TY - JOUR
AU - Gyalus, Adrienn
AU - Bertalan, László
AU - Csonka, Anna Cseperke
AU - Halassy, Melinda
AU - Kertész, Miklós
AU - Kröel-Dulay, György
AU - Nagy, Anna Fruzsina
AU - Ónodi, Gábor
AU - Orbán, Ildikó
AU - Rédei, Tamás
AU - Sáradi, Nóra
AU - Szabó, Gergely
AU - Vörös Márton, Vörös
AU - Somodi, Imelda
AU - Csecserits, Anikó
TI - Nearby woody patches and microtopography reduce grass dieback during extreme drought
JF - GLOBAL ECOLOGY AND CONSERVATION
J2 - GLOB ECOL CONSERV
VL - 60
PY - 2025
PG - 14
SN - 2351-9894
DO - 10.1016/j.gecco.2025.e03596
UR - https://m2.mtmt.hu/api/publication/36101617
ID - 36101617
N1 - HUN-REN Centre for Ecological Research, Institute of Ecology and Botany, Vácrátót, Hungary
Eötvös Loránd University, Doctoral School of Biology, Budapest, Hungary
University of Debrecen, Faculty of Science and Technology, Department of Physical Geography and Geoinformatics, Debrecen, Hungary
National Laboratory for Health Security, HUN-REN Centre for Ecological Research, Budapest, Hungary
University of Debrecen, Faculty of Science and Technology, Institute of Biology and Ecology, Debrecen, Hungary
Biodiversity Research, Systematic Botany Group, Institute of Biochemistry and Biology, University of Potsdam, Potsdam, Germany
Export Date: 13 May 2025; Cited By: 0; Correspondence Address: A. Gyalus; HUN-REN Centre for Ecological Research, Institute of Ecology and Botany, Vácrátót, Hungary; email: gyalus.adrienn@ecolres.hu
AB - Extreme droughts related to climate change can be a driver of habitat transition by affecting the
survival and reproduction of dominant plant species, while different microrefugia can buffer
against this. The extreme drought of 2022 caused a significant dieback of the dominant perennial
grasses in open sandy grasslands, in Hungary. We used this event to test our hypothesis: nearby
woody cover and certain microtopography support the survival and recovery of dominant grasses
after drought. We surveyed grass dieback in 200 plots within an unmanaged grassland site. A fineresolution digital terrain model and aerial photos were used to determine topographic variables
(slope, aspect, topographic position) and woody cover. We tested the effect of these factors on the
ratio of dead grass and the amount of grass seedlings. Nearby woody cover had a significant
sheltering effect: there was almost no grass dieback at high woody cover, modified by aspect and
topographic position. High woody cover had the strongest effect on the northern aspect and on
hilltops. While at low woody cover, aspect had no influence and valley position had a positive
impact. The dead grass ratio was also lower on steeper slopes. Seedlings behaved differently:
there were fewer seedlings on the more northern aspects and on steeper slopes, likely due to the
lack of microhabitats available in the absence of grass dieback. We conclude that both woody
cover and microtopography are important for survival and recovery of open sand grasslands, as
they provide favourable microhabitats for grasses to survive extreme weather events.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Darabos, Gabriella
AU - Korponai, János
AU - Moskal-del Hoyo, Magdalena
AU - Bobek, Přemysl
AU - Bede-Fazekas, Ákos
AU - Rédei, Tamás
AU - Szmorad, Ferenc
AU - Standovár, Tibor
AU - Magyari, Enikő Katalin
TI - Surviving on the edge: the role of medieval and modern age charcoal production in the stand composition of colline beech woodlands in NE Hungary (EC Europe)
JF - VEGETATION HISTORY AND ARCHAEOBOTANY
J2 - VEG HIST ARCHAEOBOT
VL - 2025
PY - 2025
PG - 18
SN - 0939-6314
DO - 10.1007/s00334-024-01033-4
UR - https://m2.mtmt.hu/api/publication/35719458
ID - 35719458
N1 - Institute of Geography and Earth Sciences, Department of Environmental and Landscape Geography, ELTE Eötvös Loránd University, Pázmány Péter sétány 1/C, Budapest, H-1117, Hungary
Faculty of Water Sciences, Department of Aquatic Environmental Sciences, University of Public Service, Bajcsy-Zsilinszky utca 12–14, Baja, H-6500, Hungary
Department of Environmental Science, Sapientia Hungarian University of Transylvania, Calea Turzii 4, Cluj-Napoca, 400193, Romania
W. Szafer Institute of Botany, Polish Academy of Sciences, Lubicz St. 46, Kraków, 31-512, Poland
Department of Paleoecology, Institute of Botany of the Czech Academy of Sciences, Zámek 1, Průhonice, 252 43, Czech Republic
HUN-REN Centre for Ecological Research, Institute of Ecology and Botany, Alkotmány u. 2–4, Vácrátót, H-2163, Hungary
