702 results on '"Pakeman, Robin"'
Search Results
2. Functional trait trade-offs define plant population stability across different biomes.
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Conti, Luisa, Valencia, Enrique, Galland, Thomas, Götzenberger, Lars, Lepš, Jan, E-Vojtkó, Anna, Carmona, Carlos, Májeková, Maria, Danihelka, Jiří, Dengler, Jürgen, Eldridge, David, Estiarte, Marc, García-González, Ricardo, Garnier, Eric, Gómez, Daniel, Hadincová, Věra, Harrison, Susan, Herben, Tomáš, Ibáñez, Ricardo, Jentsch, Anke, Juergens, Norbert, Kertész, Miklós, Klumpp, Katja, Krahulec, František, Louault, Frédérique, Marrs, Rob, Ónodi, Gábor, Pakeman, Robin, Pärtel, Meelis, Peco, Begoña, Peñuelas, Josep, Rueda, Marta, Schmidt, Wolfgang, Schmiedel, Ute, Schuetz, Martin, Skalova, Hana, Šmilauer, Petr, Šmilauerová, Marie, Smit, Christian, Song, MingHua, Stock, Martin, Val, James, Vandvik, Vigdis, Ward, David, Wesche, Karsten, Wiser, Susan, Woodcock, Ben, Young, Truman, Yu, Fei-Hai, Zobel, Martin, and de Bello, Francesco
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acquisitive ,conservative ,dispersal ,long-term studies ,temporal patterns ,variability ,Ecosystem ,Plants ,Phylogeny ,Seeds ,Phenotype ,Plant Leaves - Abstract
Ecological theory posits that temporal stability patterns in plant populations are associated with differences in species ecological strategies. However, empirical evidence is lacking about which traits, or trade-offs, underlie species stability, especially across different biomes. We compiled a worldwide collection of long-term permanent vegetation records (greater than 7000 plots from 78 datasets) from a large range of habitats which we combined with existing trait databases. We tested whether the observed inter-annual variability in species abundance (coefficient of variation) was related to multiple individual traits. We found that populations with greater leaf dry matter content and seed mass were more stable over time. Despite the variability explained by these traits being low, their effect was consistent across different datasets. Other traits played a significant, albeit weaker, role in species stability, and the inclusion of multi-variate axes or phylogeny did not substantially modify nor improve predictions. These results provide empirical evidence and highlight the relevance of specific ecological trade-offs, i.e. in different resource-use and dispersal strategies, for plant populations stability across multiple biomes. Further research is, however, necessary to integrate and evaluate the role of other specific traits, often not available in databases, and intraspecific trait variability in modulating species stability.
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- 2023
3. Limited spatial co-occurrence of wildfire and prescribed burning on moorlands in Scotland
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Fielding, Debbie, Newey, Scott, Pakeman, Robin J., Miller, Dave, Gagkas, Zisis, Matthews, Keith, and Smith, Stuart W.
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- 2024
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4. Factors affecting severity of wildfires in Scottish heathlands and blanket bogs
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Naszarkowski, Noemi A.L., Cornulier, Thomas, Woodin, Sarah J., Ross, Louise C., Hester, Alison J., and Pakeman, Robin J.
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- 2024
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5. Patterns of variation in plant diversity vary over different spatial levels in seasonal coastal wetlands
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Dwyer, Ciara, Millett, Jonathan, Jones, Laurence, Bartholomeus, Ruud P., van Willegen, Lisanne, Chavasse, Anna, and Pakeman, Robin J.
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- 2022
6. Synchrony matters more than species richness in plant community stability at a global scale
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Valencia, Enrique, de Bello, Francesco, Galland, Thomas, Adler, Peter B, Lepš, Jan, E-Vojtkó, Anna, van Klink, Roel, Carmona, Carlos P, Danihelka, Jiří, Dengler, Jürgen, Eldridge, David J, Estiarte, Marc, García-González, Ricardo, Garnier, Eric, Gómez‐García, Daniel, Harrison, Susan P, Herben, Tomáš, Ibáñez, Ricardo, Jentsch, Anke, Juergens, Norbert, Kertész, Miklós, Klumpp, Katja, Louault, Frédérique, Marrs, Rob H, Ogaya, Romà, Ónodi, Gábor, Pakeman, Robin J, Pardo, Iker, Pärtel, Meelis, Peco, Begoña, Peñuelas, Josep, Pywell, Richard F, Rueda, Marta, Schmidt, Wolfgang, Schmiedel, Ute, Schuetz, Martin, Skálová, Hana, Šmilauer, Petr, Šmilauerová, Marie, Smit, Christian, Song, MingHua, Stock, Martin, Val, James, Vandvik, Vigdis, Ward, David, Wesche, Karsten, Wiser, Susan K, Woodcock, Ben A, Young, Truman P, Yu, Fei-Hai, Zobel, Martin, and Götzenberger, Lars
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Climate Change Impacts and Adaptation ,Ecological Applications ,Biological Sciences ,Ecology ,Environmental Sciences ,Life Below Water ,Life on Land ,Carbon Sequestration ,Climate Change ,Ecosystem ,Plant Development ,Plants ,Soil ,evenness ,climate change drivers ,species richness ,stability ,synchrony - Abstract
The stability of ecological communities is critical for the stable provisioning of ecosystem services, such as food and forage production, carbon sequestration, and soil fertility. Greater biodiversity is expected to enhance stability across years by decreasing synchrony among species, but the drivers of stability in nature remain poorly resolved. Our analysis of time series from 79 datasets across the world showed that stability was associated more strongly with the degree of synchrony among dominant species than with species richness. The relatively weak influence of species richness is consistent with theory predicting that the effect of richness on stability weakens when synchrony is higher than expected under random fluctuations, which was the case in most communities. Land management, nutrient addition, and climate change treatments had relatively weak and varying effects on stability, modifying how species richness, synchrony, and stability interact. Our results demonstrate the prevalence of biotic drivers on ecosystem stability, with the potential for environmental drivers to alter the intricate relationship among richness, synchrony, and stability.
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- 2020
7. A global database for metacommunity ecology, integrating species, traits, environment and space
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Jeliazkov, Alienor, Mijatovic, Darko, Chantepie, Stéphane, Andrew, Nigel, Arlettaz, Raphaël, Barbaro, Luc, Barsoum, Nadia, Bartonova, Alena, Belskaya, Elena, Bonada, Núria, Brind’Amour, Anik, Carvalho, Rodrigo, Castro, Helena, Chmura, Damian, Choler, Philippe, Chong-Seng, Karen, Cleary, Daniel, Cormont, Anouk, Cornwell, William, de Campos, Ramiro, de Voogd, Nicole, Doledec, Sylvain, Drew, Joshua, Dziock, Frank, Eallonardo, Anthony, Edgar, Melanie J, Farneda, Fábio, Hernandez, Domingo Flores, Frenette-Dussault, Cédric, Fried, Guillaume, Gallardo, Belinda, Gibb, Heloise, Gonçalves-Souza, Thiago, Higuti, Janet, Humbert, Jean-Yves, Krasnov, Boris R, Saux, Eric Le, Lindo, Zoe, Lopez-Baucells, Adria, Lowe, Elizabeth, Marteinsdottir, Bryndis, Martens, Koen, Meffert, Peter, Mellado-Díaz, Andres, Menz, Myles HM, Meyer, Christoph FJ, Miranda, Julia Ramos, Mouillot, David, Ossola, Alessandro, Pakeman, Robin, Pavoine, Sandrine, Pekin, Burak, Pino, Joan, Pocheville, Arnaud, Pomati, Francesco, Poschlod, Peter, Prentice, Honor C, Purschke, Oliver, Raevel, Valerie, Reitalu, Triin, Renema, Willem, Ribera, Ignacio, Robinson, Natalie, Robroek, Bjorn, Rocha, Ricardo, Shieh, Sen-Her, Spake, Rebecca, Staniaszek-Kik, Monika, Stanko, Michal, Tejerina-Garro, Francisco Leonardo, Braak, Cajo ter, Urban, Mark C, Klink, Roel van, Villéger, Sébastien, Wegman, Ruut, Westgate, Martin J, Wolff, Jonas, Żarnowiec, Jan, Zolotarev, Maxim, and Chase, Jonathan M
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Climate Change Impacts and Adaptation ,Ecological Applications ,Biological Sciences ,Ecology ,Environmental Sciences ,Life on Land ,Animals ,Biodiversity ,Biota ,Plants - Abstract
The use of functional information in the form of species traits plays an important role in explaining biodiversity patterns and responses to environmental changes. Although relationships between species composition, their traits, and the environment have been extensively studied on a case-by-case basis, results are variable, and it remains unclear how generalizable these relationships are across ecosystems, taxa and spatial scales. To address this gap, we collated 80 datasets from trait-based studies into a global database for metaCommunity Ecology: Species, Traits, Environment and Space; "CESTES". Each dataset includes four matrices: species community abundances or presences/absences across multiple sites, species trait information, environmental variables and spatial coordinates of the sampling sites. The CESTES database is a live database: it will be maintained and expanded in the future as new datasets become available. By its harmonized structure, and the diversity of ecosystem types, taxonomic groups, and spatial scales it covers, the CESTES database provides an important opportunity for synthetic trait-based research in community ecology.
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- 2020
8. Author Correction: A global database for metacommunity ecology, integrating species, traits, environment and space
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Jeliazkov, Alienor, Mijatovic, Darko, Chantepie, Stéphane, Andrew, Nigel, Arlettaz, Raphaël, Barbaro, Luc, Barsoum, Nadia, Bartonova, Alena, Belskaya, Elena, Bonada, Núria, Brind’Amour, Anik, Carvalho, Rodrigo, Castro, Helena, Chmura, Damian, Choler, Philippe, Chong-Seng, Karen, Cleary, Daniel, Cormont, Anouk, Cornwell, William, de Campos, Ramiro, de Voogd, Nicole, Doledec, Sylvain, Drew, Joshua, Dziock, Frank, Eallonardo, Anthony, Edgar, Melanie J, Farneda, Fábio, Hernandez, Domingo Flores, Frenette-Dussault, Cédric, Fried, Guillaume, Gallardo, Belinda, Gibb, Heloise, Gonçalves-Souza, Thiago, Higuti, Janet, Humbert, Jean-Yves, Krasnov, Boris R, Saux, Eric Le, Lindo, Zoe, Lopez-Baucells, Adria, Lowe, Elizabeth, Marteinsdottir, Bryndis, Martens, Koen, Meffert, Peter, Mellado-Díaz, Andres, Menz, Myles HM, Meyer, Christoph FJ, Miranda, Julia Ramos, Mouillot, David, Ossola, Alessandro, Pakeman, Robin, Pavoine, Sandrine, Pekin, Burak, Pino, Joan, Pocheville, Arnaud, Pomati, Francesco, Poschlod, Peter, Prentice, Honor C, Purschke, Oliver, Raevel, Valerie, Reitalu, Triin, Renema, Willem, Ribera, Ignacio, Robinson, Natalie, Robroek, Bjorn, Rocha, Ricardo, Shieh, Sen-Her, Spake, Rebecca, Staniaszek-Kik, Monika, Stanko, Michal, Tejerina-Garro, Francisco Leonardo, Braak, Cajo ter, Urban, Mark C, Klink, Roel van, Villéger, Sébastien, Wegman, Ruut, Westgate, Martin J, Wolff, Jonas, Żarnowiec, Jan, Zolotarev, Maxim, and Chase, Jonathan M
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Environmental Sciences ,Biological Sciences ,Ecology - Abstract
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
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- 2020
9. Complementary effects of biodiversity and ecosystem services on spatial targeting for agri-environment payments
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Gimona, Alessandro, McKeen, Margaret, Baggio, Andrea, Simonetti, Enrico, Poggio, Laura, and Pakeman, Robin J.
