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8 results on '"Urgyán, Renáta"'

3. Traits for transport: Alien wetland plants gain an advantage during endozoochorous seed dispersal by waterfowl

Author

Lovas-Kiss, Ádám, Navarro-Ramos, Maria J., Vincze, Orsolya, Löki, Viktor, Urgyán, Renáta, Pallér-Kapusi, Felícia, van Leeuwen, C.H.A., Green, Andy J., Lukács, Balázs András, Lovas-Kiss, Ádám, Navarro-Ramos, Maria J., Vincze, Orsolya, Löki, Viktor, Urgyán, Renáta, Pallér-Kapusi, Felícia, van Leeuwen, C.H.A., Green, Andy J., and Lukács, Balázs András

Abstract

The expansion of alien plant species is of global concern, yet our understanding of their dispersal mechanisms is limited. Here we address the potential of alien plant seeds to disperse via ingestion, transport and egestion in waterfowl (endozoochory). Based on their general rapid expansions, we expected alien plant species to have several advantages for endozoochory compared to native plant species. We hypothesised that seeds of alien species would have higher passage rate, longer gut retention times, higher germinability after gut passage and shorter time-to-germination after egestion by waterfowl. In order to test our hypotheses, we compared the endozoochorous dispersal ability of six pairs of congeneric alien and native wetland plant species in a feeding experiment with mallards (Anas platyrhynchos). We focused on differences in seed survival, gut retention time, germinability and time-to-germination. In the analyses we corrected for seed shape and volume as these seed traits are known to have important effects. With gut passage, alien species had higher passage rates and germinated slower, whereas native species had shorter retention times and greater germinability. Controlling for seed traits did not alter these conclusions, but seed traits affected all aspects of the endozoochory process. This suggests that alien species may have particular traits correlated with a higher endozoochory potential. Among control seeds, alien seeds germinated faster and their germinability was higher than natives. Seed traits explained differences in germinability and time-to-germination in control seeds. Seeds of alien plant species have traits that correlate with successful endozoochory. This may provide alien species with a competitive advantage over native plant species by ensuring higher endozoochory rates in new environments, potentially enabling their rapid expansions. Our study underlines the important role of seed traits in the endozoochory potential

Published
2023

6. Roadsides provide refuge for orchids: characteristic of the surrounding landscape

Author

Fekete, Réka, Bódis, Judit, Fülöp, Bence, Süveges, Kristóf, Urgyán, Renáta, Malkócs, Tamás, Vincze, Orsolya, Silva, Luís, and Molnár V., Attila

Subjects
landscape matrix, ecological corridor, anthropogenic habitats, linear landscape elements, roadside, Orchidaceae, Original Research
Abstract

Seminatural habitats are declining throughout the world; thus, the role of small anthropogenic habitats in the preservation of plants is becoming increasingly appreciated. Here, we surveyed the orchid flora of roadside verges in five Central European countries (Austria, Hungary, Romania, Slovakia, and Slovenia) and tested how the surrounding landscape matrix affects the overall number of species and individuals, and also different functional groups of orchids. We found more than 2,000 individuals of 27 orchid species during our surveys. According to our results, the increasing coverage of agricultural and urban areas negatively affects both the number of orchid species and individuals on roadsides. Our study further suggests that differences in the surrounding habitats affect which species are found on roadsides, since the increasing coverage of grasslands or forested areas around orchid occurrences had a significant positive effect on the number of grassland or forest‐dwelling species and individuals, respectively. Most variance in orchid numerosity and diversity was explained by the cover of the suitable habitat types of the respective taxa in the surrounding landscape of the sampling points. This highlights the importance of roadsides acting as refugia for numerous species and valuable plant communities as well as in supporting biodiversity in general., Increasing agricultural and urban areas negatively affects orchids on remaining habitat islands, such as roadside verges. But the fact that numerous orchid species and individuals are inhabiting these linear meadows suggests that these habitats are important for their conservation.

Published
2020

7. Plants dispersed by a non‐frugivorous migrant change throughout the annual cycle.

Author

Urgyán, Renáta, Lukács, Balázs A., Fekete, Réka, Molnár V., Attila, Nagy, András, Vincze, Orsolya, Green, Andy J., and Lovas‐Kiss, Ádám

Subjects
*COMPOSITION of seeds, *SOIL seed banks, *MALLARD, *INTRODUCED species, *PHYTOGEOGRAPHY, *PLANT phenology
Abstract

Aim: Migratory waterfowl are important endozoochory vectors for a range of plants lacking fleshy fruits. Our aim was to study the critical question of how endozoochory rates change throughout the annual cycle, and how this relates to plant life‐form and phenology. Location: Lake Velence, Hungary. Time period: 2017–2018. Major taxa studied: Mallard (Anas platyrhynchos), Angiospermae, Charophyta. Methods: We studied waterfowl endozoochory, quantifying seeds and other diaspores dispersed by mallards by collecting faecal samples monthly (ntotal = 670) at a Hungarian lake. We tested the germinability of all seeds recovered from the faecal samples. Main conclusions: We extracted 5,760 seeds representing 35 plant taxa from mallard faecal samples, and 40% of these seeds germinated successfully following gut passage. We found major differences between seasons in the species composition of the seeds recovered. The peak in species diversity and in abundance of terrestrial seeds coincided with the spring migration of mallards. Importantly, endozoochory was only strongly synchronized with seed production in submerged, but not in emergent or terrestrial plants, illustrating the potential for endozoochory of seeds ingested from the soil seed bank. Overall, our results suggest that endozoochory by migratory waterfowl is a strong and underestimated driver of plant distributions, and is likely to facilitate plant range shifts under climate change, and after introduction of alien species. [ABSTRACT FROM AUTHOR]

Published
2023
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