Department of Plant Systematics, Ecology and Theoretical Biology, ELTE Eötvös Loránd University, Pázmány Péter sétány 1/C, Budapest, H-1117, Hungary
HUN-REN-MTM-ELTE Research Group for Palaeontology, Ludovika tér 2, Budapest, 1083, Hungary
Export Date: 17 April 2025; Cited By: 0; Correspondence Address: G. Darabos; Institute of Geography and Earth Sciences, Department of Environmental and Landscape Geography, ELTE Eötvös Loránd University, Budapest, Pázmány Péter sétány 1/C, H-1117, Hungary; email: gabriella.darabos@ttk.elte.hu
AB - This study examines historical forest compositional changes in the Aggtelek Karst region, Hungary, focusing on the relationship between medieval and modern age charcoal burning sites (32 kilns) and the current vegetation. Our aim was to determine woodland composition during the intensive charcoal burning period using wood charcoal analysis and compare it with the present canopy composition to understand Fagus sylvatica (European beech) population dynamics at the margin of its range. Heat map visualization, cluster analysis and Procrustes analyses were used for comparison. The results show European beech as dominant taxon in charcoal spectra in some places, while Quercus , possibly Quercus petraea (sessile oak), and Carpinus betulus (European hornbeam) dominated in others. The findings suggest that beech had varying abundance in the potential beech habitats during the medieval and modern age coppice phases. We found multidirectional changes in canopy composition. Carpinus betulus and Q. petraea dominated the current stands in most cases with F. sylvatica being subordinate. These results suggest that historical forest use and management practices took place in already mixed canopy forests, where Fagus dominance was confined to a few stands only. We demonstrate that the forest stands plausibly represent different stages of secondary succession after last coppice management, leading to varying Carpinus abundance. We discuss the possible role of climate change (summer heat waves, increasing mean annual temperature) and conclude that F. sylvatica and Q. petraea compete with each other in the study region, confirming a transitional zone between the classical Fagus and Quercus climate.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Rédei, Tamás
AU - Árvai, Ágnes
AU - Barabás, Sándor
AU - Kabai, Melinda
AU - Kun, András
AU - Lhotsky, Barbara
AU - Lukács, Attila Nándor
AU - Mártonffy, András
AU - Nagyné Harcsás, Anita
AU - Rigó, Attila
AU - Szabadi, Kriszta Lilla
AU - Viszus, Virág
AU - Csecserits, Anikó
TI - Erdei növényfajok elterjedése és természetvédelmi helyzete a Duna–Tisza köze homoki tölgyeseiben
JF - KITAIBELIA
J2 - KITAIBELIA
VL - 29
PY - 2024
IS - 2
SP - 129
EP - 140
PG - 12
SN - 1219-9672
DO - 10.17542/kit.29.059
UR - https://m2.mtmt.hu/api/publication/35667638
ID - 35667638
N1 - HUN-REN Ökológiai Kutatóközpont, Ökológiai és Botanikai Intézet, Alkotmány út 2-4, Vácrátót, H-2063, Hungary
Gelej, Kossuth Lajos u. 19H-3444, Hungary
Budapest Főváros Főpolgármesteri Hivatal, Várostervezési Főosztály, Tájépítészeti Osztály, Városház u. 9-11, Budapest, H-1052, Hungary
Sziklagyep Bt., Halmi u. 5, Budapest, H-1115, Hungary
Kertész u. 39, Budapest, H-1073, Hungary
Törökvész út 84, Budapest, H-1025, Hungary
Fűzfa utca 2, Cegléd, 2700, Hungary
Egészségbiztonság Nemzeti Labor, HUN-REN Ökológiai Kutatóközpont, Ökológiai és Botanikai Intézet, Hungary
Export Date: 9 January 2025
Correspondence Address: Tamás, R.; HUN-REN Ökológiai Kutatóközpont, Alkotmány út 2-4, Hungary; email: redei.tamas@ecolres.hu
AB - In this article we summarise the floristic data collected during our research in oak forests in the northern part of ‘Kiskunság’ since 1998. Between 2020 and 2024, we systematically visited and mapped the forest stands in the region, which have been continuous since the First Military Survey (late 18th century). A total of 100 forest patches were identified as semi-natural pedunculate oak, covering a total of 865 hectares, and floristic data could be collected in 94 of them. The data were supplemented by scattered occurrences found during the survey. A total of 1207 occurrences of 96 forest and forest edge species were recorded in the stands. Of these, 214 occurrences of 81 species are new compared to the Hungarian Floristic Mapping data. Species were grouped according to habitat preference and regional vulnerability. In total, 23 species were classified as threatened and 37 as critically endangered. Without active conservation interventions, these species could become extinct in the ’Kiskunság’ within a few decades.