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- 2023
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10. Variability in mycorrhizal status of plant species is much larger within than between plots in grassland and coastal habitats
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Bitomský, Martin, Schaefer, Hanno, Pakeman, Robin J., Klimešová, Jitka, Götzenberger, Lars, and Duchoslav, Martin
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- 2022
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11. How long do bracken (Pteridium aquilinum (L.) Kuhn) control treatments maintain effectiveness?
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Akpınar, Ilgın, Alday, Josu G., Cox, Emma, McAllister, H.A., Le Duc, Michael G., Pakeman, Robin J., and Marrs, Rob H.
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- 2023
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12. Host resources and parasite traits interact to determine the optimal combination of host parasite-mitigation strategies
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Dean, Andrew, primary, Childs, Dylan, additional, Corripio-Miyar, Yolanda, additional, Evans, Mike, additional, Hayward, Adam, additional, Kenyon, Fiona, additional, McNally, Luke, additional, MCNEILLY, TOM, additional, Pakeman, Robin, additional, Sweeney, Amy, additional, Nussey, Dan, additional, Pedersen, Amy, additional, and Fenton, Andy, additional
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- 2024
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13. Identifying drivers of change in bryophyte and lichen species occupancy in Scotland
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Pakeman, Robin J., O'Brien, David, Genney, David, and Brooker, Rob W
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- 2022
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14. Plant community‐specific greening patterns predict population size increases in a temperate herbivore.
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Pakeman, Robin J., Stevenson, Ian, Pilkington, Jill, Bal, Xavier, Pemberton, Josephine, Fenton, Andy, Childs, Dylan, Crawley, Mick, and Nussey, Dan
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NORTH Atlantic oscillation , *SHEEP , *VEGETATION dynamics , *PLANT biomass , *POPULATION dynamics - Abstract
Climate change‐driven impacts on vegetation productivity have been shown to drive mammalian herbivore population dynamics in Arctic and alpine environments. However, there is less evidence for temperate systems. To address this, we examined the contribution of increasing plant biomass in different vegetation communities (measured by NDVI, normalised difference vegetation index) and winter weather on the observed long‐term upward trend in the population of the Soay sheep of Hirta, St Kilda, UK. We found that biomass had increased in all vegetation communities present and increased the fastest in vegetation types preferred by the sheep. Specifically, those communities with high specific leaf area and Ellenberg's N, low leaf dry matter content. Peak summer NDVI and either winter average wind speed or winter North Atlantic Oscillation data added to the variance explained by a simple density dependence model of yearly sheep population growth rates. The highest explanatory power was found for preferred vegetation types including maritime cliff communities dominated by
Plantago species, but also for both inaccessible (Rumex acetosa ‐dominated) or unpreferred (Eriophorum vaginatum‐ orSphagnum ‐dominated) communities where seasonal variation more closely reflects productivity due to minimal grazing. Although the climate is getting windier and wetter, it is also getting warmer allowing increased plant productivity and this appears to be behind the long‐term increases in the Soay sheep population. Our study indicates that analysing key vegetation communities may reveal these links better than using landscape‐level averages, and that oceanic‐temperate systems may show similar climate‐driven herbivore population trends to those reported in Arctic and alpine systems. [ABSTRACT FROM AUTHOR]- Published
- 2024
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15. Increased grazing drives homogenisation but reduced grazing increases turnover in upland habitat mosaics
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Pakeman, Robin J. and Fielding, Debbie A.
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- 2021
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16. Exploring the impacts of woodland management on ecosystem services – a deliberative method
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Eastwood, Antonia, primary, Lorenzo-Arribas, Altea, additional, Fischer, Anke, additional, MacLean, Laura, additional, Hague, Alice, additional, Juarez-Bourke, Alba, additional, Herrett, Scott, additional, Byg, Anja, additional, Marshall, Keith, additional, Pakeman, Robin, additional, Donaldson-Selby, Gillian, additional, and Hester, Alison, additional
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- 2024
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17. ReSurveyEurope: A database of resurveyed vegetation plots in Europe
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Knollová, Ilona, primary, Chytrý, Milan, additional, Bruelheide, Helge, additional, Dullinger, Stefan, additional, Jandt, Ute, additional, Bernhardt‐Römermann, Markus, additional, Biurrun, Idoia, additional, de Bello, Francesco, additional, Glaser, Michael, additional, Hennekens, Stephan, additional, Jansen, Florian, additional, Jiménez‐Alfaro, Borja, additional, Kadaš, Daniel, additional, Kaplan, Ekin, additional, Klinkovská, Klára, additional, Lenzner, Bernd, additional, Pauli, Harald, additional, Sperandii, Marta Gaia, additional, Verheyen, Kris, additional, Winkler, Manuela, additional, Abdaladze, Otar, additional, Aćić, Svetlana, additional, Acosta, Alicia T. R., additional, Alignier, Audrey, additional, Andrews, Christopher, additional, Arlettaz, Raphaël, additional, Attorre, Fabio, additional, Axmanová, Irena, additional, Babbi, Manuel, additional, Baeten, Lander, additional, Baran, Jakub, additional, Barni, Elena, additional, Benito‐Alonso, José‐Luis, additional, Berg, Christian, additional, Bergamini, Ariel, additional, Berki, Imre, additional, Boch, Steffen, additional, Bock, Barbara, additional, Bode, Frank, additional, Bonari, Gianmaria, additional, Boublík, Karel, additional, Britton, Andrea J., additional, Brunet, Jörg, additional, Bruzzaniti, Vanessa, additional, Buholzer, Serge, additional, Burrascano, Sabina, additional, Campos, Juan A., additional, Carlsson, Bengt‐Göran, additional, Carranza, Maria Laura, additional, Černý, Tomáš, additional, Charmillot, Kévin, additional, Chiarucci, Alessandro, additional, Choler, Philippe, additional, Chytrý, Kryštof, additional, Corcket, Emmanuel, additional, Csecserits, Anikó, additional, Cutini, Maurizio, additional, Czarniecka‐Wiera, Marta, additional, Danihelka, Jiří, additional, de Francesco, Maria Carla, additional, De Frenne, Pieter, additional, Di Musciano, Michele, additional, De Sanctis, Michele, additional, Deák, Balázs, additional, Decocq, Guillaume, additional, Dembicz, Iwona, additional, Dengler, Jürgen, additional, Di Cecco, Valter, additional, Dick, Jan, additional, Diekmann, Martin, additional, Dierschke, Hartmut, additional, Dirnböck, Thomas, additional, Doerfler, Inken, additional, Doležal, Jiří, additional, Döring, Ute, additional, Durak, Tomasz, additional, Dwyer, Ciara, additional, Ejrnæs, Rasmus, additional, Ermakova, Inna, additional, Erschbamer, Brigitta, additional, Fanelli, Giuliano, additional, Fernández‐Calzado, María‐Rosa, additional, Fickert, Thomas, additional, Fischer, Andrea, additional, Fischer, Markus, additional, Foremnik, Kacper, additional, Frouz, Jan, additional, García‐González, Ricardo, additional, García‐Magro, Daniel, additional, García‐Mijangos, Itziar, additional, Gavilán, Rosario G., additional, Germ, Mateja, additional, Ghosn, Dany, additional, Gigauri, Khatuna, additional, Gizela, Jaroslav, additional, Golob, Aleksandra, additional, Golub, Valentin, additional, Gómez‐García, Daniel, additional, Gowing, David, additional, Grytnes, John‐Arvid, additional, Güler, Behlül, additional, Gutiérrez‐Girón, Alba, additional, Haase, Peter, additional, Haider, Sylvia, additional, Hájek, Michal, additional, Halassy, Melinda, additional, Harásek, Martin, additional, Härdtle, Werner, additional, Heinken, Thilo, additional, Hester, Alison, additional, Humbert, Jean‐Yves, additional, Ibáñez, Ricardo, additional, Illa, Estela, additional, Jaroszewicz, Bogdan, additional, Jensen, Kai, additional, Jentsch, Anke, additional, Jiroušek, Martin, additional, Kalníková, Veronika, additional, Kanka, Róbert, additional, Kapfer, Jutta, additional, Kazakis, George, additional, Kermavnar, Janez, additional, Kesting, Stefan, additional, Khanina, Larisa, additional, Kindermann, Elisabeth, additional, Kotrík, Marek, additional, Koutecký, Tomáš, additional, Kozub, Łukasz, additional, Kuhn, Gisbert, additional, Kutnar, Lado, additional, La Montagna, Dario, additional, Lamprecht, Andrea, additional, Lenoir, Jonathan, additional, Lepš, Jan, additional, Leuschner, Christoph, additional, Lorite, Juan, additional, Madsen, Bjarke, additional, Ugarte, Rosina Magaña, additional, Malicki, Marek, additional, Maliniemi, Tuija, additional, Máliš, František, additional, Maringer, Alexander, additional, Marrs, Robert, additional, Matesanz, Silvia, additional, Metze, Katrin, additional, Meyer, Stefan, additional, Millett, Jonathan, additional, Mitchell, Ruth J., additional, Moeslund, Jesper Erenskjold, additional, Moiseev, Pavel, additional, di