Your search keyword '"Buffa, Gabriella"' showing total 8 results

1. Functional seed traits and germination patterns predict species coexistence in Northeast Mediterranean foredune communities.

Author

Del Vecchio S, Mattana E, Ulian T, and Buffa G

Subjects

Italy, Seeds, Temperature, Ecosystem, Germination

Abstract

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., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

2. Within-species variation of seed traits of dune engineering species across a European climatic gradient.

Author

Del Vecchio, Silvia, Sharma, Shivam Kumar, Pavan, Mario, Rosario Acosta, Alicia Teresa, Bacchetta, Gianluigi, de Bello, Francesco, Isermann, Maike, Michalet, Richard, and Buffa, Gabriella

Subjects

SAND dunes, GERMINATION, WINTER, SEEDS, ENVIRONMENTAL degradation, SPECIES, RAINFALL

Abstract

Within-species variation is a key component of biodiversity and linking it to climatic gradients may significantly improve our understanding of ecological processes. High variability can be expected in plant traits, but it is unclear to which extent it varies across populations under different climatic conditions. Here, we investigated seed trait variability and its environmental dependency across a latitudinal gradient of two widely distributed duneengineering species (Thinopyrum junceum and Calamagrostis arenaria). Seed germination responses against temperature and seed mass were compared within and among six populations exposed to a gradient of temperature and precipitation regimes (Spiekeroog, DE; Bordeaux, FR; Valencia, ES; Cagliari, IT, Rome, IT; Venice, IT). Seed germination showed opposite trends in response to temperature experienced during emergence in both species: with some expectation, in populations exposed to severe winters, seed germination was warm-cued, whereas in populations from warm sites with dry summer, seed germination was cold-cued. In C. arenaria, variability in seed germination responses disappeared once the seed coat was incised. Seed mass from sites with low precipitation was smaller than that from sites with higher precipitation and was better explained by rainfall continentality than by aridity in summer. Within-population variability in seed germination accounted for 5 to 54%, while for seed mass it was lower than 40%. Seed trait variability can be considerable both within- and among-populations even at broad spatial scale. The variability may be hardly predictable since it only partially correlated with the analyzed climatic variables, and with expectation based on the climatic features of the seed site of origin. Considering seed traits variability in the analysis of ecological processes at both within- and amongpopulation levels may help elucidate unclear patterns of species dynamics, thereby contributing to plan adequate measures to counteract biodiversity loss. [ABSTRACT FROM AUTHOR]

Published

2022

3. Phenotypic differentiation among native, expansive and introduced populations influences invasion success.

Author

Lázaro‐Lobo, Adrián, Moles, Angela T., Fried, Guillaume, Verloove, Filip, Antonio Campos, Juan, Herrera, Mercedes, Goñi, Elena, Bioret, Fréderic, Buffa, Gabriella, Fantinato, Edy, Sentinella, Alexander, Zalucki, Myron P., Mayfield, Margaret, Smith, Tobias, Catling, Alexandra, Zalucki, Jacinta M., Lucardi, Rima D., Shoemaker, Cory M., Mason, David S., and Ervin, Gary N.

Subjects

PHENOTYPES, GERMINATION, PLANT size, SPECIES distribution, AUSTRALIANS, INFLORESCENCES