LA - Hungarian
DB - MTMT
ER -
TY - JOUR
AU - Pakgohar, Naghmeh
AU - Barabás, Sándor
AU - Ćuk, Mirjana
AU - Csecserits, Anikó
AU - Gyalus, Adrienn
AU - Lengyel, Attila
AU - Lhotsky, Barbara
AU - Mártonffy, András
AU - Ónodi, Gábor
AU - Rédei, Tamás
AU - Botta-Dukát, Zoltán
TI - Low replicability of testing the stress–dominance hypothesis using a trait convergence/divergence pattern
JF - JOURNAL OF VEGETATION SCIENCE
J2 - J VEG SCI
VL - 35
PY - 2024
IS - 3
SN - 1100-9233
DO - 10.1111/jvs.13260
UR - https://m2.mtmt.hu/api/publication/34836743
ID - 34836743
N1 - Institute of Ecology and Botany, HUN-REN Centre for Ecological Research, Vácrátót, Hungary
Department of Biology and Ecology, Faculty of Sciences, University of Novi Sad, Novi Sad, Serbia
Doctoral School of Biology, Institute of Biology, Eötvös Loránd University, Budapest, Hungary
Export Date: 5 June 2024
CODEN: JVESE
Correspondence Address: Botta-Dukát, Z.; Institute of Ecology and Botany, Hungary; email: botta-dukat.zoltan@ecolres.hu
AB - Ecological theories predict that assembly processes are driven by two deterministic forces: environmental filtering and limiting similarity. Their relative importance under different environmental conditions is still not completely obvious. Therefore, in this paper the predictions of the stress–dominance hypothesis (SDH) are tested in several sites.LocationKiskunság in Hungary, and Deliblato Sands in Serbia, Central Europe.MethodsWe studied a productivity gradient from open sand grasslands to meadows. The cover of species was estimated visually in plots with a size of 2 m × 2 m, resulting in 344 vegetation plots. Four trait values (height, seed mass, specific leaf area, and leaf size) were collected from field measurements and databases. The weighted median of interspecies distances in traits (a robust alternative to Rao's quadratic entropy) was used to determine functional diversity. The convergence and divergence of each trait in communities were evaluated by randomization tests, and effect sizes were calculated for each plot. We used hierarchical general additive models (HGAM) to determine whether the trend of effect sizes along the productivity gradient is the same in different sites.ResultsThe HGAM approach indicated that trait variations follow global trends but are influenced by site‐specific effects. The exception is seed mass, whose variation did not have any trend. Both environmental filtering and limiting similarity exist in the communities, and mainly a shift from trait convergence to a divergence pattern along the productivity gradient was observed.ConclusionThe results are mainly congruent with theoretical expectations, but the results from the different sites did not lead to the same conclusion. Although traits follow a global trend, the site effect is not negligible. Critical evaluation of SDH using trait convergence/divergence patterns for exploring rules of community assembly points out the weaknesses of this hypothesis. Therefore, alternative ways of studying trait patterns should be found to better understand community organization.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Knollová, Ilona
AU - Chytrý, Milan
AU - Bruelheide, Helge
AU - Dullinger, Stefan
AU - Jandt, Ute
AU - Bernhardt‐Römermann, Markus
AU - Biurrun, Idoia
AU - de Bello, Francesco
AU - Glaser, Michael
AU - Hennekens, Stephan
AU - Jansen, Florian
AU - Jiménez‐Alfaro, Borja
AU - Kadaš, Daniel
AU - Kaplan, Ekin
AU - Klinkovská, Klára
AU - Lenzner, Bernd
AU - Pauli, Harald
AU - Sperandii, Marta Gaia
AU - Verheyen, Kris
AU - Winkler, Manuela
AU - Abdaladze, Otar
AU - Aćić, Svetlana
AU - Acosta, Alicia T. R.
AU - Alignier, Audrey
AU - Andrews, Christopher
AU - Arlettaz, Raphaël
AU - Attorre, Fabio
AU - Axmanová, Irena
AU - Babbi, Manuel
AU - Baeten, Lander
AU - Baran, Jakub
AU - Barni, Elena
AU - Benito‐Alonso, José‐Luis
AU - Berg, Christian
AU - Bergamini, Ariel
AU - Berki, Imre
AU - Boch, Steffen
AU - Bock, Barbara
AU - Bode, Frank
AU - Bonari, Gianmaria
AU - Boublík, Karel
AU - Britton, Andrea J.
AU - Brunet, Jörg
AU - Bruzzaniti, Vanessa
AU - Buholzer, Serge
AU - Burrascano, Sabina
AU - Campos, Juan A.