Cella, Umberto Morra, additional, Mudrák, Ondřej, additional, Müller, Frank, additional, Müller, Norbert, additional, Naaf, Tobias, additional, Nagy, Laszlo, additional, Napoleone, Francesca, additional, Nascimbene, Juri, additional, Navrátilová, Jana, additional, Ninot, Josep M., additional, Niu, Yujie, additional, Normand, Signe, additional, Ogaya, Romá, additional, Onipchenko, Vladimir, additional, Orczewska, Anna, additional, Ortmann‐Ajkai, Adrienne, additional, Pakeman, Robin J., additional, Pardo, Iker, additional, Pätsch, Ricarda, additional, Peet, Robert K., additional, Penuelas, Josep, additional, Peppler‐Lisbach, Cord, additional, Pérez‐Hernández, Javier, additional, Pérez‐Haase, Aaron, additional, Petraglia, Alessandro, additional, Petřík, Petr, additional, Pielech, Remigiusz, additional, Piórkowski, Hubert, additional, Pladevall‐Izard, Eulàlia, additional, Poschlod, Peter, additional, Prach, Karel, additional, Praleskouskaya, Safiya, additional, Prokhorov, Vadim, additional, Provoost, Sam, additional, Pușcaș, Mihai, additional, Pustková, Štěpánka, additional, Randin, Christophe François, additional, Rašomavičius, Valerijus, additional, Reczyńska, Kamila, additional, Rédei, Tamás, additional, Řehounková, Klára, additional, Richner, Nina, additional, Risch, Anita C., additional, Rixen, Christian, additional, Rosbakh, Sergey, additional, Roscher, Christiane, additional, Rosenthal, Gert, additional, Rossi, Graziano, additional, Rötzer, Harald, additional, Roux, Camille, additional, Rumpf, Sabine B., additional, Ruprecht, Eszter, additional, Rūsiņa, Solvita, additional, Sanz‐Zubizarreta, Irati, additional, Schindler, Meret, additional, Schmidt, Wolfgang, additional, Schories, Dirk, additional, Schrautzer, Joachim, additional, Schubert, Hendrik, additional, Schuetz, Martin, additional, Schwabe, Angelika, additional, Schwaiger, Helena, additional, Schwartze, Peter, additional, Šebesta, Jan, additional, Seiler, Hallie, additional, Šilc, Urban, additional, Silva, Vasco, additional, Šmilauer, Petr, additional, Šmilauerová, Marie, additional, Sperle, Thomas, additional, Stachurska‐Swakoń, Alina, additional, Stanik, Nils, additional, Stanisci, Angela, additional, Steffen, Kristina, additional, Storm, Christian, additional, Stroh, Hans Georg, additional, Sugorkina, Nadezhda, additional, Świerkosz, Krzysztof, additional, Świerszcz, Sebastian, additional, Szymura, Magdalena, additional, Teleki, Balázs, additional, Thébaud, Gilles, additional, Theurillat, Jean‐Paul, additional, Tichý, Lubomír, additional, Treier, Urs A., additional, Turtureanu, Pavel Dan, additional, Ujházy, Karol, additional, Ujházyová, Mariana, additional, Ursu, Tudor Mihai, additional, Uziębło, Aldona K., additional, Valkó, Orsolya, additional, Van Calster, Hans, additional, Van Meerbeek, Koenraad, additional, Vandevoorde, Bart, additional, Vandvik, Vigdis, additional, Varricchione, Marco, additional, Vassilev, Kiril, additional, Villar, Luis, additional, Virtanen, Risto, additional, Vittoz, Pascal, additional, Voigt, Winfried, additional, von Hessberg, Andreas, additional, von Oheimb, Goddert, additional, Wagner, Eva, additional, Walther, Gian‐Reto, additional, Wellstein, Camilla, additional, Wesche, Karsten, additional, Wilhelm, Markus, additional, Willner, Wolfgang, additional, Wipf, Sonja, additional, Wittig, Burghard, additional, Wohlgemuth, Thomas, additional, Woodcock, Ben A., additional, Wulf, Monika, additional, and Essl, Franz, additional
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- 2024
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18. Mycorrhizal status is a poor predictor of the distribution of herbaceous species along the gradient of soil nutrient availability in coastal and grassland habitats
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Bitomský, Martin, Pakeman, Robin J., Schaefer, Hanno, Klimešová, Jitka, Rūsiņa, Solvita, Lososová, Zdeňka, Mládková, Pavla, and Duchoslav, Martin
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- 2021
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19. ReSurveyEurope:A database of resurveyed vegetation plots in Europe
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Knollová, Ilona, Chytrý, Milan, Bruelheide, Helge, Dullinger, Stefan, Jandt, Ute, Bernhardt-Römermann, Markus, Biurrun, Idoia, de Bello, Francesco, Glaser, Michael, Hennekens, Stephan, Jansen, Florian, Jiménez-Alfaro, Borja, Kadaš, Daniel, Kaplan, Ekin, Klinkovská, Klára, Lenzner, Bernd, Pauli, Harald, Sperandii, Marta Gaia, Verheyen, Kris, Winkler, Manuela, Abdaladze, Otar, Aćić, Svetlana, Acosta, Alicia T.R., Alignier, Audrey, Andrews, Christopher, Arlettaz, Raphaël, Attorre, Fabio, Axmanová, Irena, Babbi, Manuel, Baeten, Lander, Baran, Jakub, Barni, Elena, Benito-Alonso, José Luis, Berg, Christian, Bergamini, Ariel, Berki, Imre, Boch, Steffen, Bock, Barbara, Bode, Frank, Bonari, Gianmaria, Boublík, Karel, Britton, Andrea J., Brunet, Jörg, Bruzzaniti, Vanessa, Buholzer, Serge, Burrascano, Sabina, Campos, Juan A., Carlsson, Bengt Göran, Carranza, Maria Laura, Černý, Tomáš, Charmillot, Kévin, Chiarucci, Alessandro, Choler, Philippe, Chytrý, Kryštof, Corcket, Emmanuel, Csecserits, Anikó, Cutini, Maurizio, Czarniecka-Wiera, Marta, Danihelka, Jiří, de Francesco, Maria Carla, De Frenne, Pieter, Di Musciano, Michele, De Sanctis, Michele, Deák, Balázs, Decocq, Guillaume, Dembicz, Iwona, Dengler, Jürgen, Di Cecco, Valter, Dick, Jan, Diekmann, Martin, Dierschke, Hartmut, Dirnböck, Thomas, Doerfler, Inken, Doležal, Jiří, Döring, Ute, Durak, Tomasz, Dwyer, Ciara, Ejrnæs, Rasmus, Ermakova, Inna, Erschbamer, Brigitta, Fanelli, Giuliano, Fernández-Calzado, María Rosa, Fickert, Thomas, Fischer, Andrea, Fischer, Markus, Foremnik, Kacper, Frouz, Jan, García-González, Ricardo, García-Magro, Daniel, García-Mijangos, Itziar, Gavilán, Rosario G., Germ, Mateja, Ghosn, Dany, Gigauri, Khatuna, Gizela, Jaroslav, Golob, Aleksandra, Golub, Valentin, Gómez-García, Daniel, Gowing, David, Grytnes, John Arvid, Güler, Behlül, Gutiérrez-Girón, Alba, Haase, Peter, Haider, Sylvia, Hájek, Michal, Halassy, Melinda, Harásek, Martin, Härdtle, Werner, Heinken, Thilo, Hester, Alison, Humbert, Jean Yves, Ibáñez, Ricardo, Illa, Estela, Jaroszewicz, Bogdan, Jensen, Kai, Jentsch, Anke, Jiroušek, Martin, Kalníková, Veronika, Kanka, Róbert, Kapfer, Jutta, Kazakis, George, Kermavnar, Janez, Kesting, Stefan, Khanina, Larisa, Kindermann, Elisabeth, Kotrík, Marek, Koutecký, Tomáš, Kozub, Łukasz, Kuhn, Gisbert, Kutnar, Lado, La Montagna, Dario, Lamprecht, Andrea, Lenoir, Jonathan, Lepš, Jan, Leuschner, Christoph, Lorite, Juan, Madsen, Bjarke, Ugarte, Rosina Magaña, Malicki, Marek, Maliniemi, Tuija, Máliš, František, Maringer, Alexander, Marrs, Robert, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Millett, Jonathan, Mitchell, Ruth J., Moeslund, Jesper Erenskjold, Moiseev, Pavel, di Cella, Umberto Morra, Mudrák, Ondřej, Müller, Frank, Müller, Norbert, Naaf, Tobias, Nagy, Laszlo, Napoleone, Francesca, Nascimbene, Juri, Navrátilová, Jana, Ninot, Josep M., Niu, Yujie, Normand, Signe, Ogaya, Romá, Onipchenko, Vladimir, Orczewska, Anna, Ortmann-Ajkai, Adrienne, Pakeman, Robin J., Pardo, Iker, Pätsch, Ricarda, Peet, Robert K., Penuelas, Josep, Peppler-Lisbach, Cord, Pérez-Hernández, Javier, Pérez-Haase, Aaron, Petraglia, Alessandro, Petřík, Petr, Pielech, Remigiusz, Piórkowski, Hubert, Pladevall-Izard, Eulàlia, Poschlod, Peter, Prach, Karel, Praleskouskaya, Safiya, Prokhorov, Vadim, Provoost, Sam, Pușcaș, Mihai, Pustková, Štěpánka, Randin, Christophe François, Rašomavičius, Valerijus, Reczyńska, Kamila, Rédei, Tamás, Řehounková, Klára, Richner, Nina, Risch, Anita C., Rixen, Christian, Rosbakh, Sergey, Roscher, Christiane, Rosenthal, Gert, Rossi, Graziano, Rötzer, Harald, Roux, Camille, Rumpf, Sabine B., Ruprecht, Eszter, Rūsiņa, Solvita, Sanz-Zubizarreta, Irati, Schindler, Meret, Schmidt, Wolfgang, Schories, Dirk, Schrautzer, Joachim, Schubert, Hendrik, Schuetz, Martin, Schwabe, Angelika, Schwaiger, Helena, Schwartze, Peter, Šebesta, Jan, Seiler, Hallie, Šilc, Urban, Silva, Vasco, Šmilauer, Petr, Šmilauerová, Marie, Sperle, Thomas, Stachurska-Swakoń, Alina, Stanik, Nils, Stanisci, Angela, Steffen, Kristina, Storm, Christian, Stroh, Hans Georg, Sugorkina, Nadezhda, Świerkosz, Krzysztof, Świerszcz, Sebastian, Szymura, Magdalena, Teleki, Balázs, Thébaud, Gilles, Theurillat, Jean Paul, Tichý, Lubomír, Treier, Urs A., Turtureanu, Pavel Dan, Ujházy, Karol, Ujházyová, Mariana, Ursu, Tudor Mihai, Uziębło, Aldona K., Valkó, Orsolya, Van Calster, Hans, Van Meerbeek, Koenraad, Vandevoorde, Bart, Vandvik, Vigdis, Varricchione, Marco, Vassilev, Kiril, Villar, Luis, Virtanen, Risto, Vittoz, Pascal, Voigt, Winfried, von Hessberg, Andreas, von Oheimb, Goddert, Wagner, Eva, Walther, Gian Reto, Wellstein, Camilla, Wesche, Karsten, Wilhelm, Markus, Willner, Wolfgang, Wipf, Sonja, Wittig, Burghard, Wohlgemuth, Thomas, Woodcock, Ben A., Wulf, Monika, Essl, Franz, Knollová, Ilona, Chytrý, Milan, Bruelheide, Helge, Dullinger, Stefan, Jandt, Ute, Bernhardt-Römermann, Markus, Biurrun, Idoia, de Bello, Francesco, Glaser, Michael, Hennekens, Stephan, Jansen, Florian, Jiménez-Alfaro, Borja, Kadaš, Daniel, Kaplan, Ekin, Klinkovská, Klára, Lenzner, Bernd, Pauli, Harald, Sperandii, Marta Gaia, Verheyen, Kris, Winkler, Manuela, Abdaladze, Otar, Aćić, Svetlana, Acosta, Alicia T.R., Alignier, Audrey, Andrews, Christopher, Arlettaz, Raphaël, Attorre, Fabio, Axmanová, Irena, Babbi, Manuel, Baeten, Lander, Baran, Jakub, Barni, Elena, Benito-Alonso, José Luis, Berg, Christian, Bergamini, Ariel, Berki, Imre, Boch, Steffen, Bock, Barbara, Bode, Frank, Bonari, Gianmaria, Boublík, Karel, Britton, Andrea J., Brunet, Jörg, Bruzzaniti, Vanessa, Buholzer, Serge, Burrascano, Sabina, Campos, Juan