies greatly among regions and in pairwise comparisons between bioregionalisations.Synthesis. Plant traits from natural history collections offer an underused source of information for biogeographic analyses. We demonstrate potential applications of trait hypervolumes in functional biogeography, and outline strengths and drawbacks of the different bioregionalisation methods. Finally, we suggest that key ecological strategies could be used in future models as proxies to anticipate shifts of species assemblages and biogeographic regions. [ABSTRACT FROM AUTHOR]

Published
2023
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29. A protocol for reproducible functional diversity analyses

Author

Palacio, Facundo, primary, Callaghan, Corey, additional, Cardoso, Pedro, additional, Hudgins, Emma, additional, Jarzyna, Marta, additional, Ottaviani, Gianluigi, additional, Riva, Federico, additional, Graco-Roza, Caio, additional, Shirey, Vaughn, additional, and Mammola, Stefano, additional

Published
2021
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31. A multifaceted approach for beech forest conservation: Environmental drivers of understory plant diversity

Author

Czech Science Foundation, Regione Toscana, Ottaviani, Gianluigi [0000-0003-3027-4638], Ottaviani, Gianluigi, Götzenberger, Lars, Bacaro, G., Chiarucci, A., de Bello, Francesco, Marcantonio, M., Czech Science Foundation, Regione Toscana, Ottaviani, Gianluigi [0000-0003-3027-4638], Ottaviani, Gianluigi, Götzenberger, Lars, Bacaro, G., Chiarucci, A., de Bello, Francesco, and Marcantonio, M.

Abstract

Studies addressing multiple aspects of biodiversity simultaneously (i.e., multifaceted approaches) can quantify plant diversity-environment links comprehensively - this is because of the multidimensional nature of plant diversity. However, multifaceted studies are scant in forests. Here, we examined taxonomic, functional and phylogenetic diversity patterns in 19 beech forest understory plots in two areas belonging to a biodiversity monitoring plan in Tuscany, Italy. We performed linear mixed effect models to quantify the influence of elevation (proxy for macroclimate), aspect (affecting microclimate), and basal area (related to microclimate and stand maturity) on diversity facets of vascular plants. Elevation played a major role in shaping diversity: high-elevation plots were less rich in species and had a reduced functional diversity of storage organs that may promote cold-tolerance. Conversely, the diversity of flowering phenology increased with elevation, thus low-elevation vegetation converged functionally towards a common, short blooming period. This strategy may be advantageous for understory plants in the deciduous beech forests experiencing longer growing seasons, hence more extended canopy closure at lower elevations. Basal area negatively affected foliar and multiple traits functional diversity which may be associated with highly selective and competitive environment for light capture in closed canopy, mature stands. Slope aspect did not exert any significant effect on diversity facets, neither did interactions among predictors. Overall, these results confirm the usefulness of implementing multifaceted approaches to i) better understand the influence of environmental drivers on different aspects of plant diversity, and ii) inform the biodiversity monitoring plan that is in place in the study forests by systematically including functional diversity instead of taxonomic metrics only.

Published
2019

33. What defines insularity for plants in edaphic islands?

Author

Mendez‐Castro, Francisco E., primary, Conti, Luisa, additional, Chytrý, Milan, additional, Jiménez‐Alfaro, Borja, additional, Hájek, Michal, additional, Horsák, Michal, additional, Zelený, David, additional, Malavasi, Marco, additional, and Ottaviani, Gianluigi, additional

Published
2021
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41. TRY plant trait database – enhanced coverage and open access

