Your search keyword '"Francesco Petruzzellis"' showing total 2 results

1. Functional Divergence Drives Invasibility of Plant Communities at the Edges of a Resource Availability Gradient

Author

Enrico Tordoni, Francesco Petruzzellis, Andrea Nardini, and Giovanni Bacaro

Subjects

fast–slow plant economics spectrum, functional traits, invasion ecology, mechanistic traits, trait probability density, Biology (General), QH301-705.5

Abstract

Invasive Alien Species (IAS) are a serious threat to biodiversity, severely affecting natural habitats and species assemblages. However, no consistent empirical evidence emerged on which functional traits or trait combination may foster community invasibility. Novel insights on the functional features promoting community invasibility may arise from the use of mechanistic traits, like those associated with drought resistance, which have been seldom included in trait-based studies. Here, we tested for the functional strategies of native and invasive assemblage (i.e., environmental filtering hypothesis vs. niche divergence), and we assessed how the functional space determined by native species could influence community invasibility at the edges of a resource availability gradient. Our results showed that invasive species pools need to have a certain degree of differentiation in order to persist in highly invaded communities, suggesting that functional niche divergence may foster community invasibility. In addition, resident native communities more susceptible to invasion are those which, on average, have higher resource acquisition capacity, and lower drought resistance coupled with an apparently reduced water-use efficiency. We advocate the use of a mechanistic perspective in future research to comprehensively understand invasion dynamics, providing also new insights on the factors underlying community invasibility in different ecosystems.

Published

2020

2. Cross Taxon Congruence Between Lichens and Vascular Plants in a Riparian Ecosystem

Author

Giovanni Bacaro, Enrico Tordoni, Stefano Martellos, Simona Maccherini, Michela Marignani, Lucia Muggia, Francesco Petruzzellis, Rossella Napolitano, Daniele Da Re, Tommaso Guidi, Renato Benesperi, Vincenzo Gonnelli, and Lorenzo Lastrucci

Subjects

biodiversity, co-correspondence analysis, conservation planning, surrogate taxon, Biology (General), QH301-705.5

Abstract

Despite that congruence across taxa has been proved as an effective tool to provide insights into the processes structuring the spatial distribution of taxonomic groups and is useful for conservation purposes, only a few studies on cross-taxon congruence focused on freshwater ecosystems and on the relations among vascular plants and lichens. We hypothesized here that, since vascular plants could be good surrogates of lichens in these ecosystems, it would be possible to assess the overall biodiversity of riparian habitats using plant data only. In this frame, we explored the relationship between (a) species richness and (b) community composition of plants and lichens in a wetland area located in central Italy to (i) assess whether vascular plants are good surrogates of lichens and (ii) to test the congruence of patterns of species richness and composition among plants and lichens along an ecological gradient. The general performance of plant species richness per se, as a biodiversity surrogate of lichens, had poor results. Nonetheless, the congruence in compositional patterns between lichens and vascular plants varied across habitats and was influenced by the characteristics of the vegetation. In general, we discussed how the strength of the studied relationships could be influenced by characteristics of the data (presence/absence vs. abundance), by the spatial scale, and by the features of the habitats. Overall, our data confirm that the more diverse and structurally complex the vegetation is, the more diverse are the lichen communities it hosts.

Published

2019