A., Carlsson, Bengt Göran, Carranza, Maria Laura, Černý, Tomáš, Charmillot, Kévin, Chiarucci, Alessandro, Choler, Philippe, Chytrý, Kryštof, Corcket, Emmanuel, Csecserits, Anikó, Cutini, Maurizio, Czarniecka-Wiera, Marta, Danihelka, Jiří, de Francesco, Maria Carla, De Frenne, Pieter, Di Musciano, Michele, De Sanctis, Michele, Deák, Balázs, Decocq, Guillaume, Dembicz, Iwona, Dengler, Jürgen, Di Cecco, Valter, Dick, Jan, Diekmann, Martin, Dierschke, Hartmut, Dirnböck, Thomas, Doerfler, Inken, Doležal, Jiří, Döring, Ute, Durak, Tomasz, Dwyer, Ciara, Ejrnæs, Rasmus, Ermakova, Inna, Erschbamer, Brigitta, Fanelli, Giuliano, Fernández-Calzado, María Rosa, Fickert, Thomas, Fischer, Andrea, Fischer, Markus, Foremnik, Kacper, Frouz, Jan, García-González, Ricardo, García-Magro, Daniel, García-Mijangos, Itziar, Gavilán, Rosario G., Germ, Mateja, Ghosn, Dany, Gigauri, Khatuna, Gizela, Jaroslav, Golob, Aleksandra, Golub, Valentin, Gómez-García, Daniel, Gowing, David, Grytnes, John Arvid, Güler, Behlül, Gutiérrez-Girón, Alba, Haase, Peter, Haider, Sylvia, Hájek, Michal, Halassy, Melinda, Harásek, Martin, Härdtle, Werner, Heinken, Thilo, Hester, Alison, Humbert, Jean Yves, Ibáñez, Ricardo, Illa, Estela, Jaroszewicz, Bogdan, Jensen, Kai, Jentsch, Anke, Jiroušek, Martin, Kalníková, Veronika, Kanka, Róbert, Kapfer, Jutta, Kazakis, George, Kermavnar, Janez, Kesting, Stefan, Khanina, Larisa, Kindermann, Elisabeth, Kotrík, Marek, Koutecký, Tomáš, Kozub, Łukasz, Kuhn, Gisbert, Kutnar, Lado, La Montagna, Dario, Lamprecht, Andrea, Lenoir, Jonathan, Lepš, Jan, Leuschner, Christoph, Lorite, Juan, Madsen, Bjarke, Ugarte, Rosina Magaña, Malicki, Marek, Maliniemi, Tuija, Máliš, František, Maringer, Alexander, Marrs, Robert, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Millett, Jonathan, Mitchell, Ruth J., Moeslund, Jesper Erenskjold, Moiseev, Pavel, di Cella, Umberto Morra, Mudrák, Ondřej, Müller, Frank, Müller, Norbert, Naaf, Tobias, Nagy, Laszlo, Napoleone, Francesca, Nascimbene, Juri, Navrátilová, Jana, Ninot, Josep M., Niu, Yujie, Normand, Signe, Ogaya, Romá, Onipchenko, Vladimir, Orczewska, Anna, Ortmann-Ajkai, Adrienne, Pakeman, Robin J., Pardo, Iker, Pätsch, Ricarda, Peet, Robert K., Penuelas, Josep, Peppler-Lisbach, Cord, Pérez-Hernández, Javier, Pérez-Haase, Aaron, Petraglia, Alessandro, Petřík, Petr, Pielech, Remigiusz, Piórkowski, Hubert, Pladevall-Izard, Eulàlia, Poschlod, Peter, Prach, Karel, Praleskouskaya, Safiya, Prokhorov, Vadim, Provoost, Sam, Pușcaș, Mihai, Pustková, Štěpánka, Randin, Christophe François, Rašomavičius, Valerijus, Reczyńska, Kamila, Rédei, Tamás, Řehounková, Klára, Richner, Nina, Risch, Anita C., Rixen, Christian, Rosbakh, Sergey, Roscher, Christiane, Rosenthal, Gert, Rossi, Graziano, Rötzer, Harald, Roux, Camille, Rumpf, Sabine B., Ruprecht, Eszter, Rūsiņa, Solvita, Sanz-Zubizarreta, Irati, Schindler, Meret, Schmidt, Wolfgang, Schories, Dirk, Schrautzer, Joachim, Schubert, Hendrik, Schuetz, Martin, Schwabe, Angelika, Schwaiger, Helena, Schwartze, Peter, Šebesta, Jan, Seiler, Hallie, Šilc, Urban, Silva, Vasco, Šmilauer, Petr, Šmilauerová, Marie, Sperle, Thomas, Stachurska-Swakoń, Alina, Stanik, Nils, Stanisci, Angela, Steffen, Kristina, Storm, Christian, Stroh, Hans Georg, Sugorkina, Nadezhda, Świerkosz, Krzysztof, Świerszcz, Sebastian, Szymura, Magdalena, Teleki, Balázs, Thébaud, Gilles, Theurillat, Jean Paul, Tichý, Lubomír, Treier, Urs A., Turtureanu, Pavel Dan, Ujházy, Karol, Ujházyová, Mariana, Ursu, Tudor Mihai, Uziębło, Aldona K., Valkó, Orsolya, Van Calster, Hans, Van Meerbeek, Koenraad, Vandevoorde, Bart, Vandvik, Vigdis, Varricchione, Marco, Vassilev, Kiril, Villar, Luis, Virtanen, Risto, Vittoz, Pascal, Voigt, Winfried, von Hessberg, Andreas, von Oheimb, Goddert, Wagner, Eva, Walther, Gian Reto, Wellstein, Camilla, Wesche, Karsten, Wilhelm, Markus, Willner, Wolfgang, Wipf, Sonja, Wittig, Burghard, Wohlgemuth, Thomas, Woodcock, Ben A., Wulf, Monika, and Essl, Franz
- Abstract
Aims: We introduce ReSurveyEurope — a new data source of resurveyed vegetation plots in Europe, compiled by a collaborative network of vegetation scientists. We describe the scope of this initiative, provide an overview of currently available data, governance, data contribution rules, and accessibility. In addition, we outline further steps, including potential research questions. Results: ReSurveyEurope includes resurveyed vegetation plots from all habitats. Version 1.0 of ReSurveyEurope contains 283,135 observations (i.e., individual surveys of each plot) from 79,190 plots sampled in 449 independent resurvey projects. Of these, 62,139 (78%) are permanent plots, that is, marked in situ, or located with GPS, which allow for high spatial accuracy in resurvey. The remaining 17,051 (22%) plots are from studies in which plots from the initial survey could not be exactly relocated. Four data sets, which together account for 28,470 (36%) plots, provide only presence/absence information on plant species, while the remaining 50,720 (64%) plots contain abundance information (e.g., percentage cover or cover–abundance classes such as variants of the Braun-Blanquet scale). The oldest plots were sampled in 1911 in the Swiss Alps, while most plots were sampled between 1950 and 2020. Conclusions: ReSurveyEurope is a new resource to address a wide range of research questions on fine-scale changes in European vegetation. The initiative is devoted to an inclusive and transparent governance and data usage approach, based on slightly adapted rules of the well-established European Vegetation Archive (EVA). ReSurveyEurope data are ready for use, and proposals for analyses of the data set can be submitted at any time to the coordinators. Still, further data contributions are highly welcome.
- Published
- 2024
20. ReSurveyEurope: a database of resurveyed vegetation plots in Europe
- Author
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Knollová, Ilona, Chytrý, Milan, Bruelheide, Helge, Dullinger, Stefan, Jandt, Ute, Bernhardt‐Römermann, Markus, Biurrun, Idoia, de Bello, Francesco, Glaser, Michael, Hennekens, Stephan, Jansen, Florian, Jiménez‐Alfaro, Borja, Kadaš, Daniel, Kaplan, Ekin, Klinkovská, Klára, Lenzner, Bernd, Pauli, Harald, Sperandii, Marta Gaia, Verheyen, Kris, Winkler, Manuela, Abdaladze, Otar, Aćić, Svetlana, Acosta, Alicia T.R., Alignier, Audrey, Andrews, Christopher, Arlettaz, Raphaël, Attorre, Fabio, Axmanová, Irena, Babbi, Manuel, Baeten, Lander, Baran, Jakub, Barni, Elena, Benito‐Alonso, José‐Luis, Berg, Christian, Bergamini, Ariel, Berki, Imre, Boch, Steffen, Bock, Barbara, Bode, Frank, Bonari, Gianmaria, Boublík, Karel, Britton, Andrea J., Brunet, Jörg, Bruzzaniti, Vanessa, Buholzer, Serge, Burrascano, Sabina, Campos, Juan A., Carlsson, Bengt‐Göran, Carranza, Maria Laura, Černý, Tomáš, Charmillot, Kévin, Chiarucci, Alessandro, Choler, Philippe, Chytrý, Kryštof, Corcket, Emmanuel, Csecserits, Anikó, Cutini, Maurizio, Czarniecka‐Wiera, Marta, Danihelka, Jiří, de Francesco, Maria Carla, De Frenne, Pieter, Di Musciano, Michele, De Sanctis, Michele, Deák, Balázs, Decocq, Guillaume, Dembicz, Iwona, Dengler, Jürgen, Di Cecco, Valter, Dick, Jan, Diekmann, Martin, Dierschke, Hartmut, Dirnböck, Thomas, Doerfler, Inken, Doležal, Jiří, Döring, Ute, Durak, Tomasz, Dwyer, Ciara, Ejrnæs, Rasmus, Ermakova, Inna, Erschbamer, Brigitta, Fanelli, Giuliano, Fernández‐Calzado, María‐Rosa, Fickert, Thomas, Fischer, Andrea, Fischer, Markus, Foremnik, Kacper, Frouz, Jan, García‐González, Ricardo, García‐Magro, Daniel, García‐Mijangos, Itziar, Gavilán, Rosario G., Germ, Mateja, Ghosn, Dany, Gigauri, Khatuna, Gizela, Jaroslav, Golob, Aleksandra, Golub, Valentin, Gómez‐García, Daniel, Gowing, David, Grytnes, John‐Arvid, Güler, Behlül, Gutiérrez‐Girón, Alba, Haase, Peter, Haider, Sylvia, Hájek, Michal, Halassy, Melinda, Harásek, Martin, Härdtle, Werner, Heinken, Thilo, Hester, Alison, Humbert, Jean‐Yves, Ibáñez, Ricardo, Illa, Estela, Jaroszewicz, Bogdan, Jensen, Kai, Jentsch, Anke, Jiroušek, Martin, Kalníková, Veronika, Kanka, Róbert, Kapfer, Jutta, Kazakis, George, Kermavnar, Janez, Kesting, Stefan, Khanina, Larisa, Kindermann, Elisabeth, Kotrík, Marek, Koutecký, Tomáš, Kozub, Łukasz, Kuhn, Gisbert, Kutnar, Lado, La Montagna, Dario, Lamprecht, Andrea, Lenoir, Jonathan, Lepš, Jan, Leuschner, Christoph, Lorite, Juan, Madsen, Bjarke, Ugarte, Rosina Magaña, Malicki, Marek, Maliniemi, Tuija, Máliš, František, Maringer, Alexander, Marrs, Robert, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Millett, Jonathan, Mitchell, Ruth J., Moeslund, Jesper Erenskjold, Moiseev, Pavel, di Cella, Umberto Morra, Mudrák, Ondřej, Müller, Frank, Müller, Norbert, Naaf, Tobias, Nagy, Laszlo, Napoleone, Francesca, Nascimbene, Juri, Navrátilová, Jana, Ninot, Josep M., Niu, Yujie, Normand, Signe, Ogaya, Romá, Onipchenko, Vladimir, Orczewska, Anna, Ortmann‐Ajkai, Adrienne, Pakeman, Robin J., Pardo, Iker, Pätsch, Ricarda, Peet, Robert K., Penuelas, Josep, Peppler‐Lisbach, Cord, Pérez‐Hernández, Javier, Pérez‐Haase, Aaron, Petraglia, Alessandro, Petřík, Petr, Pielech, Remigiusz, Piórkowski, Hubert, Pladevall‐Izard, Eulàlia, Poschlod, Peter, Prach, Karel, Praleskouskaya, Safiya, Prokhorov, Vadim, Provoost, Sam, Pușcaș, Mihai, Pustková, Štěpánka, Randin, Christophe François, Rašomavičius, Valerijus, Reczyńska, Kamila, Rédei, Tamás, Řehounková, Klára, Richner, Nina, Risch, Anita C., Rixen, Christian, Rosbakh, Sergey, Roscher, Christiane, Rosenthal, Gert, Rossi, Graziano, Rötzer, Harald, Roux, Camille, Rumpf, Sabine