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001-es BibID:	BIBFORM059541
Első szerző:	Loreto, Francesco
Cím:	Isoprenoid emission in hygrophyte and xerophyte European woody flora: ecological and evolutionary implications / Francesco Loreto, Francesca Bagnoli, Carlo Calfapietra, Donata Cafasso, Manuela De Lillis, Goffredo Filibeck, Silvia Fineschi, Gabriele Guidolotti, Gábor Sramkó, Jácint Tökölyi, Carlo Ricotta
Dátum:	2014
ISSN:	1466-822X
Megjegyzések:	AimThe relationship between isoprenoid emission and hygrophily was investi-gated in woody plants of the Italian flora, which is representative of Europeandiversity. MethodsVolatile isoprenoids (isoprene and monoterpenes) were measured, ordata collected from the literature, for 154 species native or endemic to the Medi-terranean. The Ellenberg indicator value for moisture (EIVM) was used to describeplant hygrophily. Phylogenetic analysis was carried out at a broader taxonomic scaleon 128 species, and then refined on strong isoprene emitters (SalixandPopulusspecies) based on isoprene synthase gene sequences (IspS).ResultsIsoprene emitters were significantly more common and isoprene emis-sion was higher in hygrophilous EIVM classes, whereas monoterpene emitters weremore widespread and monoterpene emission was higher in xeric classes. However,when controlling for phylogeny, isoprene emission was not associated with EIVM,possibly due to the large presence of Salicaceae among hygrophilous isopreneemitters. Moreover, the distribution of isoprene emitters among EIVM classes wasnot related toIspS-based phylogenesis inPopulusandSalix, suggesting that thegene has not undergone evolution linked to ecological pressure. In contrast,the monoterpene emission pattern is independent of phylogeny, suggesting that theevolution of monoterpenes is associatedwith transitions to more xeric habitats.Main conclusionsOur results reveal an interesting ecological pattern linkingisoprenoids and water availability. We suggest that isoprene is a trait that: (1)evolved in plants adapted to high water availability; (2) is replaced by more effectiveprotection mechanisms, e.g. more stable isoprenoids, in plants adapting to morexeric environments; and (3) being strongly constrained by phylogeny, persists inSalicaceae adapted to more xeric environments
Tárgyszavak:	Természettudományok Biológiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban Adaptation chemo-taxonomy hygrophytes isoprene monoterpenes phylogenies salicaceae xerophytes water stress Élettudományok - Biológiai tudományok
Megjelenés:	Global Ecology And Biogeography. - 23 : 3 (2014), p. 334-345. -
További szerzők:	Bagnoli, Francesca Calfapietra, Carlo Cafasso, Donata De Lillis, Manuela Filibeck, Goffredo Fineschi, Silvia Guidolotti, Gabriele Sramkó Gábor (1981-) (biológus) Tökölyi Jácint (1984-) (biológus) Ricotta, Carlo
Pályázati támogatás:	MTA-DE Lendület MTA Viselkedésökológiai Kutatócsoport
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM103513
035-os BibID:	(WOS)000531363000001 (Scopus)85084413753
Első szerző:	Vági Balázs (biológus, herpetológus)
Cím:	Climate and mating systems as drivers of global diversity of parental care in frogs / Balázs Vági, Zsolt Végvári, András Liker, Robert P. Freckleton, Tamás Székely
Dátum:	2020
ISSN:	1466-822X
Megjegyzések:	Aim: Amphibians exhibit unusually diverse reproductive modes, including a wide array of parental care strategies. The evolutionary drivers of this diversity, however, remain unclear. Here, we investigate three major factors that might predict interspecific variation in parental care strategies: climate, intrasexual selection and social environment. We hypothesize that some forms of care evolved to cope with harsh conditions, such as dry or unpredictable habitats. We contrast this prediction with the hypothesis that parental roles have co-evolved with the social environment and mating systems. Location Global. Major taxa: studied Frogs and toads (Amphibia: Anura). Time period: Extant taxa that represent c. 220 Myr of evolutionary history. Methods: Using geographical and behavioural data for 971 species of frogs and toads that represent 45 anuran families, we quantified the global distribution of four forms of parenting separately for males and females: nest building, nest and/or tadpole attendance, carrying and nourishment. We used phylogenetic comparative analyses to investigate whether climate, social environment and mating systems predicted interspecific variation in parental care. Results: Our results showed that climatic effects contribute to parental care diversity: in cool and humid climates the males provide offspring attendance, whereas in predictable temperatures endotrophy occurs, whereby the female provides all nutrients for the offspring until metamorphosis. In addition, we found other associations between mating systems and forms of parental care: uniparental clutch attendance by males is present in species with territorial defence, whereas cooperative nest building co-occurs with sperm competition. The type of parental care is not associated with adult sex ratios. Main conclusions: No specific form of care is associated with hostile environments; in fact, some forms of care occur in beneficial conditions, whereas others are used independently from the climate. Instead, parenting diversity has co-evolved closely with mating systems in frogs.