Author

Kattge, Jens, Bönisch, Gerhard, Díaz, Sandra, Lavorel, Sandra, Prentice, Iain Colin, Leadley, Paul, Tautenhahn, Susanne, Werner, Gijsbert D. A., Aakala, Tuomas, Abedi, Mehdi, Acosta, Alicia T. R., Adamidis, George C., Adamson, Kairi, Aiba, Masahiro, Albert, Cécile H., Alcántara, Julio M., Alcázar C, Carolina, Aleixo, Izabela, Ali, Hamada, Amiaud, Bernard, Ammer, Christian, Amoroso, Mariano M., Anand, Madhur, Anderson, Carolyn, Anten, Niels, Antos, Joseph, Apgaua, Deborah Mattos Guimarães, Ashman, Tia-Lynn, Asmara, Degi Harja, Asner, Gregory P., Aspinwall, Michael, Atkin, Owen, Aubin, Isabelle, Baastrup-Spohr, Lars, Bahalkeh, Khadijeh, Bahn, Michael, Baker, Timothy, Baker, William J., Bakker, Jan P., Baldocchi, Dennis, Baltzer, Jennifer, Banerjee, Arindam, Baranger, Anne, Barlow, Jos, Barneche, Diego R., Baruch, Zdravko, Bastianelli, Denis, Battles, John, Bauerle, William, Bauters, Marijn, Bazzato, Erika, Beckmann, Michael, Beeckman, Hans, Beierkuhnlein, Carl, Bekker, Renee, Belfry, Gavin, Belluau, Michael, Beloiu, Mirela, Benavides, Raquel, Benomar, Lahcen, Berdugo-Lattke, Mary Lee, Berenguer, Erika, Bergamin, Rodrigo, Bergmann, Joana, Bergmann Carlucci, Marcos, Berner, Logan, Bernhardt-Römermann, Markus, Bigler, Christof, Bjorkman, Anne D., Blackman, Chris, Blanco, Carolina, Blonder, Benjamin, Blumenthal, Dana, Bocanegra-González, Kelly T., Boeckx, Pascal, Bohlman, Stephanie, Böhning-Gaese, Katrin, Boisvert-Marsh, Laura, Bond, William, Bond-Lamberty, Ben, Boom, Arnoud, Boonman, Coline C. F., Bordin, Kauane, Boughton, Elizabeth H., Boukili, Vanessa, Bowman, David M. J. S., Bravo, Sandra, Brendel, Marco Richard, Broadley, Martin R., Brown, Kerry A., Bruelheide, Helge, Brumnich, Federico, Bruun, Hans Henrik, Bruy, David, Buchanan, Serra W., Bucher, Solveig Franziska, Buchmann, Nina, Buitenwerf, Robert, Bunker, Daniel E., Bürger, Jana, Burrascano, Sabina, Burslem, David F. R. P., Butterfield, Bradley J., Byun, Chaeho, Marques, Marcia, Scalon, Marina C., Caccianiga, Marco, Cadotte, Marc, Cailleret, Maxime, Camac, James, Camarero, Jesús Julio, Campany, Courtney, Campetella, Giandiego, Campos, Juan Antonio, Cano-Arboleda, Laura, Canullo, Roberto, Carbognani, Michele, Carvalho, Fabio, Casanoves, Fernando, Castagneyrol, Bastien, Catford, Jane A., Cavender-Bares, Jeannine, Cerabolini, Bruno E. L., Cervellini, Marco, Chacón-Madrigal, Eduardo, Chapin, Kenneth, Chapin, F. Stuart, Chelli, Stefano, Chen, Si-Chong, Chen, Anping, Cherubini, Paolo, Chianucci, Francesco, Choat, Brendan, Chung, Kyong-Sook, Chytrý, Milan, Ciccarelli, Daniela, Coll, Lluís, Collins, Courtney G., Conti, Luisa, Coomes, David, Cornelissen, Johannes H. C., Cornwell, William K., Corona, Piermaria, Coyea, Marie, Craine, Joseph, Craven, Dylan, Cromsigt, Joris P. G. M., Csecserits, Anikó, Cufar, Katarina, Cuntz, Matthias, da Silva, Ana Carolina, Dahlin, Kyla M., Dainese, Matteo, Dalke, Igor, Dalle Fratte, Michele, Dang-Le, Anh Tuan, Danihelka, Jirí, Dannoura, Masako, Dawson, Samantha, de Beer, Arend Jacobus, De Frutos, Angel, De Long, Jonathan R., Dechant, Benjamin, Delagrange, Sylvain, Delpierre, Nicolas, Derroire, Géraldine, Dias, Arildo S., Diaz-Toribio, Milton Hugo, Dimitrakopoulos, Panayiotis G., Dobrowolski, Mark, Doktor, Daniel, Dřevojan, Pavel, Dong, Ning, Dransfield, John, Dressler, Stefan, Duarte, Leandro, Ducouret, Emilie, Dullinger, Stefan, Durka, Walter, Duursma, Remko, Dymova, Olga, E-Vojtkó, Anna, Eckstein, Rolf