Your search keyword '"ENSCONET"' showing total 3 results

1. Climate shapes the seed germination niche of temperate flowering plants: a meta-analysis of European seed conservation data.

Author

Carta, Angelino, Fernández-Pascual, Eduardo, Gioria, Margherita, Müller, Jonas V, Rivière, Stéphane, Rosbakh, Sergey, Saatkamp, Arne, Vandelook, Filip, and Mattana, Efisio

Subjects

*GERMINATION, *FLOWERING of plants, *ANGIOSPERMS, *PLANT evolution, *SEASONAL temperature variations, *RESPONSE inhibition

Abstract

Background and Aims Interactions between ecological factors and seed physiological responses during the establishment phase shape the distribution of plants. Yet, our understanding of the functions and evolution of early-life traits has been limited by the scarcity of large-scale datasets. Here, we tested the hypothesis that the germination niche of temperate plants is shaped by their climatic requirements and phylogenetic relatedness, using germination data sourced from a comprehensive seed conservation database of the European flora (ENSCOBASE). Methods We performed a phylogenetically informed Bayesian meta-analysis of primary data, considering 18 762 germination tests of 2418 species from laboratory experiments conducted across all European geographical regions. We tested for the interaction between species' climatic requirements and germination responses to experimental conditions including temperature, alternating temperature, light and dormancy-breaking treatments, while accounting for between-study variation related to seed sources and seed lot physiological status. Key Results Climate was a strong predictor of germination responses. In warm and seasonally dry climates the seed germination niche includes a cold-cued germination response and an inhibition determined by alternating temperature regimes and cold stratification, while in climates with high temperature seasonality opposite responses can be observed. Germination responses to scarification and light were related to seed mass but not to climate. We also found a significant phylogenetic signal in the response of seeds to experimental conditions, providing evidence that the germination niche is phylogenetically constrained. Nevertheless, phylogenetically distant lineages exhibited common germination responses under similar climates. Conclusion This is the first quantitative meta-analysis of the germination niche at a continental scale. Our findings showed that the germination niches of European plants exhibit evolutionary convergence mediated by strong pressures at the macroclimatic level. In addition, our methodological approach highlighted how large datasets generated by conservation seed banking can be valuable sources to address questions in plant macroecology and evolution. [ABSTRACT FROM AUTHOR]

Published

2022

2. Climate shapes the seed germination niche of temperate flowering plants: a meta-analysis of European seed conservation data

Author

Angelino Carta, Eduardo Fernández-Pascual, Margherita Gioria, Jonas V Müller, Stéphane Rivière, Sergey Rosbakh, Arne Saatkamp, Filip Vandelook, Efisio Mattana, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), and Aix Marseille Université (AMU)

Subjects

[SDV]Life Sciences [q-bio], Temperature, seed dormancy, Bayes Theorem, Plant Science, Plants, Plant Dormancy, ENSCONET, Magnoliopsida, germination, Seeds, evolution, macroecology, plant regeneration, seed trait, Research in Context, climate, Phylogeny, climate, ENSCONET, evolution, germination, macroecology, plant regeneration, seed dormancy, seed trait

Abstract

Background and Aims Interactions between ecological factors and seed physiological responses during the establishment phase shape the distribution of plants. Yet, our understanding of the functions and evolution of early-life traits has been limited by the scarcity of large-scale datasets. Here, we tested the hypothesis that the germination niche of temperate plants is shaped by their climatic requirements and phylogenetic relatedness, using germination data sourced from a comprehensive seed conservation database of the European flora (ENSCOBASE). Methods We performed a phylogenetically informed Bayesian meta-analysis of primary data, considering 18 762 germination tests of 2418 species from laboratory experiments conducted across all European geographical regions. We tested for the interaction between species’ climatic requirements and germination responses to experimental conditions including temperature, alternating temperature, light and dormancy-breaking treatments, while accounting for between-study variation related to seed sources and seed lot physiological status. Key Results Climate was a strong predictor of germination responses. In warm and seasonally dry climates the seed germination niche includes a cold-cued germination response and an inhibition determined by alternating temperature regimes and cold stratification, while in climates with high temperature seasonality opposite responses can be observed. Germination responses to scarification and light were related to seed mass but not to climate. We also found a significant phylogenetic signal in the response of seeds to experimental conditions, providing evidence that the germination niche is phylogenetically constrained. Nevertheless, phylogenetically distant lineages exhibited common germination responses under similar climates. Conclusion This is the first quantitative meta-analysis of the germination niche at a continental scale. Our findings showed that the germination niches of European plants exhibit evolutionary convergence mediated by strong pressures at the macroclimatic level. In addition, our methodological approach highlighted how large datasets generated by conservation seed banking can be valuable sources to address questions in plant macroecology and evolution.

Published

2022

3. To what extent are threatened European plant species conserved in seed banks?

Author

Godefroid, Sandrine, Rivière, Stéphane, Waldren, Steve, Boretos, Nikolaos, Eastwood, Ruth, Vanderborght, Thierry, Godefroid, Sandrine, Rivière, Stéphane, Waldren, Steve, Boretos, Nikolaos, Eastwood, Ruth, and Vanderborght, Thierry

Abstract

The number of ex situ conservation facilities has grown dramatically in recent years, and they have become increasingly integrated under national and regional conservation initiatives. However, little information is available about the extent to which plant species are appropriately represented in ex situ collections. This paper assesses whether seed/spore collections stored in European seed banks cover or not, and to what extent, the species currently threatened with extinction in the wild. Although a substantial amount of the European flora (ca. 70%) is currently stored in seed banks, we highlight the relatively poor representation of threatened species: only 27% of the taxa listed on the European threatened plant list and 44% of the taxa listed in Annex II of the EU Habitat Directive are stored in European seed banks. Some taxonomical groups most at risk, e.g. Pteridophytes and Orchidaceae, are also under-represented in European seed banks. By examining the number of accessions per species and the number of seeds per accession, this study also gave some insight on how well species are conserved, considering that these two variables are surrogates for genetic diversity. We have highlighted that at least two thirds of the threatened species stored in European seed banks likely suffer from too low genetic diversity in the collections. These analyses were essential to identify those collections and additionally the standards needed to maximize the usefulness of future collections. © 2011 Elsevier Ltd., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2011