Your search keyword '"Isabella Vanetti"' showing total 11 results

1. Multiple colonization and dispersal events hide the early origin and induce a lack of genetic structure of the moss Bryum argenteum in Antarctica

Author

Serena Zaccara, Jairo Patiño, Peter Convey, Isabella Vanetti, and Nicoletta Cannone

Subjects

Antarctica, dispersal routes, Nunatak refugia, Palaeoclimate, phylogenetic patterns, transoceanic disjunctions, Ecology, QH540-549.5

Abstract

Abstract The dispersal routes of taxa with transoceanic disjunctions remain poorly understood, with the potential roles of Antarctica not yet demonstrated. Mosses are suitable organisms to test direct intra‐Antarctic dispersal, as major component of the extant Antarctic flora, with the cosmopolitan moss Bryum argenteum as ideal target species. We analyzed the genetic structure of B. argenteum to provide an evolutionary time frame for its radiation and shed light into its historical biogeography in the Antarctic region. We tested two alternative scenarios: (a) intra‐Antarctic panmixia and (b) intra‐Antarctic genetic differentiation. Furthermore, we tested for evidence of the existence of specific intra‐Antarctic dispersal routes. Sixty‐seven new samples (40 collected in Antarctica) were sequenced for ITS nrDNA and rps4 cpDNA regions, and phylogenetic trees of B. argenteum were constructed, with a focus on its Southern Hemisphere. Combining our new nrDNA dataset with previously published datasets, we estimated time‐calibrated phylogenies based on two different substitution rates (derived from angiosperms and bryophytes) along with ancestral area estimations. Minimum spanning network and pairwise genetic distances were also calculated. B. argenteum was potentially distributed across Africa and Antarctica soon after its origin. Its earliest intra‐Antarctic dispersal and diversification occurred during a warming period in the Pliocene. On the same timescale, a radiation took place involving a dispersal event from Antarctica to the sub‐Antarctic islands. A more recent event of dispersal and diversification within Antarctica occurred during a warm period in the Pleistocene, creating favorable conditions also for its colonization outside the Antarctic continent worldwide. We provide evidence supporting the hypothesis that contemporary populations of B. argenteum in Antarctica integrate a history of both multiple long‐range dispersal events and local persistence combined with in situ diversification. Our data support the hypothesis that B. argenteum has been characterized by strong connectivity within Antarctica, suggesting the existence of intra‐Antarctic dispersal routes.

Published

2020

2. Genetic and morphological analyses reveal a complex biogeographic pattern in the endemic barbel populations of the southern Italian peninsula

Author

Serena Zaccara, Silvia Quadroni, Vanessa De Santis, Isabella Vanetti, Antonella Carosi, Robert Britton, and Massimo Lorenzoni

Subjects

endemic barbels, hydrographic network, isolation, mitochondrial DNA, morphometric, southern Italy, Ecology, QH540-549.5

Abstract

Abstract The Italian peninsula is a biodiversity hotspot, with its freshwater fish fauna characterized by high levels of local endemism. Two endemic fluvio‐lacustrine fishes of the genus Barbus (barbel, family Cyprinidae) have allopatric distributions in the Tyrrhenian and Adriatic basins of Italy. Barbus plebejus inhabits the mid‐ to northern Adriatic basins, while B. tyberinus is widespread in all central‐northern basins draining into the Tyrrhenian Sea. For basins in Southern Italy draining into the southern parts of these seas, there remains a knowledge gap on their barbel populations due to no previous genetic and morphological studies, despite their apparent biogeographic isolation. Correspondingly, this study quantified the presence and distribution of barbels in the Adriatic and Tyrrhenian basins of Southern Italy through genetic and morphological analyses of 197 fish sampled across eight populations. Testing of how local isolation has influenced the evolution and persistence of these populations was completed by examining sequence variation at two mitochondrial loci (cytochrome b and D‐loop) and performing geometric morphometric analyses of body shape, plus measuring 11 morphometric and meristic characters. Phylogenetic and morphological analyses revealed the presence of two genetically distinct lineages that differed significantly from adjacent B. tyberinus and B. plebejus populations. These two new taxa, here described as SI1 and SI2 Barbus lineages, are highly structured and reflect a complex mosaic biogeographic pattern that is strongly associated with the underlying hydrographical scenarios of the basins. The geographic isolation of these basins thus has high evolutionary importance that has to be considered for maintaining endemism.