B., Ruprecht, Eszter, Rūsiņa, Solvita, Sanz‐Zubizarreta, Irati, Schindler, Meret, Schmidt, Wolfgang, Schories, Dirk, Schrautzer, Joachim, Schubert, Hendrik, Schuetz, Martin, Schwabe, Angelika, Schwaiger, Helena, Schwartze, Peter, Šebesta, Jan, Seiler, Hallie, Šilc, Urban, Silva, Vasco, Šmilauer, Petr, Šmilauerová, Marie, Sperle, Thomas, Stachurska‐Swakoń, Alina, Stanik, Nils, Stanisci, Angela, Steffen, Kristina, Storm, Christian, Stroh, Hans Georg, Sugorkina, Nadezhda, Świerkosz, Krzysztof, Świerszcz, Sebastian, Szymura, Magdalena, Teleki, Balázs, Thébaud, Gilles, Theurillat, Jean‐Paul, Tichý, Lubomír, Treier, Urs A., Turtureanu, Pavel Dan, Ujházy, Karol, Ujházyová, Mariana, Ursu, Tudor Mihai, Uziębło, Aldona K., Valkó, Orsolya, Van Calster, Hans, Van Meerbeek, Koenraad, Vandevoorde, Bart, Vandvik, Vigdis, Varricchione, Marco, Vassilev, Kiril, Villar, Luis, Virtanen, Risto, Vittoz, Pascal, Voigt, Winfried, von Hessberg, Andreas, von Oheimb, Goddert, Wagner, Eva, Walther, Gian‐Reto, Wellstein, Camilla, Wesche, Karsten, Wilhelm, Markus, Willner, Wolfgang, Wipf, Sonja, Wittig, Burghard, Wohlgemuth, Thomas, Woodcock, Ben A., Wulf, Monika, Essl, Franz, Knollová, Ilona, Chytrý, Milan, Bruelheide, Helge, Dullinger, Stefan, Jandt, Ute, Bernhardt‐Römermann, Markus, Biurrun, Idoia, de Bello, Francesco, Glaser, Michael, Hennekens, Stephan, Jansen, Florian, Jiménez‐Alfaro, Borja, Kadaš, Daniel, Kaplan, Ekin, Klinkovská, Klára, Lenzner, Bernd, Pauli, Harald, Sperandii, Marta Gaia, Verheyen, Kris, Winkler, Manuela, Abdaladze, Otar, Aćić, Svetlana, Acosta, Alicia T.R., Alignier, Audrey, Andrews, Christopher, Arlettaz, Raphaël, Attorre, Fabio, Axmanová, Irena, Babbi, Manuel, Baeten, Lander, Baran, Jakub, Barni, Elena, Benito‐Alonso, José‐Luis, Berg, Christian, Bergamini, Ariel, Berki, Imre, Boch, Steffen, Bock, Barbara, Bode, Frank, Bonari, Gianmaria, Boublík, Karel, Britton, Andrea J., Brunet, Jörg, Bruzzaniti, Vanessa, Buholzer, Serge, Burrascano, Sabina, Campos, Juan A., Carlsson, Bengt‐Göran, Carranza, Maria Laura, Černý, Tomáš, Charmillot, Kévin, Chiarucci, Alessandro, Choler, Philippe, Chytrý, Kryštof, Corcket, Emmanuel, Csecserits, Anikó, Cutini, Maurizio, Czarniecka‐Wiera, Marta, Danihelka, Jiří, de Francesco, Maria Carla, De Frenne, Pieter, Di Musciano, Michele, De Sanctis, Michele, Deák, Balázs, Decocq, Guillaume, Dembicz, Iwona, Dengler, Jürgen, Di Cecco, Valter, Dick, Jan, Diekmann, Martin, Dierschke, Hartmut, Dirnböck, Thomas, Doerfler, Inken, Doležal, Jiří, Döring, Ute, Durak, Tomasz, Dwyer, Ciara, Ejrnæs, Rasmus, Ermakova, Inna, Erschbamer, Brigitta, Fanelli, Giuliano, Fernández‐Calzado, María‐Rosa, Fickert, Thomas, Fischer, Andrea, Fischer, Markus, Foremnik, Kacper, Frouz, Jan, García‐González, Ricardo, García‐Magro, Daniel, García‐Mijangos, Itziar, Gavilán, Rosario G., Germ, Mateja, Ghosn, Dany, Gigauri, Khatuna, Gizela, Jaroslav, Golob, Aleksandra, Golub, Valentin, Gómez‐García, Daniel, Gowing, David, Grytnes, John‐Arvid, Güler, Behlül, Gutiérrez‐Girón, Alba, Haase, Peter, Haider, Sylvia, Hájek, Michal, Halassy, Melinda, Harásek, Martin, Härdtle, Werner, Heinken, Thilo, Hester, Alison, Humbert, Jean‐Yves, Ibáñez, Ricardo, Illa, Estela, Jaroszewicz, Bogdan, Jensen, Kai, Jentsch, Anke, Jiroušek, Martin, Kalníková, Veronika, Kanka, Róbert, Kapfer, Jutta, Kazakis, George, Kermavnar, Janez, Kesting, Stefan, Khanina, Larisa, Kindermann, Elisabeth, Kotrík, Marek, Koutecký, Tomáš, Kozub, Łukasz, Kuhn, Gisbert, Kutnar, Lado, La Montagna, Dario, Lamprecht, Andrea, Lenoir, Jonathan, Lepš, Jan, Leuschner, Christoph, Lorite, Juan, Madsen, Bjarke, Ugarte, Rosina Magaña, Malicki, Marek, Maliniemi, Tuija, Máliš, František, Maringer, Alexander, Marrs, Robert, Matesanz, Silvia, Metze, Katrin, Meyer, Stefan, Millett, Jonathan, Mitchell, Ruth J., Moeslund, Jesper Erenskjold, Moiseev, Pavel, di Cella, Umberto Morra, Mudrák, Ondřej, Müller, Frank, Müller, Norbert, Naaf, Tobias, Nagy, Laszlo, Napoleone, Francesca, Nascimbene, Juri, Navrátilová, Jana, Ninot, Josep M., Niu, Yujie, Normand, Signe, Ogaya, Romá, Onipchenko, Vladimir, Orczewska, Anna, Ortmann‐Ajkai, Adrienne, Pakeman, Robin J., Pardo, Iker, Pätsch, Ricarda, Peet, Robert K., Penuelas, Josep, Peppler‐Lisbach, Cord, Pérez‐Hernández, Javier, Pérez‐Haase, Aaron, Petraglia, Alessandro, Petřík, Petr, Pielech, Remigiusz, Piórkowski, Hubert, Pladevall‐Izard, Eulàlia, Poschlod, Peter, Prach, Karel, Praleskouskaya, Safiya, Prokhorov, Vadim, Provoost, Sam, Pușcaș, Mihai, Pustková, Štěpánka, Randin, Christophe François, Rašomavičius, Valerijus, Reczyńska, Kamila, Rédei, Tamás, Řehounková, Klára, Richner, Nina, Risch, Anita C., Rixen, Christian, Rosbakh, Sergey, Roscher, Christiane, Rosenthal, Gert, Rossi, Graziano, Rötzer, Harald, Roux, Camille, Rumpf, Sabine B., Ruprecht, Eszter, Rūsiņa, Solvita, Sanz‐Zubizarreta, Irati, Schindler, Meret, Schmidt, Wolfgang, Schories, Dirk, Schrautzer, Joachim, Schubert, Hendrik, Schuetz, Martin, Schwabe, Angelika, Schwaiger, Helena, Schwartze, Peter, Šebesta, Jan, Seiler, Hallie, Šilc, Urban, Silva, Vasco, Šmilauer, Petr, Šmilauerová, Marie, Sperle, Thomas, Stachurska‐Swakoń, Alina, Stanik, Nils, Stanisci, Angela, Steffen, Kristina, Storm, Christian, Stroh, Hans Georg, Sugorkina, Nadezhda, Świerkosz, Krzysztof, Świerszcz, Sebastian, Szymura, Magdalena, Teleki, Balázs, Thébaud, Gilles, Theurillat, Jean‐Paul, Tichý, Lubomír, Treier, Urs A., Turtureanu, Pavel Dan, Ujházy, Karol, Ujházyová, Mariana, Ursu, Tudor Mihai, Uziębło, Aldona K., Valkó, Orsolya, Van Calster, Hans, Van Meerbeek, Koenraad, Vandevoorde, Bart, Vandvik, Vigdis, Varricchione, Marco, Vassilev, Kiril, Villar, Luis, Virtanen, Risto, Vittoz, Pascal, Voigt, Winfried, von Hessberg, Andreas, von Oheimb, Goddert, Wagner, Eva, Walther, Gian‐Reto, Wellstein, Camilla, Wesche, Karsten, Wilhelm, Markus, Willner, Wolfgang, Wipf, Sonja, Wittig, Burghard, Wohlgemuth, Thomas, Woodcock, Ben A., Wulf, Monika, and Essl, Franz
- Abstract
•Aims: We introduce ReSurveyEurope — a new data source of resurveyed vegetation plots in Europe, compiled by a collaborative network of vegetation scientists. We describe the scope of this initiative, provide an overview of currently available data, governance, data contribution rules, and accessibility. In addition, we outline further steps, including potential research questions. •Results: ReSurveyEurope includes resurveyed vegetation plots from all habitats. Version 1.0 of ReSurveyEurope contains 283,135 observations (i.e., individual surveys of each plot) from 79,190 plots sampled in 449 independent resurvey projects. Of these, 62,139 (78%) are permanent plots, that is, marked in situ, or located with GPS, which allow for high spatial accuracy in resurvey. The remaining 17,051 (22%) plots are from studies in which plots from the initial survey could not be exactly relocated. Four data sets, which together account for 28,470 (36%) plots, provide only presence/absence information on plant species, while the remaining 50,720 (64%) plots contain abundance information (e.g., percentage cover or cover–abundance classes such as variants of the Braun-Blanquet scale). The oldest plots were sampled in 1911 in the Swiss Alps, while most plots were sampled between 1950 and 2020. •Conclusions: ReSurveyEurope is a new resource to address a wide range of research questions on fine-scale changes in European vegetation. The initiative is devoted to an inclusive and transparent governance and data usage approach, based on slightly adapted rules of the well-established European Vegetation Archive (EVA). ReSurveyEurope data are ready for use, and proposals for analyses of the data set can be submitted at any time to the coordinators. Still, further data contributions are highly welcome.
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- 2024
21. Grazing effects on vegetation: Biodiversity, management, and restoration.
- Author
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Török, Péter, Lindborg, Regina, Eldridge, David, and Pakeman, Robin
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RANGE management ,NATURE reserves ,CARBON sequestration ,BIOMASS production ,VEGETATION patterns ,GRAZING ,TRADITIONAL ecological knowledge - Abstract
In many regions, wild large herbivores have maintained open landscapes up to and including historic times, but, more recently, have been largely replaced by domestic livestock. By employing extensive and traditional grazing and browsing regimes, conservation actions support biodiversity and recovery in natural and degraded areas. However, grazing also plays other important ecological roles, for example, in the maintenance and/or recovery of important ecosystem services, such as biomass production and carbon sequestration. Understanding herbivore effects on plant composition and functional diversity, and ecosystem functioning and services, is essential for informing ecological theory and practice. The current Special Issue highlights that the effects of grazing on vegetation are strongly context‐dependent. The articles identify at least three major factors acting in concert, which are responsible for contrasting diversity and functional patterns of vegetation subjected to herbivores: (i) herbivore identity; (ii) grazing intensity; and (iii) vegetation type. Insights from this Special Issue imply that long‐term experiments across different habitat types and in underrepresented regions are needed to provide valuable information for grazing planning and management. They also demonstrate that integrating indigenous and traditional ecological knowledge, and considering socio‐economic contexts, can provide opportunities for improving sustainable grazing management. [ABSTRACT FROM AUTHOR]
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- 2024
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22. Host resources and parasite traits interact to determine the optimal combination of host parasite‐mitigation strategies.
