Biodiversity of Sacred Natural Sites in Italy

Here, I aimed to assess the value of Sacred Natural Sites (SNS) for biodiversity conservation, by asking: Which is the state of the art on SNS and biodiversity conservation and their overall effect on biodiversity? Do SNS in Italy complement the network of Protected Areas (PA)? Which is the effect of SNS and PA in Italy as drivers of forest cover changes? Do SNS in Italy conserve plant diversity? First, I carried out a systematic review on SNS and biodiversity conservation by means of descriptive statistics and vote counting. Then, I built a geo-referenced nation-wide survey of SNS and compared it with the national network of PA in terms of land uses and landscape characteristics, while investigating their spatial distributions. I also investigated the role of SNS and PA in respect with forest cover changes between 1936 and 2018. Finally, I evaluated the diversity of plant communities found at 30 SNS scattered across Italy by comparing them with related control areas. Most of research up-to-date has been dealing with plants, while largely focusing on asian and african SNS. Hence, the rest of this thesis aims to help close the aforementioned geographical gap. Among the main results, I found that SNS and PA hardly overlapped, being located in different landscape contexts and over different land uses, showing a potential complementarity. Moreover, SNS and PA were associated with a decrease in forest loss and an increase in forest gain, hinting both at a positive effect on forest conservation and an allarming abandonment of cultural landscapes. Finally, plant communities of SNS were highly diverse, but patterns varied across macrohabitats. SNS provided positive conservation outcomes likely due to traditional management, social taboos and unique natural features. Legal recocgnition and innovative policies are required to protect SNS and their biological specificity

Pericardial Fat Pad and Thoracic Aortic Surgery

Pericardial fat pads have been successfully used for many years by thoracic and cardiac surgeons for a number of applications. We recently used a pedicled and well-vascularized pericardial fat pad in a patient who underwent replacement of a distal aortic arch aneurysm with a Dacron tube graft, in order to avoid contact between the anastomoses and the oesophagus in an effort to reduce the risk of subsequent infection and fistula formation. This simple technique may provide a source of vital tissue that may be useful for protecting anastomoses after thoracic aortic surgery, particularly in cases requiring re-operation. To our knowledge the use of pericardial fat pads has not been previously reported in the English literature for this purpose Pericardial fat pads have been successfully used for many years by thoracic and cardiac surgeons for a number of applications. We recently used a pedicled and well-vascularized pericardial fat pad in a patient who underwent replacement of a distal aortic arch aneurysm with a Dacron tube graft, in order to avoid contact between the anastomoses and the oesophagus in an effort to reduce the risk of subsequent infection and fistula formation. This simple technique may provide a source of vital tissue that may be useful for protecting anastomoses after thoracic aortic surgery, particularly in cases requiring re-operation. To our knowledge the use of pericardial fat pads has not been previously reported in the English literature for this purpose. © 2003 Elsevier Science Ltd. All rights reserved

A particular anatomic variation of the course of the left pulmonary artery

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Evaluation of radiological and pathological prognostic factors in surgically-treated patients with bronchoalveolar carcinoma

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Investigating elevational gradients of species richness in a Mediterranean plant hotspot using a published flora

The Apuan Alps are one of the most peculiar mountain chain in the Mediterranean, being very close to the coastline and reaching an elevation of almost 2000 m. Based on published flora, we investigated the distribution of plant species richness along the whole elevational gradient of this chain considering: (i) all species, (ii) endemic versus alien species; and (iii) functional groups of species based on Raunkiær life forms (RLF). Generalized Linear Models (GLMs) were used to analyse richness patterns along the elevational gradient, and elevational richness models versus the area of the elevational belts were fitted to test the effect of surface area. Our results showed decreasing species richness with increasing elevation. In contrast, endemic species richness increased along the elevational gradient. Alien species were mainly distributed at low elevations, but this result should be taken with caution since we used historical data. Species life forms were not equally distributed along the elevation gradient: chamaephytes and hemicryptophytes were the richest groups at high elevations, while therophytes showed highest species richness at low elevations. Our findings suggest that in the Apuan Alps there is a major elevational gradient in species composition that could reflect plant evolutionary history. Furthermore, we highlight the key role of published floras as a relevant source of biodiversity data.publishedVersio

Investigating sacred natural sites and protected areas for forest area changes in Italy

Forests will be critical to mitigate the effects of climate and global changes. Therefore, knowledge on the drivers of forest area changes are important. Although the drivers of deforestation are well known, drivers of afforestation are almost unexplored. Moreover, protected areas (PAs) effectively decrease deforestation, but other types of area-based conservation measures exist. Among these, sacred natural sites (SNS) deliver positive conservation out- comes while making up an extensive “shadow network” of conservation. How- ever, little is known on the capacity of SNS to regulate land-use changes. Here, we explored the role of SNS and PAs as drivers of forest loss and forest gain in Italy between 1936 and 2018. We performed a descriptive analysis and modeled forest gain and forest loss by means of spatial binomial generalized linear models with residual autocovariates. The main drivers of forest area changes were geographical position and elevation, nonetheless SNS and PAs significantly decreased forest loss and increased forest gain. Although the neg- ative relationship between SNS and forest loss is a desirable outcome, the posi- tive relationship with forest gain is concerning because it could point to abandonment of cultural landscapes with consequent loss of open habitats. We suggest a legal recognition of SNS and an active ecological monitoring and planning to help maintain their positive role in biodiversity conservation. As a novel conservation planning approach, SNS can be used as stepping stones between PAs increasing connectivity and also to conserve small habitat patches threatened by human activities

