Angelino Carta

Conservation assessment of the endemic plants of the Tuscan Archipelago, Italy.

The Mediterranean islands support a rich diversity of flora, with a high percentage of endemic species. We used the IUCN categories and criteria to assess the conservation status of 16 endemic plant taxa (species and subspecies) of the Tuscan Archipelago, based on data collected during field surveys over 4 years. Our data were sufficient to use criteria B, C and D in our assessment. We used criterion B in the assessment of all 16 taxa, criterion C for four taxa, criterion D for 11 taxa and criteria B, C and D for three taxa, Centaurea gymnocarpa, Limonium doriae and Silene capraria . According to our results L. doriae, Romulea insularis and S. capraria are categorized as Critically Endangered and therefore require immediate conservation measures; eight taxa are categorized as Endangered, two as Vulnerable and three as Near Threatened. Compared to earlier assessments, eight species are recategorized with a higher degree of threat, two species are recategorized with a lower degree of threat, five are unchanged, and one species is assessed for the first time. Based on the IUCN categorization our results show that all the endemic species of the Tuscan Archipelago are directly and/or indirectly threatened by human activities, such as tourism and agriculture, and invasive species of plants and animals. The Tuscan Archipelago National Park is responsible for the conservation of all endemic species in the area.

Plant regeneration from seeds responds to phylogenetic relatedness and local adaptation in Mediterranean Romulea (Iridaceae) species

Abstract Seed germination is the most important transitional event between early stages in the life cycle of spermatophytes and understanding it is crucial to understand plant adaptation and evolution. However, so far seed germination of phylogenetically closely related species has been poorly investigated. To test the hypothises that phylogenetically related plant species have similar seed ecophysiological traits thereby reflecting certain habitat conditions as a result of local adaptation, we studied seed dormancy and germination in seven Mediterranean species in the genus Romulea (Iridaceae). Both the across‐species model and the model accounting for shared evolutionary history showed that cool temperatures (≤ 15°C) were the main factor that promoted seed germination. The absence of embryo growth before radicle emergence is consistent with a prompt germination response at cool temperatures. The range of temperature conditions for germination became wider after a period of warm stratification, denoting a weak primary dormancy. Altogether these results indicate that the studied species exhibit a Mediterranean germination syndrome, but with species‐specific germination requirements clustered in a way that follows the phylogenetic relatedness among those species. In addition, species with heavier seeds from humid habitats showed a wider range of conditions for germination at dispersal time than species from dry habitats possessing lighter seeds. We conclude that while phylogenetically related species showed very similar germination requirements, there are subtle ecologically meaningful differences, confirming the onset of adaptation to local ecological factors mediated by species relatedness.

Flower Bouquet Variation in Four Species of Crocus ser. Verni

Flowering plants employ a wide variety of signals, including scent, to attract pollinators. The aim of this work was to examine whether flower volatiles in four closely related Crocus species are linked to species divergence and to the current knowledge on their pollination syndromes. Fragrances of freshly opened flowers in Crocus etruscus, C. ilvensis, C. neglectus, and C. vernus, all belonging to ser. Verni, were analyzed using GC/MS. Results coincide with present knowledge about systematic relationships among taxa. The four species fall into two main fragrance types, based on similarities of their volatile compounds. In C. etruscus, C. ilvensis, and C. neglectus, oxygenated monoterpenes (lilac aldehyde B and A) are most abundant, while C. vernus has a fragrance rich in monoterpene hydrocarbons (α-pinene and limonene). Our results point towards outcrossing mating strategies for C. etruscus, C. ilvensis, and C. neglectus, whose volatile compounds are known as pollinator attractants. This is in line with their flower architecture, showing a style of variable height, often overtopping stamens. On the other hand, a self-pollination strategy was repeatedly suggested in the literature for C. vernus, marked by flowers with the style deeply inserted in the stamens and also by a completely different flower bouquet.

Lectotypification of the name Crocus sativus var. vernus L. (Iridaceae) and its consequences within Crocus ser. Verni

The typification of the Linnaean name Crocus sativus var. vernus is discussed. A lectotype is designated from the Burser Herbarium at UPS. Due to changes in taxonomy and this lectotypification, it has not been possible to maintain the pres- ent strict usage of the name. Crocus vernus (L.) Hill should correctly be applied to the plants previously known as C. vernus subsp. albiflorus (Kit.) Ces. (≡ C. albiflorus Kit.). The next available name for the species to which the name C. vernus subsp. vernus has been misapplied is C. neapolitanus (Ker Gawl.) Loisel.

Testing the large genome constraint hypothesis: plant traits, habitat and climate seasonality in Liliaceae

The factors driving genome size evolution in Liliaceae were examined. In particular, we investigated whether species with larger genomes are confined to less stressful environments with a longer vegetative season. We tested our hypotheses by correlating the genome size with other plant traits and environmental variables. To determine the adaptive nature of the genome size, we also compared the performances of Brownian motion (BM) processes with those inferred by Ornstein-Uhlenbeck (OU) models of trait evolution. A positive correlation of genome size with plant size, mean temperature and habitat moisture and a negative correlation with altitude and precipitation seasonality were found. Models of trait evolution revealed a deviation from a drift process or BM. Instead, changes in genome size were significantly associated with precipitation regimes according to an OU process. Specifically, the evolutionary optima towards which the genome size evolves were higher for humid climates and lower for drier ones. Taken together, our results indicate that the genome size increase in Liliaceae is constrained by climate seasonality.