- Author
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Dean, Andrew D., Childs, Dylan Z., Corripio‐Miyar, Yolanda, Evans, Mike, Hayward, Adam, Kenyon, Fiona, McNally, Luke, McNeilly, Tom N., Pakeman, Robin J., Sweeny, Amy R., Nussey, Daniel H., Pedersen, Amy B., and Fenton, Andy
- Subjects
HELMINTHIASIS ,BIOLOGICAL fitness ,NUTRITIONAL status ,PARASITES ,HELMINTHS ,RESOURCE allocation ,IMMUNE response - Abstract
Organisms have evolved diverse strategies to manage parasite infections. Broadly, hosts may avoid infection by altering behaviour, resist infection by targeting parasites or tolerate infection by repairing associated damage. The effectiveness of a strategy depends on interactions between, for example, resource availability, parasite traits (virulence, life‐history) and the host itself (nutritional status, immunopathology). To understand how these factors shape host parasite‐mitigation strategies, we developed a mathematical model of within‐host, parasite‐immune dynamics in the context of helminth infections. The model incorporated host nutrition and resource allocation to different mechanisms of immune response: larval parasite prevention; adult parasite clearance; damage repair (tolerance). We also considered a non‐immune strategy: avoidance via anorexia, reducing intake of infective stages. Resources not allocated to immune processes promoted host condition, whereas harm due to parasites and immunopathology diminished it. Maximising condition (a proxy for fitness), we determined optimal host investment for each parasite‐mitigation strategy, singly and combined, across different environmental resource levels and parasite trait values. Which strategy was optimal varied with scenario. Tolerance generally performed well, especially with high resources. Success of the different resistance strategies (larval prevention or adult clearance) tracked relative virulence of larval and adult parasites: slowly maturing, highly damaging larvae favoured prevention; rapidly maturing, less harmful larvae favoured clearance. Anorexia was viable only in the short term, due to reduced host nutrition. Combined strategies always outperformed any lone strategy: these were dominated by tolerance, with some investment in resistance. Choice of parasite mitigation strategy has profound consequences for hosts, impacting their condition, survival and reproductive success. We show that the efficacy of different strategies is highly dependent on timescale, parasite traits and resource availability. Models that integrate such factors can inform the collection and interpretation of empirical data, to understand how those drivers interact to shape host immune responses in natural systems. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Disparities between plant community responses to nitrogen deposition and critical loads in UK semi-natural habitats
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Payne, Richard J., Campbell, Claire, Stevens, Carly J., Pakeman, Robin J., Ross, Louise C., Britton, Andrea J., Mitchell, Ruth J., Jones, Laurence, Field, Christopher, Caporn, Simon J.M., Carroll, Jacky, Edmondson, Jill L., Carnell, Ed J., Tomlinson, Sam, Dore, Anthony, Dragosits, Ulrike, and Dise, Nancy B.
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- 2020
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24. Wildfire impacts on seedbank and vegetation dynamics in Calluna heath
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Naszarkowski, Noemi, primary, Woodin, Sarah, additional, Hester, Alison, additional, Ross, Louise, additional, and Pakeman, Robin, additional
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- 2024
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25. Factors Affecting Severity of Wildfires in Scottish Uplands
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Naszarkowski, Noemi A. L., primary, Cornulier, Thomas, additional, Woodin, Sarah J., additional, Ross, Louise C., additional, Hester, Alison J., additional, and Pakeman, Robin J., additional
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- 2024
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- View/download PDF
26. Measured estimates of semi-natural terrestrial NPP in Great Britain : comparison with modelled values, and dependence on atmospheric nitrogen deposition
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Tipping, Edward, Davies, Jessica A. C., Henrys, Peter A., Jarvis, Susan G., Rowe, Edwin C., Smart, Simon M., Le Duc, Michael G., Marrs, Robert H., and Pakeman, Robin J.
- Published
- 2019
27. Global patterns of potential future plant diversity hidden in soil seed banks
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Yang, Xuejun, Baskin, Carol C., Baskin, Jerry M., Pakeman, Robin J., Huang, Zhenying, Gao, Ruiru, and Cornelissen, Johannes H. C.
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- 2021
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28. Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts
- Author
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Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Universidades (España), European Commission, Junta de Andalucía, Fundación Biodiversidad, Belgian American Educational Foundation, Research Foundation - Flanders, European Agricultural Fund for Rural Development, Czech Science Foundation, Academy of Sciences of the Czech Republic, National Science Foundation (US), National Institute of Food and Agriculture (US), DePaul University, Huron Mountain Wildlife Foundation, Ochoa-Hueso, Raúl [0000-0002-1839-6926], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Britton, A.J. [0000-0002-0603-7432], Camarero, Jesús Julio [0000-0003-2436-2922], Earl, Stevan [0000-0002-4465-452X], Epstein, Howard [0000-0003-2817-4486], Felton, Andrew [0000-0002-1533-6071], Halde, Caroline [0000-0002-4974-1411], Hanslin, Hans M. [0000-0002-3224-2368], Harris, Lorna I. [0000-0002-2637-4030], Hartsock, Jeremy [0000-0002-0468-2630], Hovstad, Knut Anders [0000-0002-7108-0787], Khalsa, Sat Darshan S. [0000-0003-1995-2469], LaMontagne, Jalene M. [0000-0001-7713-8591], Lavergne, Stéphanie [0000-0002-7197-107X], Littke, Kim [0000-0002-0187-1663], Licht, Mark A. [0000-0001-6640-7856], McDaniel, Marshall D. [0000-0001-6267-7293], McIntosh, Anne C. S. [0000-0002-7802-2205], Miesel, Jessica R. [0000-0001-7446-464X], Moreno, Gerardo [0000-0001-8053-2696], Pakeman, Robin J. [0000-0001-6248-4133], Pinno, Bradley D., Piñeiro, Juan [0000-0002-0825-4174], Rolo, Víctor [0000-0001-5854-9512], Rutherford, P. Michael [0000-0002-5065-7700], Sayer, Emma J. [0000-0002-3322-4487], Van Sundert, Kevin [0000-0001-6180-3075], Vitkova, Michaela [0000-0002-2848-7725], Weigel, R. [0000-0001-9685-6783], Wilton, Meaghan [0000-0003-2915-3863], Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Risch, Anita C., Ashton, Louise, Augustine, David, Bélanger, Nicolas, Bridgham, Scott, Britton, A.J., Bruckman, Viktor J., Camarero, Jesús Julio, Cornelissen, Gerard, Crawford John A., Dijkstra, Feike A., Diochon, Amanda, Earl, Stevan, Edgerley, James, Epstein, Howard, Felton, Andrew, Fortier, Julien, Gagnon, Daniel, Greer, Ken, Griffiths, Hannah M, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hendrickson, Paul, Hovstad, Knut Anders, Hu, Jia, Jani. Arun D., Kent, Kelcy, Kerdraon-Byrne, Deirdre, Khalsa, Sat Darshan S., Lai, Derrick Y. F., Lambert, France, LaMontagne, Jalene M., Lavergne, Stéphanie, Lawrence. Beth A., Littke, Kim, Leeper, Abigail C., Licht, Mark A., Liebig, Mark A., Lynn, Joshua S., Maclean, Janet E., Martinsen, Vegard, McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Miller, Jim, Mulvaney, Michael J., Moreno, Gerardo, Newstead, Laura, Pakeman, Robin J., Pergl, Jan, Piñeiro, Juan, Quigley, Kathleen, Radtke, Troy M., Reed, Paul, Rolo, Víctor, Rudgers, Jennifer, Rutherford, P. Michael, Sayer, Emma J., Serrano-Grijalva, Lilia, Strack, Maria, Sukdeo, Nicole, Taylor, Andy F. S., Truax, Benoit, Tsuji, Leonard J. S., Van Gestel, Natasja, Vaness, Brenda M., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., Wilton, Meaghan, Yano, Yuriko, Teen, Ewing, Bremer, Eric, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Universidades (España), European Commission, Junta de Andalucía, Fundación Biodiversidad, Belgian American Educational Foundation, Research Foundation - Flanders, European Agricultural Fund for Rural Development, Czech Science Foundation, Academy of Sciences of the Czech Republic, National Science Foundation (US), National Institute of Food and Agriculture (US), DePaul University, Huron Mountain Wildlife Foundation, Ochoa-Hueso, Raúl [0000-0002-1839-6926], Delgado-Baquerizo, Manuel [0000-0002-6499-576X], Britton, A.J. [0000-0002-0603-7432], Camarero, Jesús Julio [0000-0003-2436-2922], Earl, Stevan [0000-0002-4465-452X], Epstein, Howard [0000-0003-2817-4486], Felton, Andrew [0000-0002-1533-6071], Halde, Caroline [0000-0002-4974-1411], Hanslin, Hans M. [0000-0002-3224-2368], Harris, Lorna I. [0000-0002-2637-4030], Hartsock, Jeremy [0000-0002-0468-2630], Hovstad, Knut Anders [0000-0002-7108-0787], Khalsa, Sat Darshan S. [0000-0003-1995-2469], LaMontagne, Jalene M. [0000-0001-7713-8591], Lavergne, Stéphanie [0000-0002-7197-107X], Littke, Kim [0000-0002-0187-1663], Licht, Mark A. [0000-0001-6640-7856], McDaniel, Marshall D. [0000-0001-6267-7293], McIntosh, Anne C. S. [0000-0002-7802-2205], Miesel, Jessica R. [0000-0001-7446-464X], Moreno, Gerardo [0000-0001-8053-2696], Pakeman, Robin J. [0000-0001-6248-4133], Pinno, Bradley D., Piñeiro, Juan [0000-0002-0825-4174], Rolo, Víctor [0000-0001-5854-9512], Rutherford, P. Michael [0000-0002-5065-7700], Sayer, Emma J. [0000-0002-3322-4487], Van Sundert, Kevin [0000-0001-6180-3075], Vitkova, Michaela [0000-0002-2848-7725], Weigel, R. [0000-0001-9685-6783], Wilton, Meaghan [0000-0003-2915-3863], Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Risch, Anita C., Ashton, Louise, Augustine, David, Bélanger, Nicolas, Bridgham, Scott, Britton, A.J., Bruckman, Viktor J., Camarero, Jesús Julio, Cornelissen, Gerard, Crawford John A., Dijkstra, Feike A., Diochon, Amanda, Earl, Stevan, Edgerley, James, Epstein, Howard, Felton, Andrew, Fortier, Julien, Gagnon, Daniel, Greer, Ken, Griffiths, Hannah M, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hendrickson, Paul, Hovstad, Knut Anders, Hu, Jia, Jani. Arun D., Kent, Kelcy, Kerdraon-Byrne, Deirdre, Khalsa, Sat Darshan S., Lai, Derrick Y. F., Lambert, France, LaMontagne, Jalene M., Lavergne, Stéphanie, Lawrence. Beth A., Littke, Kim, Leeper, Abigail C., Licht, Mark A., Liebig, Mark A., Lynn, Joshua S., Maclean, Janet E., Martinsen, Vegard, McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Miller, Jim, Mulvaney, Michael J., Moreno, Gerardo, Newstead, Laura, Pakeman, Robin J., Pergl, Jan, Piñeiro, Juan, Quigley, Kathleen, Radtke, Troy M., Reed, Paul, Rolo, Víctor, Rudgers, Jennifer, Rutherford, P. Michael, Sayer, Emma J., Serrano-Grijalva, Lilia, Strack, Maria, Sukdeo, Nicole, Taylor, Andy F. S., Truax, Benoit, Tsuji, Leonard J. S., Van Gestel, Natasja, Vaness, Brenda M., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., Wilton, Meaghan, Yano, Yuriko, Teen, Ewing, and Bremer, Eric
- Abstract
Understanding the chemical composition of our planet's crust was one of the biggest questions of the 20th century. More than 100 years later, we are still far from understanding the global patterns in the bioavailability and spatial coupling of elements in topsoils worldwide, despite their importance for the productivity and functioning of terrestrial ecosystems. Here, we measured the bioavailability and coupling of thirteen macro- and micronutrients and phytotoxic elements in topsoils (3–8 cm) from a range of terrestrial ecosystems across all continents (∼10,000 observations) and in response to global change manipulations (∼5,000 observations). For this, we incubated between 1 and 4 pairs of anionic and cationic exchange membranes per site for a mean period of 53 days. The most bioavailable elements (Ca, Mg, and K) were also amongst the most abundant in the crust. Patterns of bioavailability were biome-dependent and controlled by soil properties such as pH, organic matter content and texture, plant cover, and climate. However, global change simulations resulted in important alterations in the bioavailability of elements. Elements were highly coupled, and coupling was predictable by the atomic properties of elements, particularly mass, mass to charge ratio, and second ionization energy. Deviations from the predictable coupling-atomic mass relationship were attributed to global change and agriculture. Our work illustrates the tight links between the bioavailability and coupling of topsoil elements and environmental context, human activities, and atomic properties of elements, thus deeply enhancing our integrated understanding of the biogeochemical connections that underlie the productivity and functioning of terrestrial ecosystems in a changing world.