AU - Carlsson, Bengt‐Göran
AU - Carranza, Maria Laura
AU - Černý, Tomáš
AU - Charmillot, Kévin
AU - Chiarucci, Alessandro
AU - Choler, Philippe
AU - Chytrý, Kryštof
AU - Corcket, Emmanuel
AU - Csecserits, Anikó
AU - Cutini, Maurizio
AU - Czarniecka‐Wiera, Marta
AU - Danihelka, Jiří
AU - de Francesco, Maria Carla
AU - De Frenne, Pieter
AU - Di Musciano, Michele
AU - De Sanctis, Michele
AU - Deák, Balázs
AU - Decocq, Guillaume
AU - Dembicz, Iwona
AU - Dengler, Jürgen
AU - Di Cecco, Valter
AU - Dick, Jan
AU - Diekmann, Martin
AU - Dierschke, Hartmut
AU - Dirnböck, Thomas
AU - Doerfler, Inken
AU - Doležal, Jiří
AU - Döring, Ute
AU - Durak, Tomasz
AU - Dwyer, Ciara
AU - Ejrnæs, Rasmus
AU - Ermakova, Inna
AU - Erschbamer, Brigitta
AU - Fanelli, Giuliano
AU - Fernández‐Calzado, María‐Rosa
AU - Fickert, Thomas
AU - Fischer, Andrea
AU - Fischer, Markus
AU - Foremnik, Kacper
AU - Frouz, Jan
AU - García‐González, Ricardo
AU - García‐Magro, Daniel
AU - García‐Mijangos, Itziar
AU - Gavilán, Rosario G.
AU - Germ, Mateja
AU - Ghosn, Dany
AU - Gigauri, Khatuna
AU - Gizela, Jaroslav
AU - Golob, Aleksandra
AU - Golub, Valentin
AU - Gómez‐García, Daniel
AU - Gowing, David
AU - Grytnes, John‐Arvid
AU - Güler, Behlül
AU - Gutiérrez‐Girón, Alba
AU - Haase, Peter
AU - Haider, Sylvia
AU - Hájek, Michal
AU - Halassy, Melinda
AU - Harásek, Martin
AU - Härdtle, Werner
AU - Heinken, Thilo
AU - Hester, Alison
AU - Humbert, Jean‐Yves
AU - Ibáñez, Ricardo
AU - Illa, Estela
AU - Jaroszewicz, Bogdan
AU - Jensen, Kai
AU - Jentsch, Anke
AU - Jiroušek, Martin
AU - Kalníková, Veronika
AU - Kanka, Róbert
AU - Kapfer, Jutta
AU - Kazakis, George
AU - Kermavnar, Janez
AU - Kesting, Stefan
AU - Khanina, Larisa
AU - Kindermann, Elisabeth
AU - Kotrík, Marek
AU - Koutecký, Tomáš
AU - Kozub, Łukasz
AU - Kuhn, Gisbert
AU - Kutnar, Lado
AU - La Montagna, Dario
AU - Lamprecht, Andrea
AU - Lenoir, Jonathan
AU - Lepš, Jan
AU - Leuschner, Christoph
AU - Lorite, Juan
AU - Madsen, Bjarke
AU - Ugarte, Rosina Magaña
AU - Malicki, Marek
AU - Maliniemi, Tuija
AU - Máliš, František
AU - Maringer, Alexander
AU - Marrs, Robert
AU - Matesanz, Silvia
AU - Metze, Katrin
AU - Meyer, Stefan
AU - Millett, Jonathan
AU - Mitchell, Ruth J.
AU - Moeslund, Jesper Erenskjold
AU - Moiseev, Pavel
AU - di Cella, Umberto Morra
AU - Mudrák, Ondřej
AU - Müller, Frank
AU - Müller, Norbert
AU - Naaf, Tobias
AU - Nagy, Laszlo
AU - Napoleone, Francesca
AU - Nascimbene, Juri
AU - Navrátilová, Jana
AU - Ninot, Josep M.
AU - Niu, Yujie
AU - Normand, Signe
AU - Ogaya, Romá
AU - Onipchenko, Vladimir
AU - Orczewska, Anna
AU - Ortmann-né Ajkai, Adrienne
AU - Pakeman, Robin J.
AU - Pardo, Iker
AU - Pätsch, Ricarda
AU - Peet, Robert K.
AU - Penuelas, Josep
AU - Peppler‐Lisbach, Cord
AU - Pérez‐Hernández, Javier
AU - Pérez‐Haase, Aaron
AU - Petraglia, Alessandro
AU - Petřík, Petr
AU - Pielech, Remigiusz
AU - Piórkowski, Hubert
AU - Pladevall‐Izard, Eulàlia
AU - Poschlod, Peter
AU - Prach, Karel
AU - Praleskouskaya, Safiya
AU - Prokhorov, Vadim
AU - Provoost, Sam
AU - Pușcaș, Mihai
AU - Pustková, Štěpánka
AU - Randin, Christophe François
AU - Rašomavičius, Valerijus
AU - Reczyńska, Kamila
AU - Rédei, Tamás
AU - Řehounková, Klára
AU - Richner, Nina
AU - Risch, Anita C.