Abstract

Aim: Humans influence species distributions by modifying the environment and by dispersing species beyond their natural ranges. Populations of species that have established in disjunct regions of the world may exhibit trait differentiation from native populations due to founder effects and adaptations to selection pressures in each distributional region. We compared multiple native, expansive and introduced populations of a single species across the world, considering the influence of environmental stressors and transgenerational effects. Location: United States Gulf and Atlantic coasts, United States interior, European Atlantic and Mediterranean coasts, east coast of Australia. Taxon: Baccharis halimifolia L. (eastern baccharis). Methods: We monitored seed germination, seedling emergence, survival and early growth in a common garden experiment, conducted with over 18,200 seeds from 80 populations. We also evaluated the influence of environmental stress and maternal traits on progeny performance. Results: Introduced European Atlantic populations had faster germination and early growth than native populations. However, this was not the case for the more recently naturalized European Mediterranean populations. Introduced Australian populations grew faster than native populations in non‐saline environments but had lower survival in saline conditions commonly encountered in the native range. Similarly, expansive inland US populations germinated faster than coastal native populations in non‐saline environments but grew and germinated more slowly in saline environments. Maternal inflorescence and plant size were positively related with seed germination and seedling survival, whereas flower abundance was positively correlated with seedling early growth and survival. However, maternal traits explained a much lower fraction of the total variation in early demographic stages of B. halimifolia than did distributional range. Main conclusions: Phenotypic differentiation could allow B. halimifolia to adapt to different biotic and abiotic selection pressures found in each distributional range, potentially contributing to its success in introduced and expansive ranges. [ABSTRACT FROM AUTHOR]

Published

2021

4. Functional seed traits and germination patterns predict species coexistence in Northeast Mediterranean foredune communities.

Author

Vecchio, Silvia Del, Mattana, Efisio, Ulian, Tiziana, and Buffa, Gabriella

Subjects

GERMINATION, COEXISTENCE of species, BIOTIC communities, ECOLOGICAL niche, PLANT anatomy, PLANT species, PLANT communities

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2021

5. The germination niche of coastal dune species as related to their occurrence along a sea–inland gradient.

Author

Del Vecchio, Silvia, Fantinato, Edy, Roscini, Mauro, Acosta, Alicia T. R., Bacchetta, Gianluigi, Buffa, Gabriella, and Sonkoly, Judit

Subjects

GERMINATION, PLANT life cycles, SAND dunes, PLANT species, POPULATION dynamics, PLANT communities

Abstract

Aims: The early phases in the life cycle of a plant are the bottleneck for successful species establishment thereby affecting population dynamics and distribution. In coastal environments, the spatial pattern of plant communities (i.e. vegetation zonation) follows the ecological gradient of abiotic stress changing with the distance from the sea. This pattern has been mainly explained based on the adaptation and tolerance to the abiotic stress of adult plants. However, the adult niche may considerably differ from the germination niche of a plant species. The aim of this work was to investigate to what extent abiotic factors (specifically salinity, temperature, nitrogen and their interactions) constrain seed germination along the sea–inland gradient. Location: Latium coast (Central Italy). Methods: Germination tests were performed on seeds of focal species of three different plant communities which establish at increasing distances from the coastline: Cakile maritima subsp. maritima, Elymus farctus, Crucianella maritima. We tested increasing concentrations of NaCl (one of the main abiotic factors which decrease across the sea–inland gradient), and their interactions with temperature and KNO3, to consider other factors which drive germination processes. Results: The tolerance to salinity significantly decreased in relation to the position of species along the coastal zonation. Crucianella maritima was shown to be the least tolerant species, having a decrease in germination >80% across all conditions. KNO3 significantly (although slightly) increased the germination percentage in Cakile maritima subsp. maritima and Elymus farctus. When combined with NaCl, KNO3 alleviated the negative effects of salinity only in Cakile maritima subsp. maritima. Conclusions: The germination responses to the interaction among the tested factors suggest that the germination niche may explain vegetation zonation filtering species at their early stages. Quantifying environmental niches in different phases of the life cycle of plants may provide important insights into community assembly processes. [ABSTRACT FROM AUTHOR]

Published

2020

6. Germination responses of Mediterranean populations of Cakile maritima to light, salinity and temperature.

Author

Del Vecchio, Silvia, Porceddu, Marco, Fantinato, Edy, Acosta, Alicia T. R., Buffa, Gabriella, and Bacchetta, Gianluigi

Subjects

BRASSICACEAE, GERMINATION, EFFECT of light on plants, SOIL salinity, CLIMATE change