Published

2019

3. Genetic and morphological analyses reveal a complex biogeographic pattern in the endemic barbel populations of the southern Italian peninsula

Author

Antonella Carosi, Massimo Lorenzoni, Isabella Vanetti, Serena Zaccara, Silvia Quadroni, Vanessa De Santis, and Robert Britton

Subjects

0106 biological sciences, Allopatric speciation, Zoology, mitochondrial DNA, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, endemic barbels, hydrographic network, isolation, mitochondrial DNA, morphometric, southern Italy, Barbus plebejus, southern Italy, lcsh:QH540-549.5, Endemism, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Barbel, Ecology, biology, Barbus, biology.organism_classification, Biodiversity hotspot, Freshwater fish, morphometric, lcsh:Ecology, endemic barbels, hydrographic network, isolation, Meristics

Abstract

The Italian peninsula is a biodiversity hotspot, with its freshwater fish fauna characterized by high levels of local endemism. Two endemic fluvio‐lacustrine fishes of the genus Barbus (barbel, family Cyprinidae) have allopatric distributions in the Tyrrhenian and Adriatic basins of Italy. Barbus plebejus inhabits the mid‐ to northern Adriatic basins, while B. tyberinus is widespread in all central‐northern basins draining into the Tyrrhenian Sea. For basins in Southern Italy draining into the southern parts of these seas, there remains a knowledge gap on their barbel populations due to no previous genetic and morphological studies, despite their apparent biogeographic isolation. Correspondingly, this study quantified the presence and distribution of barbels in the Adriatic and Tyrrhenian basins of Southern Italy through genetic and morphological analyses of 197 fish sampled across eight populations. Testing of how local isolation has influenced the evolution and persistence of these populations was completed by examining sequence variation at two mitochondrial loci (cytochrome b and D‐loop) and performing geometric morphometric analyses of body shape, plus measuring 11 morphometric and meristic characters. Phylogenetic and morphological analyses revealed the presence of two genetically distinct lineages that differed significantly from adjacent B. tyberinus and B. plebejus populations. These two new taxa, here described as SI1 and SI2 Barbus lineages, are highly structured and reflect a complex mosaic biogeographic pattern that is strongly associated with the underlying hydrographical scenarios of the basins. The geographic isolation of these basins thus has high evolutionary importance that has to be considered for maintaining endemism., In Southern Italy, apparent biogeographic isolation may have influenced barbel evolutionary structure. Through genetic and morphological analyses, we quantified the presence and distribution of barbels in Southern Italy describing two new taxa, highly structured and reflecting a complex mosaic biogeographic pattern that is strongly associated with the underlying hydrographical scenarios of the basins.

Published

2019

4. Species composition of introduced and natural minnow populations of the Phoxinus cryptic complex in the westernmost part of the Po River Basin (north Italy)

Author

Serena Zaccara, Vanessa De Santis, J. Robert Britton, Isabella Vanetti, and Giovanni B. Delmastro

Subjects

0106 biological sciences, 0303 health sciences, Species complex, geography, geography.geographical_feature_category, Ecology, Biodiversity, Drainage basin, STREAMS, Biology, Minnow, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Freshwater ecosystem, 03 medical and health sciences, Phoxinus, Stocking, biology.animal, parasitic diseases, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology

Abstract

Invasive alien species are a major driver of biodiversity loss, with their impacts potentially more intense when complexes of cryptic species are involved. In freshwaters, the anthropogenic manipulation of fish communities has resulted in altered fish communities, and in Europe has increased the complexity of Phoxinus species assemblages. Here, we investigated the Phoxinus communities of the westernmost part of the Po river basin, where adjacent freshwater ecosystems (Alpine high-altitude lakes and lowland streams) are representative of different management strategies (i.e. manipulated fish communities via stocking in Alpine lakes vs. natural populations in streams). We tested the genetic composition of the cryptic Phoxinus populations inhabiting these waters, as the species are morphologically indistinct. Sequences of the mitochondrial cytochrome oxidase I (COI) were obtained from 239 specimens, with the results indicating that 17 Alpine high-altitude lakes are now populated by a complex of Phoxinus species, comprising P. septimaniae (native to the Mediterranean area of France), P. csikii (native to the Central Balkans) and P. lumaireul (native to the North Adriatic Sea basins). Their introduction resulted from their use as angling live baits. Minnow populations in lowland streams were primarily comprised of native P. lumaireul, with only a single P. csikii specimen detected. While nuclear sequences of the recombination activating gene 1 (RAG1) marker were not useful for tracking the presence of alien alleles in these stream populations, the COI data emphasised the importance of using molecular tools to investigate cryptic species complexes that have been modified by anthropogenic activities.

Published

2021

5. Genetic and phenotypic displacement of an endemic Barbus complex by invasive European barbel Barbus barbus in central Italy

Author

Antonella Carosi, Giuseppe Crosa, Massimo Lorenzoni, J. Robert Britton, Serena Zaccara, Silvia Quadroni, Vanessa De Santis, and Isabella Vanetti

Subjects

0106 biological sciences, Population, Zoology, Introgression, Introduced species, 010603 evolutionary biology, 01 natural sciences, Interspecific hybridization, Barbus complex, Central Italy, Native species, Phenotypic response, Barbus plebejus, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Barbel, Barbus complex, Central Italy, Interspecific hybridization, Native species, Phenotypic response, Ecology, biology, 010604 marine biology & hydrobiology, Barbus, biology.organism_classification, Barbus barbus, Biological dispersal

Abstract

Invasions of alien fishes can result in considerable consequences for native biodiversity, including local extinctions of native species through genetic introgression. In Italy, the alien European barbel Barbus barbus was first detected in 1994. It has since undergone range expansion, raising conservation concerns on their impacts on endemic Barbus species, including Barbus plebejus and Barbus tyberinus. Here, the genetic and phenotypic consequences of B. barbus invasion in the Tyrrhenian and Adriatic basins of central Italy were assessed by comparing ‘invaded’ with ‘uninvaded’ river sections that remain free of B. barbus due to barriers preventing their upstream dispersal. In both basins, uninvaded sites were confirmed as B. barbus free, but the endemic populations had low genetic variability. In the invaded sections, haplotype and nucleotide diversity was relatively high, with introgression skewed towards B. barbus genes, with the barbel populations comprising of only 4% and 23% of pure B. tyberinus and B. plebejus respectively. Relatively high morphological differentiation was apparent between pure B. tyberinus and hybrid forms, whilst differences were less apparent between pure B. plebejus and their hybrid forms. Thus, the endemic Barbus species only persist in areas that remain free of invasive B. barbus, with this only due to river structures that impede their upstream movements. As these structures also limit the effective population size of the endemic species, conservation plans must reconcile B. barbus dispersal prevention with the need to increase the population connectivity of the endemics.

Published

2021

6. Phenological and genetic characterization of Mediterranean plants at the peripheral range: the case of Cistus albidus near Lake Garda

Author

Fabrizio Buldrini, Bruno Bertolasi, Lorenzo Gui, Luisa Zago, Tommaso Sitzia, Giovanna Puppi, Isabella Vanetti, Giovanna Pezzi, Giorgio Binelli, Bertolasi, Bruno, Zago, Luisa, Gui, Lorenzo, Sitzia, Tommaso, Vanetti, Isabella, Binelli, Giorgio, Puppi, Giovanna, Buldrini, Fabrizio, and Pezzi, Giovanna

Subjects

0106 biological sciences, Mediterranean climate, Cistus albidus, Genetic variation, Herbaria, Natura 2000, Phenological traits, Population structure, Evolution, Range (biology), ved/biology.organism_classification_rank.species, Population, Endangered species, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, Cistus albidu, Phenological trait, Behavior and Systematics, Anthesis, Ecology, Evolution, Behavior and Systematics, Ecology, Genetic variability, education, education.field_of_study, ved/biology, Phenology, Ecology, Evolution, Behavior and Systematic, 010606 plant biology & botany