- Published
- 2023
29. Calluna vulgaris volatile emissions suggest varying anti-herbivore defence strategies with plant ontogeny.
- Author
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Effah, Evans, Barret, D. Paul, Pakeman, Robin J., Beaton, Joan K., and Clavijo McCormick, Andrea
- Subjects
HEATHER ,AROMATIC plants ,CHEMICAL ecology ,VOLATILE organic compounds ,PHENOTYPIC plasticity - Abstract
Background: Calluna vulgaris (heather) is native to Europe, where it dominates several plant communities, but is invasive in countries like Australia and New Zealand (NZ). In its native ranges, including the United Kingdom (UK), heather provides habitat to arthropods of several feeding guilds and recent studies in its invaded and native ranges show that this plant is a prolific producer of volatile organic compounds (VOCs). These defensive metabolites can modify the behaviours of neighbouring plant and insect species. However, differences in VOC emissions between growth stages (ontogeny) have not yet been explored. Aims: The aim of this study was to explore the role of plant growth stages (pioneer, building and mature) and arthropods on VOC emissions of heather plants on a managed stand in Scotland during the summer season. Methods: We applied the contact insecticide deltamethrin to exclude arthropods from half of the tested plants for each growth stage, collected above-ground volatiles from plants in each treatment, and analysed them using gas chromatography – mass spectrometry (GC-MS). Data were statistically analysed using sparse partial least square discriminant analysis (sPLS-DA) and general linear models (GLM). Results: Results showed differences in volatile emission between growth stages, whereas the effect of arthropod removal was only observed for plants at the building stage. The results suggest that heather plants display different defence strategies as they mature, showing high phenotypic plasticity. Pioneer plants released fewer, ubiquitous compounds in relatively high amounts, building-unprayed plants were the most prolific VOC emitters showing herbivore-induced responses, and mature plants released a higher number of compounds but not in higher quantity than building plants. Thus, mature plants possibly rely more on mechanical and structural defences. Conclusion: These results highlight the complex and changing nature of heather's volatile emissions during plant ontogeny and contribute to understanding the chemical ecology of heather in heathland ecosystems. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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- View/download PDF
30. Functional similarity analysis highlights ecosystem impacts and restoration needs
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Pakeman, Robin J. and Lewis, Rob J.
- Published
- 2018
31. Understorey plant community composition reflects invasion history decades after invasive Rhododendron has been removed
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Maclean, Janet E., Mitchell, Ruth J., Burslem, David F. R. P., Genney, David, Hall, Jeanette, and Pakeman, Robin J.
- Published
- 2018
32. Plant functional connectivity — integrating landscape structure and effective dispersal
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Auffret, Alistair G., Rico, Yessica, Bullock, James M., Hooftman, Pakeman, Robin J., Soons, Merel B., Suárez-Esteban, Alberto, Traveset, Anna, Wagner, Helene H., and Cousins, Sara A. O.
- Published
- 2017
33. Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts
- Author
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Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Risch, Anita C., Ashton, Louise, Augustine, David, Bélanger, Nicolas, Bridgham, Scott, Britton, A.J., Bruckman, Viktor J., Camarero, Jesús Julio, Cornelissen, Gerard, Crawford John A., Dijkstra, Feike A., Diochon, Amanda, Earl, Stevan, Edgerley, James, Epstein, Howard, Felton, Andrew, Fortier, Julien, Gagnon, Daniel, Greer, Ken, Griffiths, Hannah M, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hendrickson, Paul, Hovstad, Knut Anders, Hu, Jia, Jani. Arun D., Kent, Kelcy, Kerdraon-Byrne, Deirdre, Khalsa, Sat Darshan S., Lai, Derrick Y. F., Lambert, France, LaMontagne, Jalene M., Lavergne, Stéphanie, Lawrence. Beth A., Littke, Kim, Leeper, Abigail C., Licht, Mark A., Liebig, Mark A., Lynn, Joshua S., Maclean, Janet E., Martinsen, Vegard, McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Miller, Jim, Mulvaney, Michael J., Moreno, Gerardo, Newstead, Laura, Pakeman, Robin J., Pergl, Jan, Piñeiro, Juan, Quigley, Kathleen, Radtke, Troy M., Reed, Paul, Rolo, Víctor, Rudgers, Jennifer, Rutherford, P. Michael, Sayer, Emma J., Serrano-Grijalva, Lilia, Strack, Maria, Sukdeo, Nicole, Taylor, Andy F. S., Truax, Benoit, Tsuji, Leonard J. S., Van Gestel, Natasja, Vaness, Brenda M., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., Wilton, Meaghan, Yano, Yuriko, Teen, Ewing, Bremer, Eric, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Ministerio de Universidades (España), European Commission, Junta de Andalucía, Fundación Biodiversidad, National Science Foundation Macrosystems Biology, Belgian American Educational Foundation, Fulbright Program and the Fund for Scientific Research-Flanders, European Agricultural Fund for Rural Development, Czech Science Foundation, Czech Academy of Sciences, National Science Foundation (US), National Institute of Food and Agriculture (US), DePaul University, Huron Mountain Wildlife Foundation, Ochoa-Hueso, Raúl, Delgado-Baquerizo, Manuel, Britton, A.J., Camarero, Jesús Julio, Earl, Stevan, Epstein, Howard, Felton, Andrew, Halde, Caroline, Hanslin, Hans M., Harris, Lorna I., Hartsock, Jeremy, Hovstad, Knut Anders, Khalsa, Sat Darshan S., LaMontagne, Jalene M., Lavergne, Stéphanie, Littke, Kim, Licht, Mark A., McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Moreno, Gerardo, Pakeman, Robin J., Pinno, Bradley D., Piñeiro, Juan, Rolo, Víctor, Rutherford, P. Michael, Sayer, Emma J., Van Sundert, Kevin, Vitkova, Michaela, Weigel, R., and Wilton, Meaghan
- Abstract
14 páginas.- 6 figuras.- 53 referencias, Understanding the chemical composition of our planet's crust was one of the biggest questions of the 20th century. More than 100 years later, we are still far from understanding the global patterns in the bioavailability and spatial coupling of elements in topsoils worldwide, despite their importance for the productivity and functioning of terrestrial ecosystems. Here, we measured the bioavailability and coupling of thirteen macro- and micronutrients and phytotoxic elements in topsoils (3–8 cm) from a range of terrestrial ecosystems across all continents (∼10,000 observations) and in response to global change manipulations (∼5,000 observations). For this, we incubated between 1 and 4 pairs of anionic and cationic exchange membranes per site for a mean period of 53 days. The most bioavailable elements (Ca, Mg, and K) were also amongst the most abundant in the crust. Patterns of bioavailability were biome-dependent and controlled by soil properties such as pH, organic matter content and texture, plant cover, and climate. However, global change simulations resulted in important alterations in the bioavailability of elements. Elements were highly coupled, and coupling was predictable by the atomic properties of elements, particularly mass, mass to charge ratio, and second ionization energy. Deviations from the predictable coupling-atomic mass relationship were attributed to global change and agriculture. Our work illustrates the tight links between the bioavailability and coupling of topsoil elements and environmental context, human activities, and atomic properties of elements, thus deeply enhancing our integrated understanding of the biogeochemical connections that underlie the productivity and functioning of terrestrial ecosystems in a changing world., We acknowledge the following people as additional data contributors: Drs. G. Blume-Werry, V. Bruckman, J. Buss, S. Collins, E. Dorrepaal, K.N. Egger, J. Fridley, Gibson-Roy, R. Harrison, J. Heberling, K. Helsen, E. Hinman, A. K olstad, N. Lemoine, M. Lesser, E. Li, S. E. Macdonald, E. Mallory, E. Massicotte, H.B. Massicotte, T. Moore, C. Morris, L. Nijs, M. Smith, Suojala-Ahlfors, E. Thiffault, K. Trepanier, R. Uusitalo, L. Van Langenhove, S. Vicca, F. Wang, M. Werner, K. White and S. Wilson. R.O.H. was funded by the Ramón y Cajal program of the MICINN (RYC-2017 22032), by the R&D Project of the Ministry of Science and Innovation PID2019-106004RA-I00 funded by MCIN/AEI/10.13039/501100011033, by the program José Castillejo” of the “Ministry of Universities” (CAS21/00125), by a project of the European Regional Development Fund (FEDER) and the Ministry of Economic Transformation, Industry, Knowledge and Universities of the Junta de Andalucía (ERDF Andalucía 2014–2020 Thematic objective “01—Reinforcement of research, technological development and innovation”): P20_00323 (FUTURE-VINES), by the European Agricultural Fund for Rural Development (EAFRD) through the “Aid to operational groups of the European Association of Innovation (AEI) in terms of agricultural productivity and sustainability,” Reference: GOPC-CA-20-0001, and from Fundación Biodiversidad (SOILBIO). M.D-B. was supported by a Ramón y Cajal Grant (RYC2018-025483-I), a project from the Spanish Ministry of Science and Innovation (PID2020-115813RA-I00), and a project PAIDI 2020 from the Junta de Andalucía (P20_00879). JP acknowl-edges funding from MICINN (RYC–2021–033454). S. Bridgham and P. Reed were supported from National Science Foundation Macrosystems Biology Grant 1340847. KVS acknowledges support from the Belgian American Educational Foundation (Paul Vernel Fellow), the Fulbright Program and the Fund for Scientific Research-Flanders. J. Pergl and M. Vítková were partly supported by 17-19025S, EXPRO Grant 19-28807X (Czech Science Foundation), BiodivClim Call 2019 (Grant TACR SS70010001) and long-term research development project RVO 67985939 (Czech Academy of Sciences). Natasja van Gestel was funded by the National Science Foundation Grant 1643871. Stevan Earl was partially supported by the National Science Foundation under Grant DEB-2224662, Central Arizona-Phoenix Long-Term Ecological Research Program (CAP LTER). Lilia Serrano-Grijalva has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 890874. Kevin van Sundert acknowledges support from the Fund for Scientific Research-Flanders. Yuriko Yano acknowledges USDA, National Institute of Food and Agriculture Grant, Award number 2015-67020-23454. A. Leeper, B. Lawrence, and J. LaMontagne acknowledge support from National Science Foundation Grant DEB-1745496, the University Research Council Collaborative Grant from DePaul University, and the Huron Mountain Wildlife Foundation.