Abstract

Soil salinity is among the main factors influencing seed germination in coastal dunes, acting as a major determinant of species establishment and growth. Tolerance to salinity during the germination process is crucial especially for species of the drift line, which are exposed to high levels. Cakile maritima is an annual species of coastal dunes which can suffer from the effects of salt-spray and seawater inundation. We investigated the effect of light, temperature and salinity on seed germination of C. maritima in three populations of the Mediterranean Basin (central Italy, Sardinia and Mallorca). Results showed higher germination percentage in the dark, although the species was only weekly photoinhibited. Germination increased at 25°C and decreased under NaCl conditions. Exposure to NaCl increased mortality, especially at high temperature, suggesting a toxic effect on seeds. However, the response to salinity differed between populations, seemingly depending on the degree of aridity of collection sites: seeds from Sardinia (the most arid collection site) were the most salt-tolerant, while seeds from Mallorca (with the highest values of precipitation, especially in spring), were the least salt-tolerant. These germination patterns suggest that although being under the same macroclimate conditions, beach populations can be subjected to local conditions, such as aridity, influencing population responses at fine scale. In the context of global climate change, the investigation of germination under varying environmental factors can provide important information for understanding population dynamics, predicting the response of species to climate change and setting restoration plans. [ABSTRACT FROM AUTHOR]

Published

2018

7. The use of ligninase enzymes to target the scarification of the seed coat: application for the propagation of the orchids Himantoglossum adriaticum and Anacamptis morio

Author

Slaviero, Antonio, Buffa, Gabriella, Ceriani Roberta, M., Cerabolini, Bruno, and Pierce, Simon

Subjects

Himantoglossum adriaticum, germination, Settore BIO/02 - Botanica Sistematica, enzymes, Orchid, seed, germination, ligninase, enzymes, Himantoglossum adriaticum, Anacamptis morio, Orchid, seed, ligninase, Anacamptis morio

Published

2014

8. The germination niche of coastal dune species as related to their occurrence along a sea–inland gradient

Author

Gianluigi Bacchetta, Gabriella Buffa, Alicia Teresa Rosario Acosta, Edy Fantinato, Silvia Del Vecchio, Mauro Roscini, Del Vecchio, Silvia, Fantinato, Edy, Roscini, Mauro, Acosta, Atr, Bacchetta, Gianluigi, and Buffa, Gabriella

Subjects

environmental gradient, Ecology, adaptation, germination, Mediterranean basin, nitrogen, psammophilous vegetation, salinity, temperature, Settore BIO/02 - Botanica Sistematica, Niche, Plant Science, Biology, Mediterranean Basin, Salinity, Germination, bacteria, Adaptation, Settore BIO/03 - Botanica Ambientale e Applicata, Environmental gradient

Abstract

Aims The early phases in the life cycle of a plant are the bottleneck for successful species establishment thereby affecting population dynamics and distribution. In coastal environments, the spatial pattern of plant communities (i.e. vegetation zonation) follows the ecological gradient of abiotic stress changing with the distance from the sea. This pattern has been mainly explained based on the adaptation and tolerance to the abiotic stress of adult plants. However, the adult niche may considerably differ from the germination niche of a plant species. The aim of this work was to investigate to what extent abiotic factors (specifically salinity, temperature, nitrogen and their interactions) constrain seed germination along the sea–inland gradient. Location Latium coast (Central Italy). Methods Germination tests were performed on seeds of focal species of three different plant communities which establish at increasing distances from the coastline: Cakile maritima subsp. maritima, Elymus farctus, Crucianella maritima. We tested increasing concentrations of NaCl (one of the main abiotic factors which decrease across the sea–inland gradient), and their interactions with temperature and KNO3, to consider other factors which drive germination processes. Results The tolerance to salinity significantly decreased in relation to the position of species along the coastal zonation. Crucianella maritima was shown to be the least tolerant species, having a decrease in germination >80% across all conditions. KNO3 significantly (although slightly) increased the germination percentage in Cakile maritima subsp. maritima and Elymus farctus. When combined with NaCl, KNO3 alleviated the negative effects of salinity only in Cakile maritima subsp. maritima. Conclusions The germination responses to the interaction among the tested factors suggest that the germination niche may explain vegetation zonation filtering species at their early stages. Quantifying environmental niches in different phases of the life cycle of plants may provide important insights into community assembly processes.

Published

2020