Abstract

The potential effects of climate change on the distribution of Mediterranean plants at their peripheral range make them extremely vulnerable to environmental fluctuations. The northern-most Italian population of Cistus albidus provides an outstanding case for study, as it grows at the extreme northern edge of its range and because phenological data have been available since the early XIX century. In the period 2012–2017, we analysed the population demography and spatial structure, growth and flowering phenology, and genetic variability to understand the history, current state and possible evolution of this population. Lastly, the population data were tested for association with environmental factors. The population studied consists of plants on average 10 years old, showing the highest growth rates in spring and autumn. Anthesis starts in April and ends in early June and is significantly dependent on temperature. High levels of genetic variability are present (average He = 0.471), with heterozygote excess detected at four loci out of five. Bayesian analysis does not support any genetic structuring of the population. The aggregated pattern in the distribution of individuals and their phenological traits, together with the absence of genetic structuring, seem to suggest that this extreme geographical population is not currently endangered.

Published

2019

7. Moss survival through in situ cryptobiosis after six centuries of glacier burial

Author

Serena Zaccara, Paolo Gerola, Nicoletta Cannone, Alberto Vianelli, Francesco Malfasi, Isabella Vanetti, Peter Convey, Mauro Guglielmin, and Tamara Corinti

Subjects

0106 biological sciences, Science, Antarctic Regions, Bryophyta, Vitality, 010603 evolutionary biology, 01 natural sciences, Article, Ice Cover, Active state, Cryptobiosis, High rate, geography, geography.geographical_feature_category, Repair processes, Multidisciplinary, biology, Adverse conditions, Ecology, Radiometric Dating, Glacier, biology.organism_classification, Moss, Medicine, 010606 plant biology & botany

Abstract

Cryptobiosis is a reversible ametabolic state of life characterized by the ceasing of all metabolic processes, allowing survival of periods of intense adverse conditions. Here we show that 1) entire moss individuals, dated by 14C, survived through cryptobiosis during six centuries of cold-based glacier burial in Antarctica, 2) after re-exposure due to glacier retreat, instead of dying (due to high rates of respiration supporting repair processes), at least some of these mosses were able to return to a metabolically active state and remain alive. Moss survival was assessed through growth experiments and, for the first time, through vitality measurements. Future investigations on the genetic pathways involved in cryptobiosis and the subsequent recovery mechanisms will provide key information on their applicability to other systematic groups, with implications for fields as divergent as medicine, biodiversity conservation, agriculture and space exploration.

Published

2017

8. Lifting the curtain on the freshwater mussel diversity of the Italian Peninsula and Croatian Adriatic coast

Author

Elsa Froufe 1, Manuel Lopes-Lima 1, 2, 3, Nicoletta Riccardi 4, Serena Zaccara 4, 5, Isabella Vanetti 5, Jasna Lajtner 6, Amìlcar Teixeira 7, Simone Varandas 8, Vincent Prié 9, Alexandra Zieritz 10, Ronaldo Sousa 11, Arthur E. Bogan 12, and Universidade do Minho

Subjects

0106 biological sciences, Anodonta, Evolution, Croatia, Biogeography, Biodiversity, Conservation, Genetic diversity, Italy, Unionida, Ecology, Evolution, Behavior and Systematics, Ecology, Nature and Landscape Conservation, 010603 evolutionary biology, 01 natural sciences, Behavior and Systematics, Peninsula, 14. Life underwater, Endemism, geography, geography.geographical_feature_category, Science & Technology, biology, 010604 marine biology & hydrobiology, Mussel, biology.organism_classification, Sinanodonta woodiana, Unionida, Italy, Croatia, Biogeography, Genetic diversity, Conservation, Unionida Italy Croatia Biogeography Genetic diversity Conservation, Phylogeography