AU - Rixen, Christian
AU - Rosbakh, Sergey
AU - Roscher, Christiane
AU - Rosenthal, Gert
AU - Rossi, Graziano
AU - Rötzer, Harald
AU - Roux, Camille
AU - Rumpf, Sabine B.
AU - Ruprecht, Eszter
AU - Rūsiņa, Solvita
AU - Sanz‐Zubizarreta, Irati
AU - Schindler, Meret
AU - Schmidt, Wolfgang
AU - Schories, Dirk
AU - Schrautzer, Joachim
AU - Schubert, Hendrik
AU - Schuetz, Martin
AU - Schwabe, Angelika
AU - Schwaiger, Helena
AU - Schwartze, Peter
AU - Šebesta, Jan
AU - Seiler, Hallie
AU - Šilc, Urban
AU - Silva, Vasco
AU - Šmilauer, Petr
AU - Šmilauerová, Marie
AU - Sperle, Thomas
AU - Stachurska‐Swakoń, Alina
AU - Stanik, Nils
AU - Stanisci, Angela
AU - Steffen, Kristina
AU - Storm, Christian
AU - Stroh, Hans Georg
AU - Sugorkina, Nadezhda
AU - Świerkosz, Krzysztof
AU - Świerszcz, Sebastian
AU - Szymura, Magdalena
AU - Teleki, Balázs
AU - Thébaud, Gilles
AU - Theurillat, Jean‐Paul
AU - Tichý, Lubomír
AU - Treier, Urs A.
AU - Turtureanu, Pavel Dan
AU - Ujházy, Karol
AU - Ujházyová, Mariana
AU - Ursu, Tudor Mihai
AU - Uziębło, Aldona K.
AU - Valkó, Orsolya
AU - Van Calster, Hans
AU - Van Meerbeek, Koenraad
AU - Vandevoorde, Bart
AU - Vandvik, Vigdis
AU - Varricchione, Marco
AU - Vassilev, Kiril
AU - Villar, Luis
AU - Virtanen, Risto
AU - Vittoz, Pascal
AU - Voigt, Winfried
AU - von Hessberg, Andreas
AU - von Oheimb, Goddert
AU - Wagner, Eva
AU - Walther, Gian‐Reto
AU - Wellstein, Camilla
AU - Wesche, Karsten
AU - Wilhelm, Markus
AU - Willner, Wolfgang
AU - Wipf, Sonja
AU - Wittig, Burghard
AU - Wohlgemuth, Thomas
AU - Woodcock, Ben A.
AU - Wulf, Monika
AU - Essl, Franz
TI - ReSurveyEurope : A database of resurveyed vegetation plots in Europe
JF - JOURNAL OF VEGETATION SCIENCE
J2 - J VEG SCI
VL - 35
PY - 2024
IS - 2
PG - 18
SN - 1100-9233
DO - 10.1111/jvs.13235
UR - https://m2.mtmt.hu/api/publication/34793954
ID - 34793954
N1 - Funding Agency and Grant Number: Czech Science Foundation [19-28491X]; Global Plant Invasions by the Austrian Science Foundation (FWF) [I 5825-B]; German Research Foundation [DFG FZT 118, 202548816]; Vienna Doctoral School of Ecology and Evolution (VDSEE); Austrian Climate Research Program [FA772033]; European Research Council (ERC) under the European Union [883669]; Basque Government [IT1487-22]; Austrian Academy of Sciences; Austrian Climate Research Programme [ACRP 6: GZ B368633, KR13AC6K11076]; LIFE Integrated Project [LatViaNature LIFE19 IPE/LV/000010]; European Union's Horizon Europe research and innovation programme under the Marie Sklodowska-Curie grant [101090344]; Spanish Agency of Research (AEI) [MCI-20-PID2019-108636GA-I00]; National Biodiversity Future Center-NBFC [CN_00000033, CUP J33C22001190001)]; VEGA [2/0048/22]
Funding text: Ilona Knollova, Milan Chytr & yacute; and Lubomir Tich & yacute; were funded by the Czech Science Foundation (19-28491X). Bernd Lenzner and Franz Essl appreciate funding by the Global Plant Invasions - project funded by the Austrian Science Foundation (FWF; pr.no. I 5825-B). Helge Bruelheide and Ute Jandt appreciate the support of the German Research Foundation for funding sPlot as one of the iDiv (DFG FZT 118, 202548816) research platforms. Ekin Kaplan appreciates funding from the Vienna Doctoral School of Ecology and Evolution (VDSEE). Michael Glaser appreciates funding from the Austrian Climate Research Program (FA772033 "AgriWeedClim"). Stefan Dullinger received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement No 883669). Idoia Biurrun, Juan A. Campos, Itziar Garcia- Mijangos and Irati Sanz-Zubizarreta were funded by the Basque Government (IT1487-22). Manuela Winkler received funding from the Austrian Academy of Sciences under the Earth System Sciences program (project "MEDIALPS"). Harald Pauli appreciates funding from the Austrian Climate Research Programme (ACRP 6: GZ B368633, KR13AC6K11076). Solvita R & umacr;si & ncedil;a was supported by th LIFE Integrated Project LatViaNature LIFE19 IPE/LV/000010. Marta Gaia Sperandii acknowledges funding from the European Union's Horizon Europe research and innovation programme under the Marie Sklodowska-Curie grant agreement No 101090344. Borja Jimenez-Alfaro received funding from the Spanish Agency of Research (AEI), grant MCI-20-PID2019-108636GA-I00. Alessandro Chiarucci was supported by the "National Biodiversity Future Center-NBFC" (Next Generation EU. Project code CN_00000033, CUP J33C22001190001). Robert Kanka is sup-ported by the VEGA 2/0048/22 grant.