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- 2023
34. Habitat impact assessment detects spatially driven patterns of grazing impacts in habitat mosaics but overestimates damage
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Moore, Emily K., Iason, Glenn R., Pemberton, Josephine M., Bryce, Jenny, Dayton, Nikki, Britton, Andrea J., and Pakeman, Robin J.
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- 2018
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35. Sampling Plant Functional Traits: What Proportion of the Species Need to Be Measured?
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Pakeman, Robin J. and Quested, Helen M.
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- 2007
36. Consistency of Plant Species and Trait Responses to Grazing along a Productivity Gradient: A Multi-Site Analysis
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Pakeman, Robin J.
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- 2004
37. Species but not genotype diversity strongly impacts the establishment of rare colonisers
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Schöb, Christian, Hortal, Sara, Karley, Alison J., Morcillo, Luna, Newton, Adrian C., Pakeman, Robin J., Powell, Jeff R., Anderson, Ian C., and Brooker, Rob W.
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- 2017
38. Drivers of species richness and compositional change in Scottish coastal vegetation
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Pakeman, Robin J., Hewison, Richard L., and Lewis, Rob J.
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- 2017
39. Age‐specific impacts of vegetation functional traits on gastrointestinal nematode parasite burdens in a large herbivore
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Wiersma, Ellis, primary, Pakeman, Robin J., additional, Bal, Xavier, additional, Pilkington, Jill G., additional, Pemberton, Josephine M., additional, Nussey, Daniel H., additional, and Sweeny, Amy R., additional
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- 2023
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40. Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts
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Ochoa‐Hueso, Raúl, primary, Delgado‐Baquerizo, Manuel, additional, Risch, Anita C., additional, Ashton, Louise, additional, Augustine, David, additional, Bélanger, Nicolas, additional, Bridgham, Scott, additional, Britton, Andrea J., additional, Bruckman, Viktor J., additional, Camarero, J. Julio, additional, Cornelissen, Gerard, additional, Crawford, John A., additional, Dijkstra, Feike A., additional, Diochon, Amanda, additional, Earl, Stevan, additional, Edgerley, James, additional, Epstein, Howard, additional, Felton, Andrew, additional, Fortier, Julien, additional, Gagnon, Daniel, additional, Greer, Ken, additional, Griffiths, Hannah M., additional, Halde, Caroline, additional, Hanslin, Hans Martin, additional, Harris, Lorna I., additional, Hartsock, Jeremy A., additional, Hendrickson, Paul, additional, Hovstad, Knut Anders, additional, Hu, Jia, additional, Jani, Arun D., additional, Kent, Kelcy, additional, Kerdraon‐Byrne, Deirdre, additional, Khalsa, Sat Darshan S., additional, Lai, Derrick Y. F., additional, Lambert, France, additional, LaMontagne, Jalene M., additional, Lavergne, Stéphanie, additional, Lawrence, Beth A., additional, Littke, Kim, additional, Leeper, Abigail C., additional, Licht, Mark A., additional, Liebig, Mark A., additional, Lynn, Joshua S., additional, Maclean, Janet E., additional, Martinsen, Vegard, additional, McDaniel, Marshall D., additional, McIntosh, Anne C. S., additional, Miesel, Jessica R., additional, Miller, Jim, additional, Mulvaney, Michael J., additional, Moreno, Gerardo, additional, Newstead, Laura, additional, Pakeman, Robin J., additional, Pergl, Jan, additional, Pinno, Bradley D., additional, Piñeiro, Juan, additional, Quigley, Kathleen, additional, Radtke, Troy M., additional, Reed, Paul, additional, Rolo, Víctor, additional, Rudgers, Jennifer, additional, Rutherford, P. Michael, additional, Sayer, Emma J., additional, Serrano‐Grijalva, Lilia, additional, Strack, Maria, additional, Sukdeo, Nicole, additional, Taylor, Andy F. S., additional, Truax, Benoit, additional, Tsuji, Leonard J. S., additional, van Gestel, Natasja, additional, Vaness, Brenda M., additional, Van Sundert, Kevin, additional, Vítková, Michaela, additional, Weigel, Robert, additional, Wilton, Meaghan J., additional, Yano, Yuriko, additional, Teen, Ewing, additional, and Bremer, Eric, additional
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- 2023
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41. Wildfire impacts on seedbank and vegetation dynamics in Calluna heath
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Naszarkowski, Noemi A. L., primary, Woodin, Sarah J., additional, Ross, Louise C., additional, Hester, Alison J., additional, and Pakeman, Robin J., additional
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- 2023
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42. Species Spread and Persistence: Implications for Experimental Design and Habitat Re-Creation
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Pakeman, Robin J. and Pywell, Richard F.
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- 2002
43. Impacts of Climate, Management and Nitrogen Deposition on the Dynamics of Lowland Heathland
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Britton, Andrea J., Pakeman, Robin J., Carey, Pete D., and Marrs, Rob H.
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- 2001
44. Vegetation Re-Establishment on Land Previously Subject to Control of Pteridium aquilinum by Herbicide
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Pakeman, Robin J., Thwaites, Rachael H., Le Duc, Mike G., and Marrs, Rob H.
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- 2000
45. A Rapid Evidence Review of the Implications of Not Controlling Bracken with Asulam in Scotland
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Pakeman, Robin
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Bracken, Scotland, Asulam, control, emergency authorisation - Abstract
This rapid evidence review was requested to better understand the implications of not controlling bracken on biodiversity, rural productivity and public health, where asulam is traditionally used for its control in Scotland. Suggested citations: Pakeman, R.J. (2023). A Rapid Evidence Review of the Implications of Not Controlling Bracken with Asulam in Scotland. A report for the Scottish Government. James Hutton Institute. pp20. DOI: 10.5281/zenodo.8011214, This report was funded by the Rural & Environment Science & Analytical Services Division of the Scottish Government Underpinning National Capacity Support to Policy Function, JHI-UNC-F01. The content of this report does not reflect the official opinion of the Scottish Government. Responsibility for the information and views expressed therein lies entirely with the author.
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- 2023
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46. Recovery of upland acid grasslands after successful Pteridium aquilinum control: Long-term effectiveness of cutting, repeated herbicide treatment and bruising
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Alday, Josu G., Cox, Emma S., Santana, Víctor M., Lee, Hyohyemi, Ghorbani, Jamshid, Milligan, Gregg, McAllister, Hugh A., Pakeman, Robin J., Le Duc, Michael G., Marrs, Rob H., and Universidad de Alicante. Departamento de Ecología
- Subjects
Mechanical treatment ,Bracken ,Invasive species control ,Long-term experiments ,Ecological restoration ,Herbicide treatment - Abstract
There is a clear need for the development of management strategies to control dominant, perennial weeds and restore semi-natural communities and an important part of this is to know how long control treatments take to be effective and how long they last after treatments stop. Here, we report the results from a 17-year long experiment where we compared the effects of five control treatments on dense Pteridium aquilinum (L. Kuhn) relative to an untreated experimental-control in Derbyshire, UK. The experiment was run in two phases. In Phase 1 (2005–2012) we controlled the P. aquilinum by cutting and bruising, both twice and thrice annually, and a herbicide treatment (asulam in year 1, followed by annual spot-re-treatment of all emergent fronds). In Phase 2 (2012–2021) all treatments were stopped, and the vegetation was allowed to develop naturally. Between 2005 and 2021 we monitored P. aquilinum performance annually and full plant species composition at intervals. Here, we concentrate on analysing the Phase 2 data where we used regression approaches to model individual species responses through time and unconstrained ordination to compare treatment effects on the entire species composition over both Phases. Remote sensing was also used to assess edge invasion in 2018. At the end of Phase 1, a good reduction of P. aquilinum and restoration of acid-grassland was achieved for the asulam and cutting treatments, but not for bruising. In Phase 2, P. aquilinum increased through time in all treated plots but the asulam and cutting ones maintained a much lower P. aquilinum performance for nine years on all measures assessed. There was a reduction in species richness and richness fluctuations, especially in graminoid species. However, multivariate analysis showed that the asulam and cutting treatments were stationed some distance from the untreated and bruising treatments with no apparent sign of reversions suggesting an Alternative Stable State had been created, at least over this nine-year period. P. aquilinum reinvasion was mainly from plot edges. The use of repeated P. aquilinum control treatments, either through an initial asulam spray with annual follow-up spot-spraying or cutting twice or thrice annually for eight years gave good P. aquilinum control and helped restore an acid-grassland community. Edge reinvasion was detected, and it is recommended that either whole-patch control be implemented or treatments should be continued around patch edges. This experiment was initially funded by DEFRA (BD1226), and continued supported by the Leverhulme Trust(EM-2018-073\2 to RHM), a Ramon y Cajal fellowship (RYC-2016-20528 to JGA), the Heather Trust and the Ecological Continuity Trust.
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- 2023
47. ELPEG bulletin May 2023
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Mitchell, Ruth, Britton, Andrea, Irvine, Kate, Pakeman, Robin, Stockan, Jenni, Taylor, Andy, Watson, Eleanor, and McCracken, Davy
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Biodiversity, policy - Abstract
A bulletin describing updates on research from within the Biodiversity Topic from the Scottish Government's Strategic Research Programme 2022-2027
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- 2023
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48. Phenological changes of the most commonly sampled ground beetle (Coleoptera: Carabidae) species in the UK environmental change network
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Pozsgai, Gabor, Baird, John, Littlewood, Nick A., Pakeman, Robin J., and Young, Mark R.
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- 2018
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49. Invasion by Rhododendron ponticum depletes the native seed bank with long-term impacts after its removal
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Maclean, Janet E., Mitchell, Ruth J., Burslem, David F. R. P., Genney, David, Hall, Jeanette, and Pakeman, Robin J.
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- 2018
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50. More warm‐adapted species in soil seed banks than in herb layer plant communities across Europe
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Auffret, Alistair G., primary, Vangansbeke, Pieter, additional, De Frenne, Pieter, additional, Auestad, Inger, additional, Basto, Sofía, additional, Grandin, Ulf, additional, Jacquemyn, Hans, additional, Jakobsson, Anna, additional, Kalamees, Rein, additional, Koch, Marcus A., additional, Marrs, Rob, additional, Marteinsdóttir, Bryndís, additional, Wagner, Markus, additional, Bekker, Renée M., additional, Bruun, Hans Henrik, additional, Decocq, Guillaume, additional, Hermy, Martin, additional, Jankowska‐Błaszczuk, Małgorzata, additional, Milberg, Per, additional, Måren, Inger E., additional, Pakeman, Robin J., additional, Phoenix, Gareth K., additional, Thompson, Ken, additional, Van Calster, Hans, additional, Vandvik, Vigdis, additional, and Plue, Jan, additional
- Published
- 2023
- Full Text
- View/download PDF
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