Abstract

Freshwater mussels of the order Unionida have been dramatically declining globally. Despite their ecological importance, conservation of these animals has been hindered by unresolved taxonomy and a lack of data on the distribution and status of populations, especially in southern Europe. Although the Italian Peninsula has been noted as a centre of endemism and one of the major refugia of the glacial ages for several taxa, few studies have been performed on the genetic diversity of Unionida. Most importantly, the taxonomic status of several freshwater mussel populations of the Italian Peninsula is still unresolved. Here we present the first comprehensive dataset for the Unionida of the region spanning Italy and the coastal Croatian region (west of the Dinaric Alps). In total, 191 specimens were collected (85 Anodonta, 64 Unio, 17 Microcondylaea bonellii and 25 Sinanodonta woodiana) from 34 sites across the Italian Peninsula and coastal Croatian river basins for molecular identification (COI, 16S and 28S). Genetic analyses were performed to understand major phylogenetic and phylogeographic patterns. Seven species were detected: three Anodonta species (A. anatina, A. cygnea and A. exulcerata), two Unio species (U. mancus and U. elongatulus), Microcondylaea bonellii, and the invasive Sinanodonta woodiana. The presence of three endemic species (A. exulcerata, U. elongatulus and M. bonellii) confirms the importance of the region as a centre of endemism for freshwater mussels. The Apennine Mountains act as an important biogeographic barrier., This work was partially supported by the Portuguese Foundation for Science and Technology (FCT) under grants SFRH/BPD/108445/2015 (EF) and SFRH/BD/115728/2016 (MLL). Cindy Bogan reviewed a draft of this manuscript. We are grateful to the two anonymous reviewers for their helpful remarks and suggestions that improved the quality of the manuscript; and to the Go¨teborg Natural History Museum for the loan of Swedish tissue samples., info:eu-repo/semantics/publishedVersion

Published

2017

9. Lesser FlamingoPhoeniconaias minoras a nomadic species in African shallow alkaline lakes and pans: genetic structure and future perspectives

Author

Graham McCulloch, David M. Harper, Giuseppe Crosa, Giorgio Binelli, Isabella Vanetti, Brooks Childress, and Serena Zaccara

Subjects

Genetic diversity, education.field_of_study, Near-threatened species, biology, Ecology, Population, biology.organism_classification, parasitic diseases, Genetic structure, Lesser flamingo, IUCN Red List, Microsatellite, education, Inbreeding, Ecology, Evolution, Behavior and Systematics

Abstract

The Lesser Flamingo Phoeniconaias minor is a nomadic species, which inhabits shallow alkaline lakes and pans in sub-Saharan Africa and southern Asia. The extent of genetic diversity and the degree of differentiation within and among populations are important factors to determine in order to help manage and conserve the species, categorised as Near Threatened by the IUCN. This study provides an assessment of the population structure of the two largest African populations of P. minor by genotyping six microsatellite loci from 30 individuals sampled on Lake Bogoria (Kenya) and 11 individuals from Makgadikgadi Sua Pan (Botswana). The alleles detected per locus ranged from four to 13. The Lake Bogoria population harboured 15 specific alleles, whereas the Makgadikgadi Sua Pan population only six alleles. Moderate genetic diversity (He = 0.64–0.69) was comparable with populations that have not suffered from demographic bottlenecks or inbreeding. The populations are genetically similar with little differentiation...

Published

2011

10. A last stand in the Po valley: genetic structure and gene flow patterns in Ulmus minor and U. pumila

Author

L. Zago, Andrea Piotti, B Bertolasi, Stefano Leonardi, Giorgio Binelli, F Gorian, Isabella Vanetti, L. Gui, and Cristina Leonarduzzi

Subjects

Conservation genetics, Gene Flow, Ulmus, Ulmus minor, Zoology, biological invasion, Plant Science, medicine.disease_cause, Ulmus pumila, Biological invasion, Elm, Forest remnant, Fragmentation, Genetic diversity, Habitat degradation, Hybridization, Long distance dispersal, Paternity analysis, Plain forest, Gene flow, Pollen, fragmentation, Genetic variation, forest remnant, medicine, elm, long distance dispersal, hybridization, Ecosystem, paternity analysis, biology, Ecology, plain forest, Genetic Variation, genetic diversity, habitat degradation, Original Articles, biology.organism_classification, conservation genetics, Italy, Genetic structure, Hybridization, Genetic

