期刊
ANNALS OF BOTANY
卷 127, 期 3, 页码 361-370出版社
OXFORD UNIV PRESS
DOI: 10.1093/aob/mcaa186
关键词
Alien species; annual plants; coastal dunes; foundation species; germination niche; global warming; morphological seed traits; Psammophytes
资金
- DAIS - Ca' Foscari University of Venice within the IRIDE programme
- Defra, UK
- Kew Future Leaders Fellowship - Diversity and Livelihoods, from the Royal Botanic Gardens, Kew
This study explored the link between seed germination niche and plant community ecology in the foredune community of the Veneto coast, Italy. Different seed germination strategies were identified, with implications for species coexistence and potential impacts of climate events on community structure.
Background and Aims The structure of plant communities, which is based on species abundance ratios, is closely linked to ecosystem functionality. Seed germination niche plays a major role in shaping plant communities, although it has often been neglected when explaining species coexistence. The aim of this work is to link the seed germination niche to community ecology, investigating how functional seed traits contribute to species coexistence. Methods Species selection was based on a database of 504 vegetation surveys from the Veneto coast (Italy). Through cluster analysis we identified the foredune community and selected all of its 19 plant species. By using the 'Phi coefficient' and frequency values, species were pooled in different categories (foundation species, accidental species of the semi-fixed dune and aliens), then the 19 species were grouped according to their germination responses to temperature and photoperiod through cluster analyses. For each germination cluster, we investigated germination trends against temperature and photoperiod by using generalized linear mixed models. Key Results We identified four germination strategies: (1) high germination under all tested conditions ('high-germinating'); (2) high germination at warm temperatures in the dark ('dark warm-cued'); (3) high germination at warm temperatures in the light ('light warm-cued'); and (4) low germination, regardless of conditions ('low-germinating'). Foredune foundation species showed a narrow germination niche, being 'low-germinating' or 'dark warm-cued'. Annual species of semi-fixed dunes were 'high-germinating', while alien species were the only members of the 'light warm-cued' cluster. Conclusions Our research suggests that different categories of species have dissimilar seed germination niches, which contributes to explaining their coexistence. Climatic events, such as rising temperature, could alter germination patterns, favouring seed regeneration of certain categories (i.e. alien and semi-fixed dune species) at the expense of others (i.e. foundation species, pivotal to ecosystem functioning), and hence potentially altering the plant community structure.
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