Lutz, Ejtehadi, Hamid, Elser, James, Emilio, Thaise, Engemann, Kristine, Erfanian, Mohammad Bagher, Erfmeier, Alexandra, Esquivel-Muelbert, Adriane, Esser, Gerd, Estiarte, Marc, Domingues, Tomas F., Fagan, William F., Fagúndez, Jaime, Falster, Daniel S., Fang, Jingyun, Farris, Emmanuele, Fazlioglu, Fatih, Feng, Yanhao, Fernandez-Mendez, Fernando, Ferrara, Carlotta, Ferreira, Joice, Fidelis, Alessandra, Finegan, Bryan, Firn, Jennifer, Flowers, Timothy J., Flynn, Dan F. B., Fontana, Veronika, Forey, Estelle, Forgiarini, Cristiane, François, Louis, Frangipani, Marcelo, Frank, Dorothea, Frenette-Dussault, Cedric, Freschet, Grégoire T., Fry, Ellen L., Fyllas, Nikolaos M., Mazzochini, Guilherme G., Gachet, Sophie, Gallagher, Rachael, Ganade, Gislene, Ganga, Francesca, García-Palacios, Pablo, Gargaglione, Verónica, Garnier, Eric, Garrido, Jose Luis, de Gasper, André Luís, Gea-Izquierdo, Guillermo, Gibson, David, Gillison, Andrew N., Giroldo, Aelton, Glasenhardt, Mary-Claire, Gleason, Sean, Gliesch, Mariana, Goldberg, Emma, Göldel, Bastian, Gonzalez-Akre, Erika, Gonzalez-Andujar, Jose L., González-Melo, Andrés, González-Robles, Ana, Graae, Bente Jessen, Granda, Elena, Graves, Sarah, Green, Walton A., Gregor, Thomas, Gross, Nicolas, Guerin, Greg R., Günther, Angela, Gutiérrez, Alvaro G., Haddock, Lillie, Haines, Anna, Hall, Jefferson, Hambuckers, Alain, Han, Wenxuan, Harrison, Sandy P., Hattingh, Wesley, Hawes, Joseph E., He, Tianhua, He, Pengcheng, Heberling, Jacob Mason, Helm, Aveliina, Hempel, Stefan, Hentschel, Jörn, Hérault, Bruno, Hereş, Ana-Maria, Herz, Katharina, Heuertz, Myriam, Hickler, Thomas, Hietz, Peter, Higuchi, Pedro, Hipp, Andrew L., Hirons, Andrew, Hock, Maria, Hogan, James Aaron, Holl, Karen, Honnay, Olivier, Hornstein, Daniel, Hou, Enqing, Hough-Snee, Nate, Hovstad, Knut Anders, Ichie, Tomoaki, Igić, Boris, Illa, Estela, Isaac, Marney, Ishihara, Masae, Ivanov, Leonid, Ivanova, Larissa, Iversen, Colleen M., Izquierdo, Jordi, Jackson, Robert B., Jackson, Benjamin, Jactel, Hervé, Jagodzinski, Andrzej M., Jandt, Ute, Jansen, Steven, Jenkins, Thomas, Jentsch, Anke, Jespersen, Jens Rasmus Plantener, Jiang, Guo-Feng, Johansen, Jesper Liengaard, Johnson, David, Jokela, Eric J., Joly, Carlos Alfredo, Jordan, Gregory J., Joseph, Grant Stuart, Junaedi, Decky, Junker, Robert R., Justes, Eric, Kabzems, Richard, Kane, Jeffrey, Kaplan, Zdenek, Kattenborn, Teja, Kavelenova, Lyudmila, Kearsley, Elizabeth, Kempel, Anne, Kenzo, Tanaka, Kerkhoff, Andrew, Khalil, Mohammed I., Kinlock, Nicole L., Kissling, Wilm Daniel, Kitajima, Kaoru, Kitzberger, Thomas, Kjøller, Rasmus, Klein, Tamir, Kleyer, Michael, Klimešová, Jitka, Klipel, Joice, Kloeppel, Brian, Klotz, Stefan, Knops, Johannes M. H., Kohyama, Takashi, Koike, Fumito, Kollmann, Johannes, Komac, Benjamin, Komatsu, Kimberly, König, Christian, Kraft, Nathan J. B., Kramer, Koen, Kreft, Holger, Kühn, Ingolf, Kumarathunge, Dushan, Kuppler, Jonas, Kurokawa, Hiroko, Kurosawa, Yoko, Kuyah, Shem, Laclau, Jean-Paul, Lafleur, Benoit, Lallai, Erik, Lamb, Eric, Lamprecht, Andrea, Larkin, Daniel J., Laughlin, Daniel, Le Bagousse-Pinguet, Yoann, le Maire, Guerric, le Roux, Peter C., le Roux, Elizabeth, Lee, Tali, Lens, Frederic, Lewis, Simon L., Lhotsky, Barbara, Li, Yuanzhi, Li, Xine, Lichstein, Jeremy W., Liebergesell, Mario, Lim, Jun Ying, Lin, Yan-Shih, Linares, Juan