AB - 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). ReSurvey:Europe 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.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Bauer, Norbert
AU - Rédei, Tamás
AU - Barabás, Sándor
AU - Locsmándi, Csaba
AU - Mesterházy, Attila
AU - Mészáros, A.
AU - Molnár, Csaba
AU - Vajna, Flóra
AU - Takács, Attila
TI - Taxonomical and chorological notes 18 (184–194).
JF - STUDIA BOTANICA HUNGARICA
J2 - STUD BOT HUNG
VL - 54
PY - 2023
IS - 2
SP - 205
EP - 224
PG - 20
SN - 0301-7001
DO - 10.17110/StudBot.2023.54.2.205
UR - https://m2.mtmt.hu/api/publication/34557131
ID - 34557131
AB - Floristical records of one fungus and ten flowering plants are presented from Hunga- ry. We report a new occurrence of Calvatia candida in a valuable Pannonian sandy steppe hab- itat. Some of our floristical data present new occurrences of species that are rare in Hungary, but in the case of Orobanche minor, Minuartia viscosa, due to the low number of recent floristi- cal data, we also try to clarify the distribution pattern of the species with data from specimens documented in the BP herbarium. The first occurrences of the rare, red-listed species Papaver hybridum was detected from the Duna-sík region. We report the first data of Orobanche mi- nor from the Hungarian Middle Mountain Ranges, Minuartia viscosa is new for the south- ern part of the Mezőföld. A new record of Dactylorhiza sambucina from the Vértes Mts, which is in decline in our low-middle mountain areas, is published, an important observation from a conservation point of view. The data of Potentilla patula reported here is a new observa- tion for the area of Cserhát-vidék. Our other data are from ruderal habitats, where we report observations of taxa that are mainly expanding but with few records in Hungary. The second Hungarian record of Senecio × helwingii is from the district of Zugló in Budapest. Erigeron su- matrensis has been found in several regions of Hungary, Euphorbia glyptosperma, Gypsophila per- foliata new occurrences were found in the border of Kecskemét. The recently suggested spread- ing of Medicago orbicularis is confirmed by new occurrence data from the Tihany Peninsula.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Pellaton, Raoul
AU - Csecserits, Anikó
AU - Szitár, Katalin
AU - Rédei, Tamás
AU - Batáry, Péter
AU - Báldi, András
TI - Grazing and boundaries favour weedy plants with functional traits beneficial for pollinators
JF - GLOBAL ECOLOGY AND CONSERVATION
J2 - GLOB ECOL CONSERV
VL - 48
PY - 2023
PG - 9
SN - 2351-9894
DO - 10.1016/j.gecco.2023.e02717
UR - https://m2.mtmt.hu/api/publication/34365614
ID - 34365614
N1 - Lendület Ecosystem Services Research Group, Institute of Ecology and Botany, Centre for Ecological Research, Vácrátót, Hungary
Large-scale Vegetation Ecology Research Group, Institute of Ecology and Botany, Centre for Ecological Research, Vácrátót, Hungary
Lendület Landscape and Conservation Ecology Research Group, Institute of Ecology and Botany, Centre for Ecological Research, Vácrátót, Hungary
Export Date: 12 December 2023
Correspondence Address: Pellaton, R.; Lendület Ecosystem Services Research Group, Hungary; email: raoulpellaton@bluewin.ch
