259 research outputs found
Populations studies on two endemic taxa of southwestern Sardinia: Dianthus morisianus Vals. (Caryophyllaceae) and Anchusa littorea Moris (Boraginaceae)
In the Mediterranean region as elsewhere, intense coastal development has resulted in widespread modification of coastal ecosystems. Here, coastal sand dunes represent an extremely vulnerable habitat to many forms of disturbance, including those connected with recreational tourism which in
recent years has increasingly contributed to the destruction and fragmentation of natural coastal habitats.
This study concerns two narrow endemic plants growing on coastal dune systems of southwest Sardinia. Anchusa littorea Moris is a short-lived species of open dunes and D. morisianus is a perennial species which grows on stabilized dunes. The only natural populations of these species are located in southwest Sardinia. Like many other rare species of this type of habitat we know little
of the reasons for their extreme rarity, making it difficult to identify and recommend conservation actions. The thesis provides a detailed investigation of the population ecology of the existing populations of the two species with the aim of identifying the constraints on their viability. Specifically, the aims of the present study were to analyze the following features:
To investigate the conservation status of this species;
To individuate and quantify the main threats acting on this population;
To analyse some critical stage of their life-cycle (i.e. modeling of emergence and germination);
To evaluate the phenological pattern;
To propose adequate conservation measures.
Three years of study has been reveal some critical elements in the ecology of the species and their rarity and the investigation of each biology aspect about these psammophilous endangered plants yielded the information needed in order to identifythe critical aspects that affect the survival and toguide the proposal and implementation of conservation measures
Populations studies on two endemic taxa of southwestern Sardinia: Dianthus morisianus Vals. (Caryophyllaceae) and Anchusa littorea Moris (Boraginaceae)
In the Mediterranean region as elsewhere, intense coastal development has resulted in widespread modification of coastal ecosystems. Here, coastal sand dunes represent an extremely vulnerable habitat to many forms of disturbance, including those connected with recreational tourism which in
recent years has increasingly contributed to the destruction and fragmentation of natural coastal habitats.
This study concerns two narrow endemic plants growing on coastal dune systems of southwest Sardinia. Anchusa littorea Moris is a short-lived species of open dunes and D. morisianus is a perennial species which grows on stabilized dunes. The only natural populations of these species are located in southwest Sardinia. Like many other rare species of this type of habitat we know little
of the reasons for their extreme rarity, making it difficult to identify and recommend conservation actions. The thesis provides a detailed investigation of the population ecology of the existing populations of the two species with the aim of identifying the constraints on their viability. Specifically, the aims of the present study were to analyze the following features:
To investigate the conservation status of this species;
To individuate and quantify the main threats acting on this population;
To analyse some critical stage of their life-cycle (i.e. modeling of emergence and germination);
To evaluate the phenological pattern;
To propose adequate conservation measures.
Three years of study has been reveal some critical elements in the ecology of the species and their rarity and the investigation of each biology aspect about these psammophilous endangered plants yielded the information needed in order to identifythe critical aspects that affect the survival and toguide the proposal and implementation of conservation measures
From global to local scale: where is the best for conservation purpose?