Abstract

� Background and Aims Ulmus minor has been severely affected by Dutch elm disease (DED). The introduction into Europe of the exotic Ulmus pumila, highly tolerant to DED, has resulted in it widely replacing native U. minor populations. Morphological and genetic evidence of hybridization has been reported, and thus there is a need for assessment of interspecific gene flow patterns in natural populations. This work therefore aimed at studying pollen gene flow in a remnant U. minor stand surrounded by trees of both species scattered across an agricultural landscape. � Methods All trees from a small natural stand (350 in number) and the surrounding agricultural area within a 5-km radius (89) were genotyped at six microsatellite loci. Trees were morphologically characterized as U. minor, U. pumila or intermediate phenotypes, and morphological identification was compared with Bayesian clustering of genotypes. For paternity analysis, seeds were collected in two consecutive years from 20 and 28 mother trees. Maximum likelihood paternity assignment was used to elucidate intra- and interspecific gene flow patterns. � Key Results Genetic structure analyses indicated the presence of two genetic clusters only partially matching the morphological identification. The paternity analysis results were consistent between the two consecutive years of sampling and showed high pollen immigration rates (� 0� 80) and mean pollination distances (� 3 km), and a skewed distribution of reproductive success. Few intercluster pollinations and putative hybrid individuals were found. � Conclusions Pollen gene flow is not impeded in the fragmented agricultural landscape investigated. High pollen immigration and extensive pollen dispersal distances are probably counteracting the potential loss of genetic variation caused by isolation. Some evidence was also found that U. minor and U. pumila can hybridize when in sympatry. Although hybridization might have beneficial effects on both species, remnant U. minor populations represent a valuable source of genetic diversity that needs to be preserved.

Published

2015

11. Genetic and morphological analyses indicate high population mixing in the endangered cichlid Alcolapia flock of East Africa

Author

Giorgio Binelli, Serena Zaccara, Giuseppe Crosa, J. Robert Britton, Isabella Vanetti, John D. Balarin, David M. Harper, and Kenneth M. Mavuti

Subjects

education.field_of_study, Ecology, Extreme habitat, Population, Alcolapia ndalalani, Endangered species, Cichlids, Biology, Alcolapia grahami, biology.organism_classification, Gene flow, Alcolapia latilabris, Genetic structure, Threatened species, Alcolapia, Genetics, education, Morphometric analysis, Ecology, Evolution, Behavior and Systematics

Abstract

Alcolapia is a minor genus of small-bodied, polymorphic cichlids inhabiting the lagoons and hot springs surrounding the soda lakes Natron (largely in Tanzania) and Magadi (Kenya). Three Alcolapia species are present at Natron (Alcolapia alcalicus, Alcolapia ndalalani and Alcolapia latilabris) and one at Magadi (Alcolapia grahami). All are IUCN Red Listed as either vulnerable or endangered. We performed analyses of morphometric and genetic structure on 13 populations of the Natron Alcolapia flock, and one A. grahami population of Lake Magadi as an out-group. Morphometric analyses revealed significant differentiation in the head and mouth shape of the species at Natron. From a genetic perspective, among 70 mtDNA control region sequences 17 haplotypes were found, showing in the minimum spanning network a star-like pattern around the widespread haplotype 2lat. At Natron, there was limited genetic differentiation between the different populations of A. alcalicus and A. latilabris, despite apparent ecological barriers of extreme alkalinity that suggested their populations were isolated. Instead, there appeared to be some population connectivity, with a rate of 0.5–2.3 migrants per generation suggesting that natural factors, such as intense rains or transmission by large piscivorous birds, facilitate population connectivity and maintain genetic similarity. The outputs of high population connectivity and one genetic unit at the basin level (despite morphological divergence) suggest that any human activities that disrupt the connectivity of the freshwater resources of the Natron catchment could further threaten the integrity and current status of these already threatened fish populations.

Published

2014