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Sonkoly, Judit
AU - Tóth, Edina
AU - Balogh, Nóra
AU - Balogh, Lajos
AU - Bartha, Dénes
AU - Csendesné Bata, Kinga
AU - Bátori, Zoltán
AU - Békefi, Nóra
AU - Botta-Dukát, Zoltán
AU - Bölöni, János
AU - Csecserits, Anikó
AU - Csiky, János
AU - Csontos, Péter
AU - Dancza, István
AU - Deák, Balázs
AU - Dobolyi, Zoltán Konstantin
AU - E-Vojtkó, Anna
AU - Gyulai, Ferenc
AU - Hábenczyus, Alida Anna
AU - Henn, Tamás
AU - Horváth, Ferenc
AU - Höhn, Mária Margit
AU - Jakab, Gusztáv
AU - Kelemen, András
AU - Király, Botond Gergely
AU - Kis, Szabolcs
AU - Kovacsics-Vári, Gergely
AU - Kun, András
AU - Lehoczky, Éva
AU - Lengyel, Attila
AU - Lhotsky, Barbara
AU - Löki, Viktor
AU - Lukács, Balázs András
AU - Matus, Gábor
AU - McIntoshné Buday, Andrea
AU - Mesterházy, Attila
AU - Miglécz, Tamás
AU - Molnár, V Attila
AU - Molnár, Zsolt
AU - Morschhauser, Tamás
AU - Papp, László
AU - Pósa, Patrícia
AU - Rédei, Tamás
AU - Schmidt, Dávid
AU - Szmorad, Ferenc
AU - Takács, Attila
AU - Tamás, Júlia
AU - Tiborcz, Viktor
AU - Tölgyesi, Csaba
AU - Tóth, Katalin
AU - Tóthmérész, Béla
AU - Valkó, Orsolya
AU - Virók, Viktor
AU - Wirth, Tamás
AU - Török, Péter
TI - PADAPT 1.0 – the Pannonian Dataset of Plant Traits
JF - SCIENTIFIC DATA
J2 - SCI DATA
VL - 10
PY - 2023
IS - 1
PG - 8
SN - 2052-4463
DO - 10.1038/s41597-023-02619-9
UR - https://m2.mtmt.hu/api/publication/34217510
ID - 34217510
N1 - Funding Agency and Grant Number: NKFIH [PD 137747, KH 130320, K 119225, FK 142428, K 137573, KKP 144068, PD 138859, PD 137828, PD 138715, UNKP-21-3-SZTE-389, RRF-2.3.1-21-2022-00014]; Bolyai Janos Scholarship of the Hungarian Academy of Sciences [129167, KKP 144209, BO/00587/23/8]; New National Excellence Program of the Ministry for Innovation and Technology of Hungary [BO/00713/19]; UNKP-23-5 New National Excellence Program of the Ministry for Culture and Innovation from the National Research, Development and Innovation Fund; Climate Change Hungarian National Laboratory [BO/00298/21]; HUN-REN Hungarian Research Network
Funding text: We are very grateful for the detailed comments of our reviewers and especially for the helpful input and suggestions of the Chief Editor. We are grateful for Patricia Diaz Cando, Kata Frei, Alexandra Tomasovszky and Viktoria Toer & odblac;-Szijgyarto for their help in trait measurements. The authors and/or the dataset building project were supported by NKFIH: PD 137747 (JS), KH 130320 (ET), K 119225 (PT), FK 142428 (ZB), K 137573 (PT), KKP 144068 (PT), PD 138859 (AL), PD 137828 (AT) and PD 138715 (VL). JS, AK and ZB were supported by the Bolyai Janos Scholarship of the Hungarian Academy of Sciences (BO/00587/23/8, BO/00713/19 and BO/00298/21, respectively). AAH was supported by the New National Excellence Program of the Ministry for Innovation and Technology of Hungary (UNKP-21-3-SZTE-389). JS was supported by the UNKP-23-5 New National Excellence Program of the Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund. The work of GJ was supported by the Climate Change Hungarian National Laboratory RRF-2.3.1-21-2022-00014, the project NKFIH 129167 and KKP 144209. This project has received funding from the HUN-REN Hungarian Research Network.