Carlos, Liu, Chunjiang, Liu, Daijun, Liu, Udayangani, Livingstone, Stuart, Llusià, Joan, Lohbeck, Madelon, López-García, Álvaro, Lopez-Gonzalez, Gabriela, Lososová, Zdeňka, Louault, Frédérique, Lukács, Balázs A., Lukeš, Petr, Luo, Yunjian, Lussu, Michele, Ma, Siyan, Maciel Rabelo Pereira, Camilla, Mack, Michelle, Maire, Vincent, Mäkelä, Annikki, Mäkinen, Harri, Malhado, Ana Claudia Mendes, Mallik, Azim, Manning, Peter, Manzoni, Stefano, Marchetti, Zuleica, Marchino, Luca, Marcilio-Silva, Vinicius, Marcon, Eric, Marignani, Michela, Markesteijn, Lars, Martin, Adam, Martínez-Garza, Cristina, Martínez-Vilalta, Jordi, Mašková, Tereza, Mason, Kelly, Mason, Norman, Massad, Tara Joy, Masse, Jacynthe, Mayrose, Itay, McCarthy, James, McCormack, M. Luke, McCulloh, Katherine, McFadden, Ian R., McGill, Brian J., McPartland, Mara Y., Medeiros, Juliana S., Medlyn, Belinda, Meerts, Pierre, Mehrabi, Zia, Meir, Patrick, Melo, Felipe P. L., Mencuccini, Maurizio, Meredieu, Céline, Messier, Julie, Mészáros, Ilona, Metsaranta, Juha, Michaletz, Sean T., Michelaki, Chrysanthi, Migalina, Svetlana, Milla, Ruben, Miller, Jesse E. D., Minden, Vanessa, Ming, Ray, Mokany, Karel, Moles, Angela T., Molnár V, Attila, Molofsky, Jane, Molz, Martin, Montgomery, Rebecca A., Monty, Arnaud, Moravcová, Lenka, Moreno-Martínez, Alvaro, Moretti, Marco, Mori, Akira S., Mori, Shigeta, Morris, Dave, Morrison, Jane, Mucina, Ladislav, Mueller, Sandra, Muir, Christopher D., Müller, Sandra Cristina, Munoz, François, Myers-Smith, Isla H., Myster, Randall W., Nagano, Masahiro, Naidu, Shawna, Narayanan, Ayyappan, Natesan, Balachandran, Negoita, Luka, Nelson, Andrew S., Neuschulz, Eike Lena, Ni, Jian, Niedrist, Georg, Nieto, Jhon, Niinemets, Ülo, Nolan, Rachael, Nottebrock, Henning, Nouvellon, Yann, Novakovskiy, Alexander, Network, The Nutrient, Nystuen, Kristin Odden, O'Grady, Anthony, O'Hara, Kevin, O'Reilly-Nugent, Andrew, Oakley, Simon, Oberhuber, Walter, Ohtsuka, Toshiyuki, Oliveira, Ricardo, Öllerer, Kinga, Olson, Mark E., Onipchenko, Vladimir, Onoda, Yusuke, Onstein, Renske E., Ordonez, Jenny C., Osada, Noriyuki, Ostonen, Ivika, Ottaviani, Gianluigi, Otto, Sarah, Overbeck, Gerhard E., Ozinga, Wim A., Pahl, Anna T., Paine, C. E. Timothy, Pakeman, Robin J., Papageorgiou, Aristotelis C., Parfionova, Evgeniya, Pärtel, Meelis, Patacca, Marco, Paula, Susana, Paule, Juraj, Pauli, Harald, Pausas, Juli G., Peco, Begoña, Penuelas, Josep, Perea, Antonio, Peri, Pablo Luis, Petisco-Souza, Ana Carolina, Petraglia, Alessandro, Petritan, Any Mary, Phillips, Oliver L., Pierce, Simon, Pillar, Valério D., Pisek, Jan, Pomogaybin, Alexandr, Poorter, Hendrik, Portsmuth, Angelika, Poschlod, Peter, Potvin, Catherine, Pounds, Devon, Powell, A. Shafer, Power, Sally A., Prinzing, Andreas, Puglielli, Giacomo, Pyšek, Petr, Raevel, Valerie, Rammig, Anja, Ransijn, Johannes, Ray, Courtenay A., Reich, Peter B., Reichstein, Markus, Reid, Douglas E. B., Réjou-Méchain, Maxime, de Dios, Victor Resco, Ribeiro, Sabina, Richardson, Sarah, Riibak, Kersti, Rillig, Matthias C., Riviera, Fiamma, Robert, Elisabeth M. 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Joseph, Wright, Justin, Pinho, Bruno X., Ximenes, Fabiano, Yamada, Toshihiro, Yamaji, Keiko, Yanai, Ruth, Yankov, Nikolay, Yguel, Benjamin, Zanini, Kátia Janaina, Zanne, Amy E., Zelený, David, Zhao, Yun-Peng, Zheng, Jingming, Zheng, Ji, Ziemińska, Kasia, Zirbel, Chad R., Zizka, Georg, Zo-Bi, Irié Casimir, Zotz, Gerhard, and Wirth, Christian

