Your search keyword '"Pellecchia, Marco"' showing total 5 results

1. Genetic diversity in widespread species is not congruent with species richness in alpine plant communities.

Author

Taberlet P, Zimmermann NE, Englisch T, Tribsch A, Holderegger R, Alvarez N, Niklfeld H, Coldea G, Mirek Z, Moilanen A, Ahlmer W, Marsan PA, Bona E, Bovio M, Choler P, Cieślak E, Colli L, Cristea V, Dalmas JP, Frajman B, Garraud L, Gaudeul M, Gielly L, Gutermann W, Jogan N, Kagalo AA, Korbecka G, Küpfer P, Lequette B, Letz DR, Manel S, Mansion G, Marhold K, Martini F, Negrini R, Niño F, Paun O, Pellecchia M, Perico G, Piękoś-Mirkowa H, Prosser F, Puşcaş M, Ronikier M, Scheuerer M, Schneeweiss GM, Schönswetter P, Schratt-Ehrendorfer L, Schüpfer F, Selvaggi A, Steinmann K, Thiel-Egenter C, van Loo M, Winkler M, Wohlgemuth T, Wraber T, Gugerli F, and Vellend M

Subjects

Ecosystem, Geography, Biodiversity, Genetic Variation, Plants genetics

Abstract

The Convention on Biological Diversity (CBD) aims at the conservation of all three levels of biodiversity, that is, ecosystems, species and genes. Genetic diversity represents evolutionary potential and is important for ecosystem functioning. Unfortunately, genetic diversity in natural populations is hardly considered in conservation strategies because it is difficult to measure and has been hypothesised to co-vary with species richness. This means that species richness is taken as a surrogate of genetic diversity in conservation planning, though their relationship has not been properly evaluated. We tested whether the genetic and species levels of biodiversity co-vary, using a large-scale and multi-species approach. We chose the high-mountain flora of the Alps and the Carpathians as study systems and demonstrate that species richness and genetic diversity are not correlated. Species richness thus cannot act as a surrogate for genetic diversity. Our results have important consequences for implementing the CBD when designing conservation strategies., (© 2012 Blackwell Publishing Ltd/CNRS.)

Published

2012

2. History or ecology? Substrate type as a major driver of spatial genetic structure in Alpine plants.

Author

Alvarez N, Thiel-Egenter C, Tribsch A, Holderegger R, Manel S, Schönswetter P, Taberlet P, Brodbeck S, Gaudeul M, Gielly L, Küpfer P, Mansion G, Negrini R, Paun O, Pellecchia M, Rioux D, Schüpfer F, Van Loo M, Winkler M, and Gugerli F

Subjects

DNA Fingerprinting, Geography, Phylogeny, Plant Development, Plants classification, Species Specificity, Time Factors, Biodiversity, Climate, Plants genetics, Soil

Abstract

Climatic history and ecology are considered the most important factors moulding the spatial pattern of genetic diversity. With the advent of molecular markers, species' historical fates have been widely explored. However, it has remained speculative what role ecological factors have played in shaping spatial genetic structures within species. With an unprecedented, dense large-scale sampling and genome-screening, we tested how ecological factors have influenced the spatial genetic structures in Alpine plants. Here, we show that species growing on similar substrate types, largely determined by the nature of bedrock, displayed highly congruent spatial genetic structures. As the heterogeneous and disjunctive distribution of bedrock types in the Alps, decisive for refugial survival during the ice ages, is temporally stable, concerted post-glacial migration routes emerged. Our multispecies study demonstrates the relevance of particular ecological factors in shaping genetic patterns, which should be considered when modelling species projective distributions under climate change scenarios.

Published

2009

3. Break zones in the distributions of alleles and species in alpine plants

Author

IntraBioDiv Consortium, Thiel-Egenter, Conny, Alvarez, Nadir, Holderegger, Rolf, Tribsch, Andreas, Englisch, Thorsten, Wohlgemuth, Thomas, Colli, Licia, Gaudeul, Myriam, Gielly, Ludovic, Jogan, Nejc, Linder, Hans Peter, Negrin, Riccardo, Niklfeld, Harald, Pellecchia, Marco, Rioux, Delphine, Schönswetter, Peter, Taberlet, Pierre, van Loo, Marcela, Winkler, Manuela, and Gugerli, Felix

Published

2011

4. Effects of Species Traits on the Genetic Diversity of High-Mountain Plants: A Multi-Species Study across the Alps and the Carpathians

Author

The IntraBioDiv Consortium, Thiel-Egenter, Conny, Gugerli, Felix, Alvarez, Nadir, Brodbeck, Sabine, Cieślak, Elżbieta, Colli, Licia, Englisch, Thorsten, Gaudeul, Myriam, Gielly, Ludovic, Korbecka, Grażyna, Negrini, Riccardo, Paun, Ovidiu, Pellecchia, Marco, Rioux, Delphine, Ronikier, Michał, Schönswetter, Peter, Schüpfer, Fanny, Taberlet, Pierre, Tribsch, Andreas, van Loo, Marcela, Winkler, Manuela, Holderegger, Rolf, and Murray, Brad

Published

2009

5. History or ecology? Substrate type as a major driver of patial genetic structure in Alpine plants

Author

Alvarez, N., Thiel Egenter, C., Tribsch, A., Holderegger, R., Manel, S., Schonswetter, P., Taberlet, P., Brodbeck, S., Gaudeul, M., Gielly, L., Kupfer, P., Mansion, G., Riccardo NEGRINI, Paun, O., Pellecchia, Marco, Rioux, D., Schupfer, F., Loo, M., Winkler, M., Gugerli, F., and Intrabiodiv, Consortium

Subjects

0106 biological sciences, Time Factors, Ecology (disciplines), Climate, Population genetics, Plant Development, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Soil, Species Specificity, genetic structure, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, 0303 health sciences, Genetic diversity, Alpine plants, Geography, Settore AGR/17 - ZOOTECNICA GENERALE E MIGLIORAMENTO GENETICO, Ecology, Biodiversity, 15. Life on land, Plants, DNA Fingerprinting, Plant ecology, Habitat, 13. Climate action, Genetic structure, Common spatial pattern, Spatial variability

Abstract

Climatic history and ecology are considered the most important factors moulding the spatial pattern of genetic diversity. With the advent of molecular markers, species' historical fates have been widely explored. However, it has remained speculative what role ecological factors have played in shaping spatial genetic structures within species. With an unprecedented, dense large-scale sampling and genome-screening, we tested how ecological factors have influenced the spatial genetic structures in Alpine plants. Here, we show that species growing on similar substrate types, largely determined by the nature of bedrock, displayed highly congruent spatial genetic structures. As the heterogeneous and disjunctive distribution of bedrock types in the Alps, decisive for refugial survival during the ice ages, is temporally stable, concerted post-glacial migration routes emerged. Our multispecies study demonstrates the relevance of particular ecological factors in shaping genetic patterns, which should be considered when modelling species projective distributions under climate change scenarios.

Published

2009