AbstractDemographic analysis of plant populations represents an essential conservation tool allowing to identify the population trends both at global and at the local level. In this study, the population dynamics of Helianthemum caput-felis (Cistaceae) was investigated at the local level by monitoring six populations distributed in Sardinia, Balearic Islands and Ibero-Levantine coast (Alicante). Demographic data for each population were analysed by performing Integral Projection Models (IPMs). Our results showed that, although the local trend of the main basic demographic functions was similar, vital rates and demographic dynamics varied among populations indicating high variability. In fact, asymptotic growth rate in Spanish populations widely varied both between years and populations (some populations growth, decline or strongly decline), while Sardinian populations showed greater equilibrium or a slight increase. Also, the typical pattern of a long-lived species was not supported by the results at the local scale. These results indicated that different populations of the same species can present extremely different population dynamics and support the belief that, for conservation needs, local studies are more informative than global ones: the conservation status of H. caput-felis could notably vary at a small spatial scale and, accordingly, the conservation efforts must be planned at the population level and supported by local analysis
Hematopietic Stem Cell Transplantation in Thalassemia and Related Disorders
The basis of allogeneic hemopoietic stem cell (HSC) transplantation in thalassemia consists in substituting the ineffective thalassemic erythropoiesis with and allogeneic effective one. This cellular replacement therapy is an efficient way to obtain a long lasting, probably permanent, clinical effective correction of the anaemia avoiding transfusion requirement and subsequent complications like iron overload. The first HSC transplant for thalassemia was performed in Seattle on Dec 2, 1981. In the early eighties transplantation procedure was limited to very few centres worldwide. Between 17 December 1981 and 31 January 2003, over 1000 consecutive patients, aged from 1 to 35 years, underwent transplantation in Pesaro. After the pioneering work by the Seattle and Pesaro groups, this therapeutic approach is now widely applied worldwide. Medical therapy of thalassemia is one of the most spectacular successes of the medical practice in the last decades. In recent years advances in knowledge of iron overload patho-physiopathology, improvement and diffusion of diagnostic capability together with the development of new effective and safe oral chelators promise to further increase success of medical therapy. Nevertheless situation is dramatically different in non-industrialized countries were the very large majority of patients live today. Transplantation technologies have improved substantially during the last years and transplantation outcome is likely to be much better today than in the ‘80s. Recent data indicated a probability of overall survival and thalassemia free survival of 97% and 89% for patients with no advanced disease and of 87% and 80% for patients with advanced disease. Thus the central role of HSC in thalassemia has now been fully established. HSC remains the only definitive curative therapy for thalassemia and other hemoblobinopathies. The development of oral chelators has not changed this position. However this has not settled the controversy on how this curative but potentially lethal treatment stands in front of medical therapy for adults and advanced disease patients. In sickle cell disease HSC transplantation currently is reserved almost exclusively for patients with clinical features that indicate a poor outcome or significant sickle-related morbidity
Identifying bottlenecks in the life cycle of plants living on cliffs and rocky slopes : lack of knowledge hinders conservation actions
Long term survival of plant populations relies on successful reproductive cycle to obtain generation turnover.
Focusing on plant species of conservation concern, we brought together a group of plant conservationists from
different countries to assess whether the already available information on plant reproductive biology and
autecology is adequate for identifying which phases of single species life cycle might act as bottleneck.
We compiled a list of 80 plant species of conservation concern living on European cliffs and rocky slopes, for
which biological and autecological information was collected from scientific literature, technical reports, and
expert knowledge.
Results have shown that the available information on species reproductive biology and autecology is inadequate
to identify bottlenecks in the life cycle of many species and to provide insights for the practical conservation
of many more. Available knowledge is mainly referred to the flowering phase, less on seed production and
much less on seedling establishment and on cloning. Meanwhile and noteworthy, flowering resulted to be the less
critical phase for the fulfilment of the species life cycle.