AB - The existing plant trait databases’ applicability is limited for studies dealing with the flora and vegetation of the eastern and central part of Europe and for large-scale comparisons across regions, mostly because their geographical data coverage is limited and they incorporate records from several different sources, often from regions with markedly different climatic conditions. These problems motivated the compilation of a regional dataset for the flora of the Pannonian region (Eastern Central Europe). PADAPT, the Pannonian Dataset of Plant Traits relies on regional data sources and collates data on 54 traits and attributes of the plant species of the Pannonian region. The current version covers approximately 90% of the species of the region and consists of 126,337 records on 2745 taxa. By including species of the eastern part of Europe not covered by other databases, PADAPT can facilitate studying the flora and vegetation of the eastern part of the continent. Although data coverage is far from complete, PADAPT meets the longstanding need for a regional database of the Pannonian flora.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Berki, Boglárka
AU - Botta-Dukát, Zoltán
AU - Csákvári, Edina
AU - Gyalus, Adrienn
AU - Halassy, Melinda
AU - Mártonffy, András
AU - Rédei, Tamás
AU - Csecserits, Anikó
TI - Short‐term effects of the control of the invasive plant Asclepias syriaca : secondary invasion of other neophytes instead of the recovery of native species
JF - APPLIED VEGETATION SCIENCE
J2 - APP VEGE SCI
VL - 26
PY - 2023
IS - 1
PG - 12
SN - 1402-2001
DO - 10.1111/avsc.12707
UR - https://m2.mtmt.hu/api/publication/33540130
ID - 33540130
N1 - Doctoral School of Biology, Institute of Biology, Eötvös Loránd University, Budapest, Hungary
National Laboratory for Health Security, Institute of Ecology and Botany, Centre for Ecological Research, Vácrátót, Hungary
Department of Plant Systematics, Ecology and Theoretical Biology, Ecology, Conservation biology and systematics program, Eötvös Loránd University, Budapest, Hungary
Export Date: 30 November 2023
CODEN: AVSCF
Correspondence Address: Berki, B.; Doctoral School of Biology, Pázmány Péter sétány 1/C, Hungary; email: berki.boglarka@ecolres.hu
AB - This study aimed to assess the impact of the invasion of Asclepias syriaca, a perennial non‐native herbaceous species, on basic soil attributes and vegetation composition, and to study the effect of mechanical control, namely the cutting of Asclepias, on target and other plant species.LocationSandy region of Kiskunság National Park, Hungary, Central Europe.MethodsIn ten old‐fields, four 4 m × 4 m plots were established (n = 40), of which three were invaded by Asclepias, and one was uninvaded. The invaded plots were treated as: (1) all Asclepias shoots removed, (2) half of the Asclepias shoots removed, or (3) untreated. The treatment was conducted twice a year in summer during the period 2019–2021. Before the first treatment, soil and vegetation were sampled. Afterwards, vegetation monitoring was performed twice a year: the cover of each vascular plant species and the number of Asclepias shoots were recorded in each plot.ResultThere were no differences in the studied soil attributes between the uninvaded and invaded plots. However, there were differences in vegetation composition, namely, the cover of sand grassland specialists was higher in uninvaded plots. Short‐term cutting negatively affected Asclepias after two years. The cover of specialists did not change in response to treatments, but the cover of other neophyte plant species increased.ConclusionsBased on our results, the invasion of Asclepias changes the vegetation composition, but not the soil. Although short‐term mowing can reduce the cover of Asclepias, but the grassland specialist plants do not regenerate; instead, secondary invasion occurs. We conclude that more time or additional treatment is required for native plant recovery.
LA - English
DB - MTMT
ER -
TY - JOUR
AU - Csecserits, Anikó
AU - Berki, Boglárka
AU - Botta-Dukát, Zoltán
AU - Csákvári, Edina
AU - Halassy, Melinda
AU - Mártonffy, András
AU - Rédei, Tamás
AU - Szitár, Katalin
TI - Változott-e a növényzet és az elözönlöttség mértéke kiskunsági homoki gyepekben és parlagokon az elmúlt évtizedben? – Egy megismételt vizsgálat eredményei
JF - TERMÉSZETVÉDELMI KÖZLEMÉNYEK
J2 - TERMÉSZETVÉD KÖZLEM
VL - 28
PY - 2022
SP - 13
EP - 28
PG - 16
SN - 1216-4585
DO - 10.20332/tvk-jnatconserv.2022.28.13
UR - https://m2.mtmt.hu/api/publication/33363134
ID - 33363134
AB - Mind az őshonos, mind az idegenhonos fajok terjedésének időbeli követése hosszú távú monitorozást igényel, mivel ez mutatja meg a tényleges változásokat. Jelen vizsgálatban 2019 és 2021 között megismételtünk egy kiskunsági elsődleges gyepekben és parlagokon 2007 és 2009 között készült növényzeti felmérést. Célunk a használat, a szukcessziós jellemzők és az elözönlöttség változásának követése volt. A használat szempontjából csak a parlagok esetén találtunk változást: egy részüket újra szántóföldi művelésbe vonták. A szukcesszióhoz köthetően a fiatal parlagokon az egyévesek csökkenését, míg a zárt gyepek esetén a fásszárúak tömegességének növekedését figyeltük meg. Sem az elsődleges gyepekben, sem a parlagokon nem változott az idegenhonos fajok aránya, ami arra utal, hogy ezek a fajok stabilan a kiskunsági növényzet részei; parlagokon jóval nagyobb tömegességgel, mint gyepekben.
LA - Hungarian
DB - MTMT
ER -