Abstract

Plant traits-the morphological, anatomical, physiological, biochemical and phenological characteristics of plants-determine how plants respond to environmental factors, affect other trophic levels, and influence ecosystem properties and their benefits and detriments to people. Plant trait data thus represent the basis for a vast area of research spanning from evolutionary biology, community and functional ecology, to biodiversity conservation, ecosystem and landscape management, restoration, biogeography and earth system modelling. Since its foundation in 2007, the TRY database of plant traits has grown continuously. It now provides unprecedented data coverage under an open access data policy and is the main plant trait database used by the research community worldwide. Increasingly, the TRY database also supports new frontiers of trait-based plant research, including the identification of data gaps and the subsequent mobilization or measurement of new data. To support this development, in this article we evaluate the extent of the trait data compiled in TRY and analyse emerging patterns of data coverage and representativeness. Best species coverage is achieved for categorical traits-almost complete coverage for 'plant growth form'. However, most traits relevant for ecology and vegetation modelling are characterized by continuous intraspecific variation and trait-environmental relationships. These traits have to be measured on individual plants in their respective environment. Despite unprecedented data coverage, we observe a humbling lack of completeness and representativeness of these continuous traits in many aspects. We, therefore, conclude that reducing data gaps and biases in the TRY database remains a key challenge and requires a coordinated approach to data mobilization and trait measurements. This can only be achieved in collaboration with other initiatives.

Published
2020

42. We need a multidimensional view of the plant reproduction continuum.

Author

Carta, Angelino, Fernández‐Pascual, Eduardo, and Ottaviani, Gianluigi

Abstract

Sexual reproduction produces genetic variation, which is key for adaptations, whereas vegetative reproduction implies the replication and separation of ramets. Such a difference has deep implications for individual fitness and trait evolution and affects organismal responses to environmental changes at different spatio‐temporal scales. Within the plant realm, there is massive variation in reproduction strategies and structures, with individuals and species that can reproduce both sexually and vegetatively, but oftentimes the two reproduction types are studied in isolation. Here, we argue for the need to examine plant reproduction as a multidimensional functional continuum involving both reproduction types. We propose a trait‐based conceptual framework able to capture the reproduction continuum comprehensively. We identify four main functions (mating, dispersal, persistence, emergence) forming the continuum, with examples of traits associated with these functions, and expected trade‐offs between them. We also show how we envision the continuum using three plant species with markedly different reproduction strategies. With a case study of ~400 plant species from three temperate biomes, we explore how the reproduction continuum may operate. We focus on a selection of traits related to sexual (seed germination) and vegetative (clonality and resprouting) reproduction. Findings are largely context‐dependent yet highly interpretable; we reveal a coordination of sexual and vegetative traits that we infer being dependent upon environmental drivers and spatio‐temporal scales. Synthesis. Plant reproduction constitutes a multidimensional aspect of plant life, with different functions and associated traits contributing to shape it, and the proposed conceptual framework offers a way to capture such multidimensionality. Our view of the reproduction continuum aligns with the increased recognition of the importance of looking at plant strategies through a multifaceted lens, if we are to more accurately estimate and predict the variety of species distributions, forms and functions. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
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45. Precipitation seasonality promotes acquisitive and variable leaf water-economics traits in southwest Australian granite outcrop species.