Overall, with this perspective article we aim to encourage a constructive debate among the scientific community
members and policymakers to set up novel concerted strategies for the conservation of plant species of
conservation concern. The challenge of the discussion is the implementation of the current approach with new biological and ecological information to be exclusively targeted at identifying the constraints that limit the
generation turnover and furnishing specific indications for active management.peer-reviewe
Global and Regional IUCN Red List Assessments: 1
In this contribution, the conservation status assessment of six plant species according to IUCN categories and criteria are presented. It includes the assessment at global level of Linaria tonzigii Lona, Allium garganicum Brullo, Pavone, Salmeri & Terrasi, Ferula arrigonii Bocchieri, Orchis patens Desf. subsp. patens and Armeria saviana Selvi and the assessment at regional level (Italy) of Viola jordanii Hanry
Red Listing plants under full national responsibility: Extinction risk and threats in the vascular flora endemic to Italy
Taxa endemic to a country are key elements for setting national conservation priorities and for driving conservation
strategies, since their persistence is entirely dependent on national policy. We applied the IUCN Red
List categories to all Italian endemic vascular plants (1340 taxa) to assess their current risk of extinction and to
highlight their major threats. Our results revealed that six taxa are already extinct and that 22.4% (300 taxa) are
threatened with extinction, while 18.4% (247; especially belonging to apomictic groups) have been categorized
as Data Deficient. Italian endemic vascular plants are primarily threatened by natural habitat modification due
to agriculture, residential and tourism development. Taxa occurring in coastal areas and lowlands, where anthropogenic
impacts and habitat destruction are concentrated, display the greatest population decline and extinction.
The national network of protected areas could be considered effective in protecting endemic-rich areas (ERAs) and endemic taxa, but ineffective in protecting narrow endemic-rich areas (NERAs), accordingly changes
to the existing network may increase the effectiveness of protection. For the first time in the Mediterranean Basin
biodiversity hotspot, we present a comprehensive extinction assessment for endemic plants under the full responsibility
of a single country. This would provide an important step towards the prioritization and conservation
of threatened endemic flora at Italian, European, and Mediterranean level. A successful conservation
strategy of the Italian endemic vascular flora should implement the protected area system, solve some taxonomical
criticism in poorly known genera, and should rely on monitoring threatened species, and on developing
species-specific action plans
Identifying bottlenecks in the life cycle of plants living on cliffs and rocky slopes: Lack of knowledge hinders conservation actions
Long term survival of plant populations relies on successful reproductive cycle to obtain generation turnover. Focusing on plant species of conservation concern, we brought together a group of plant conservationists from different countries to assess whether the already available information on plant reproductive biology and autecology is adequate for identifying which phases of single species life cycle might act as bottleneck. We compiled a list of 80 plant species of conservation concern living on European cliffs and rocky slopes, for which biological and autecological information was collected from scientific literature, technical reports, and expert knowledge. Results have shown that the available information on species reproductive biology and autecology is inadequate to identify bottlenecks in the life cycle of many species and to provide insights for the practical conservation of many more. Available knowledge is mainly referred to the flowering phase, less on seed production and much less on seedling establishment and on cloning. Meanwhile and noteworthy, flowering resulted to be the less critical phase for the fulfilment of the species life cycle. Overall, with this perspective article we aim to encourage a constructive debate among the scientific community members and policymakers to set up novel concerted strategies for the conservation of plant species of conservation concern. The challenge of the discussion is the implementation of the current approach with new biological and ecological information to be exclusively targeted at identifying the constraints that limit the generation turnover and furnishing specific indications for active management
Les droits disciplinaires des fonctions publiques : « unification », « harmonisation » ou « distanciation ». A propos de la loi du 26 avril 2016 relative à la déontologie et aux droits et obligations des fonctionnaires
The production of tt‾ , W+bb‾ and W+cc‾ is studied in the forward region of proton–proton collisions collected at a centre-of-mass energy of 8 TeV by the LHCb experiment, corresponding to an integrated luminosity of 1.98±0.02 fb−1 . The W bosons are reconstructed in the decays W→ℓν , where ℓ denotes muon or electron, while the b and c quarks are reconstructed as jets. All measured cross-sections are in agreement with next-to-leading-order Standard Model predictions.The production of , and is studied in the forward region of proton-proton collisions collected at a centre-of-mass energy of 8 TeV by the LHCb experiment, corresponding to an integrated luminosity of 1.98 0.02 \mbox{fb}^{-1}. The bosons are reconstructed in the decays , where denotes muon or electron, while the and quarks are reconstructed as jets. All measured cross-sections are in agreement with next-to-leading-order Standard Model predictions
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