Phylogenetic measures of biodiversity uncover pteridophyte centres of diversity and hotspots in Tuscany

Abstract Biodiversity studies traditionally use species as their analysis unit. However, observed biodiversity is not necessarily an indicator of significant biodiversity and therefore, should not be used alone, particularly when the results will be employed for conservation planning. Here, we examine pteridophyte diversity in Tuscany using 4668 geo-referenced pteridophyte records stored in Wikiplantbase #Toscana and calculating standard richness measures and phylogenetic indices; in addition, we assessed the environmental predictors of each diversity metric. Finally, we identified which areas hosting significantly high diversity are not adequately covered by protected areas or intersected by human activities. Although considerable diversity is distributed along Tuscany within areas traditionally recognised as biodiversity hotspots, important areas of diversity are identified only after the application of randomisation tests and through the phylogenetic metrics. Topographic ruggedness resulted the single most important variable predicting high value of all indices; temperature seasonality and temperature continentality resulted the secondary explanatory variables with a significant negative effect on most diversity indices.

Seed regeneration in Mediterranean temporary ponds: germination ecophysiology and vegetation processes

Mediterranean temporary ponds (MTPs) are very specialised and threatened habitats found in Mediterranean-like bioclimates worldwide. MTPs have received considerable attention over the past years because of the multiple ecological roles they play in the landscape. Nevertheless, seed germination, dormancy, and desiccation tolerance of species living in MTPs are poorly investigated. Here, we reviewed these topics and found that seed germination data exist for only 48 species. While dormancy differs among the species, germination mostly depends on cool temperatures (<15°C) which are associated with the main rainfall season and on the light triggering germination in seeds located close to the soil surface and resulting in the persistence of buried seeds until disturbances occur. Most species seem amenable to seed banking as a means of ex situ conservation but a worldwide comparative study is required to better understand seed lifespan in MTPs. In general, these species exhibit a Mediterranean germination syndrome and plastic germination response that is typical of neither truly aquatic nor wetland plants. The importance of conducting ecologically meaningful germination studies, including germination experiments conducted in the field has been highlighted to gain further insights into the dynamic processes in the vegetation and to test for convergent evolution.

All in an afternoon: mixed breeding system in one-day lasting flowers of Hypericum elodes L. (Hypericaceae)

Knowledge about mixed mating systems can improve our understanding of the evolutionary dynamics of reproductive systems. Here we report a study of the floral and reproductive biology of Hypericum elodes, an Atlantic-European soft-water pools specialist which shows a floral architecture consistent with both self- and cross-pollination. Controlled pollination experiments were performed in a natural population during three consecutive years. Marked flowers were monitored until fruit production, and laboratory germination experiments were conducted with the seeds produced. Plants were self-compatible (SCI>0.75), however, compared with selfing, cross-pollination enhanced fruit-set, seed-set and seedling growth, but not seed germination. Inbreeding depression (δ) was mild in the pre-dispersal stages (δ = 0.22 for fruit set, 0.18 for seed set and 0.13 for seed mass), low for germination percentage (δ = 0.003) and mild for seedling growth (δ = 0.23). The breeding system of H. elodes promotes outcrossing and assures reproductive success by means of competitive autogamy. Our results suggest a mixed mating strategy for the studied population, characterized by mild inbreeding depression (cumulative δ = 0.57), highlighting the benefit of this reproductive mode in unpredictable habitat, as the typical shallow-water meadows where H. elodes grows.

The avoidance of self-interference in the Tuscan endemic spring geophyte Crocus etruscus Parl. (Iridaceae)

Abstract Spatial separation between sexes within hermaphrodite flowers (herkogamy) is widespread among angiosperms and is traditionally viewed as an adaptation that reduces the likelihood of self-pollination. While different degrees of herkogamy have been reported for Crocus, the relationship between sexual organ positions and reproductive fitness has not been explored yet, and studies of the breeding system within natural populations remain scarce within the genus. We analyzed the effects of different breeding systems (spontaneous self-pollination, facilitated self-pollination and cross-pollination) and of herkogamy degree on female reproductive success of the Tuscan endemic Crocus etruscus. Results showed that C. etruscus is monomorphic for style length and self-incompatible (SCI = 0.29). We also detected a significant negative effect of herkogamy on seed set of open-pollinated flowers. Thus, we conclude that the species avoids self-fertilization by self-incompatibility, but interestingly shows also a certain degree of spatial separation of male and female reproductive structures within the same flower. This floral trait could be useful to avoid self-interference thus reducing ovule discounting and pollen loss on its own stigma.

Seed morphology and genome size in two Tuscan (Crocus, Iridaceae) endemics: C. etruscus and C. ilvensis

Recent taxonomic investigation led to the segregation of Crocus ilvensis Peruzzi & Carta, a narrow endemic to Elba Island (Tuscan Archipelago, Central Italy), from C. etruscus Parl., endemic to continental Tuscany. The aim of this study is to produce further basic systematic data aimed comparing these taxa by means of seed morphological features and genome size. Although seed macro-morphology is very similar, seed surface microstructure, seed mass, seed dimensions and genome size differ between the two studied species.