Tárgyszavak:	Természettudományok Biológiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk climate frogs mating systems parental care phylogenetic comparative methods social environment
Megjelenés:	Global Ecology and Biogeography. - 29 : 8 (2020), p. 1373-1386. -
További szerzők:	Végvári Zsolt (1969-) (biológus) Liker István Freckleton, Robert P. Székely Tamás (1959-) (biológus)
Pályázati támogatás:	NKFIH-PD-132819 Egyéb NKFIH-K-116310 Egyéb ÉLVONAL-KKP-126949 Egyéb NKFIH-KH-130430 Egyéb 20385-3/2018/FEKUSTRAT Egyéb
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001-es BibID:	BIBFORM067072
Első szerző:	Vincze Orsolya (biológus)
Cím:	Parental cooperation in a changing climate : fluctuating environments predict shifts in care division / Orsolya Vincze, András Kosztolányi, Zoltan Barta, Clemens Küpper, Monif Alrashidi, Juan A. Amat, Araceli Argüelles Ticó, Fiona Burns, John Cavitt, Warren C. Conway, Medardo Cruz-López, Atahualpa Eduardo Desucre-Medrano, Natalie dos Remedios, Jordi Figuerola, Daniel Galindo-Espinosa, Gabriel E. García-Peña, Salvador Gómez Del Angel, Cheri Gratto-Trevor, Paul Jönsson, Penn Lloyd, Tomás Montalvo, Jorge Enrique Parra, Raya Pruner, Pinjia Que, Yang Liu, Sarah T. Saalfeld, Rainer Schulz, Lorenzo Serra, James J. H. St Clair, Lynne E. Stenzel, Michael A. Weston, Maï Yasué, Sama Zefania, Tamás Székely
Dátum:	2017
ISSN:	1466-822X 1466-8238
Tárgyszavak:	Természettudományok Biológiai tudományok idegen nyelvű folyóiratközlemény külföldi lapban
Megjelenés:	Global Ecology and Biogeography. - 26 : 3 (2017), p. 347-358. -
További szerzők:	Kosztolányi András (1971-) (biológus) Barta Zoltán (1967-) (biológus, zoológus) Küpper, Clemens AlRashidi, Monif Amat, Juan A. Argüelles Ticó, Araceli Burns, Fiona Cavitt, John Conway, Warren C. Cruz-López, Medardo Desucre-Medrano, Atahualpa Eduardo Dos Remedios, Natalie Figuerola, Jordi Galindo-Espinosa, Daniel García-Peña, Gabriel E. Gómez Del Angel, Salvador Gratto-Trevor, Cheri Jönsson, Paul Lloyd, Penn Montalvo, Tomas Parra, Jorge Enrique Pruner, Raya Que, Pinjia Liu, Yang Saalfeld, Sarah T. Schulz, Rainer Serra, Lorenzo St Clair, James J. H. Stenzel, Lynne E. Weston, Michael A. Yasué, Maï Zefania, Sama Székely Tamás (1959-) (biológus)
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