Author

Ottaviani, Gianluigi and Marcantonio, Matteo

Subjects
*WATER efficiency, *GRANITE, *MEDITERRANEAN climate, *PLANT-water relationships, *PLANT species, *SPECIES distribution, *SPECIES diversity
Abstract

Southwestern Australia (SWA) is a global biodiversity hotspot characterized by a mediterranean climate and is among the world's oldest and resource-poorest landscapes. Within this region, granite outcrops provide habitat complexity, and contribute to high levels of species diversity and endemism. Granite outcrop plant species are characterized by distinct anatomical, morphological and eco-physiological traits. So far, functional studies of SWA granite outcrop plants examined trait patterns along the stark aridity gradient that occurs in the region. Despite precipitation seasonality being an important climatic driver of plant species richness and distribution in mediterranean-type ecosystems, relationships between plant traits and precipitation seasonality remain understudied. Here, we investigated granite outcrop species' responses to changes in precipitation seasonality in terms of average and variability values of leaf traits related to water use efficiency. We found that plants displayed more acquisitive and variable trait values with increasing precipitation seasonality. These patterns are likely associated with the long-term effect of the stable and predictable precipitation regime in the old SWA that may have fine-tuned plant water use strategies to maximize water acquisition during the most favourable season. [ABSTRACT FROM AUTHOR]

Published
2021
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46. Handbook of standardized protocols for collecting plant modularity traits

Author

Czech Science Foundation, Generalitat Valenciana, National Natural Science Foundation of China, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Pausas, J. G. [0000-0003-3533-5786], Klimešová, Jitka, Martínková, Jana, Pausas, J. G., Gomes de Moraes, Moemy, Herben, Tomáš, Yu, Fei‐Hai, Puntieri, Javier, Vesk, Peter A., de Bello, Francesco, Janeček, Štěpán, Altman, Jan, Appezzato-da-Gloria, B., Bartušková, Aelena, Crivellaro, Alan, Doležal, Rafael, Ott, Jacqueline P., Paula, S., Schnablová, Renáta, Schweingruber, Fritz H., Ottaviani, Gianluigi, Czech Science Foundation, Generalitat Valenciana, National Natural Science Foundation of China, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Pausas, J. G. [0000-0003-3533-5786], Klimešová, Jitka, Martínková, Jana, Pausas, J. G., Gomes de Moraes, Moemy, Herben, Tomáš, Yu, Fei‐Hai, Puntieri, Javier, Vesk, Peter A., de Bello, Francesco, Janeček, Štěpán, Altman, Jan, Appezzato-da-Gloria, B., Bartušková, Aelena, Crivellaro, Alan, Doležal, Rafael, Ott, Jacqueline P., Paula, S., Schnablová, Renáta, Schweingruber, Fritz H., and Ottaviani, Gianluigi

Abstract

Plant modularity traits relevant to functions of on-spot persistence, space occupancy, resprouting after dis- turbance, as well as resource storage, sharing, and foraging have been underrepresented in functional ecology so far. This knowledge gap exists for multiple reasons. First, these functions and related traits have been considered less important than others (e.g., resource economics, organ-based traits). Second, collecting data for modularity traits can be difficult. Third, as a consequence of the previous points, there is a lack of standardized collection protocols. We now feel the time is ripe to provide a solid conceptual and terminological framework together with comparable protocols for plant modularity traits that can be applicable across species, regions and biomes. We identify a suite of 14 key traits, which are assembled into five groups. We discuss the functional relevance of each trait, supplying effective guidelines to assist in the use and selection of the most suitable traits in relation to specific research tasks. Finally, we are convinced that the systematic study and widespread assessment of plant modularity traits could bridge this knowledge gap. As a result, previously overlooked key functions could be incorporated into the functional ecology research-agenda, thus providing a more comprehensive understanding of plant and ecosystem functioning

Published
2019

49. On Plant Modularity Traits: Functions and Challenges

Author

Czech Science Foundation, Pausas, J. G. [0000-0003-3533-5786], Ottaviani, Gianluigi, Martínková, Jana, Herben, Tomáš, Klimešová, Jitka, Pausas, J. G., Czech Science Foundation, Pausas, J. G. [0000-0003-3533-5786], Ottaviani, Gianluigi, Martínková, Jana, Herben, Tomáš, Klimešová, Jitka, and Pausas, J. G.

Abstract

On-spot persistence, space occupancy, and recovery after damage are key plant functions largely understudied. Traits relevant to these functions are difficult to assess because of their relationships to plant modularity. We suggest that developing collection protocols for these traits is feasible and could facilitate their inclusion in global syntheses.

Published
2017

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