AMS-VegBank: a new database of vegetation plots for the Italian territory

The importance of collection, storage and exchange of georeferenced vegetation plot-based data has significantly grown in the recent decades, because of the new potentialities offered by ecoinformatics. In this article we introduce the Alma Mater Studiorum – University of Bologna vegetation database (AMS-VegBank; GIVD code EU-IT-021) compiling 17,505 georeferenced vegetation-plot observations within a time span of 90 years. This database includes 337,799 occurrence data of vascular plant species, belonging to many different habitat types. The historical relevance of the presented database is highlighted by the presence of some of the most ancient vegetation-plot observations in Europe (years 1930–1938). The geographic coverage of the database is mostly for Italian territory but it includes also data from other countries. The thematic focuses represented in the database are various, such as small Mediterranean islands, the Dolomite Mountains and the Italian National Parks. The large amount of historical plots available for the country not previously included in existing databases, combined with the constant action to improve the georeferencing of existing data and the addition of new data, highlight the uniqueness of this database. AMS-VegBank represents thus an important tool for studying plant biodiversity within the context of continental and global vegetation plot databases

A grid-based map for the biogeographical regions of Europe

© Pensoft Publishers. Background Biogeographical units are widely adopted in ecological research and nature conservation management, even though biogeographical regionalisation is still under scientific debate. The European Environment Agency provided an official map of the European Biogeographical Regions (EBRs), which contains the official boundaries used in the Habitats and Birds Directives. However, these boundaries bisect cells in the official EU 10 km x 10 km grid used for many purposes, including reporting species and habitat data, meaning that 6881 cells overlap two or more regions. Therefore, superimposing the EBRs vector map over the grid creates ambiguities in associating some cells with European Biogeographical Regions. New information To provide an operational tool to unambiguously define the boundaries of the eleven European Biogeographical Regions, we provide a specifically developed raster map of Grid-Based European Biogeographical Regions (GB-EBRs). In this new map, the borders of the EBRs are reshaped to coherently match the standard European 10 km x 10 km grid imposed for reporting tasks by Article 17 of the Habitats Directive and used for many other datasets. We assign each cell to the EBR with the largest area within the cell

Probabilistic and preferential sampling approaches offer integrated perspectives of Italian forest diversity

Aim: Assessing the performances of different sampling approaches for documenting community diversity may help to identify optimal sampling efforts and strategies, and to enhance conservation and monitoring planning. Here, we used two data sets based on probabilistic and preferential sampling schemes of Italian forest vegetation to analyze the multifaceted performances of the two approaches across three major forest types at a large scale. Location: Italy. Methods: We pooled 804 probabilistic and 16,259 preferential forest plots as samples of vascular plant diversity across the country. We balanced the two data sets in terms of sizes, plot size, geographical position, and vegetation types. For each of the two data sets, 1000 subsets of 201 random plots were compared by calculating the shared and exclusive indicator species, their overlap in the multivariate space, and the areas encompassed by spatially-constrained rarefaction curves. We then calculated an index of performance using the ratio between the additional and total information collected by each sampling approach. The performances were tested and evaluated across the three major forest types. Results: The probabilistic approach performed better in estimating species richness and diversity of species assemblages, but did not detect other components of the regional diversity, such as azonal forests. The preferential approach outperformed the probabilistic approach in detecting forest-specialist species and plant diversity hotspots. Conclusions: Using a novel workflow based on vegetation-plot exclusivities and commonalities, our study suggests probabilistic and preferential sampling approaches are to be used in combination for better conservation and monitor planning purposes to detect multiple aspects of plant community diversity. Our findings can assist the implementation of national conservation planning and large-scale monitoring of biodiversit

Diversity of European habitat types is correlated with geography more than climate and human pressure

Habitat richness, that is, the diversity of ecosystem types, is a complex, spatially explicit aspect of biodiversity, which is affected by bioclimatic, geographic, and anthropogenic variables. The distribution of habitat types is a key component for understanding broad-scale biodiversity and for developing conservation strategies. We used data on the distribution of European Union (EU) habitats to answer the following questions: (i) how do bioclimatic, geographic, and anthropogenic variables affect habitat richness? (ii) Which of those factors is the most important? (iii) How do interactions among these variables influence habitat richness and which combinations produce the strongest interactions? The distribution maps of 222 terrestrial habitat types as defined by the Natura 2000 network were used to calculate habitat richness for the 10 km × 10 km EU grid map. We then investigated how environmental variables affect habitat richness, using generalized linear models, generalized additive models, and boosted regression trees. The main factors associated with habitat richness were geographic variables, with negative relationships observed for both latitude and longitude, and a positive relationship for terrain ruggedness. Bioclimatic variables played a secondary role, with habitat richness increasing slightly with annual mean temperature and overall annual precipitation. We also found an interaction between anthropogenic variables, with the combination of increased landscape fragmentation and increased population density strongly decreasing habitat richness. This is the first attempt to disentangle spatial patterns of habitat richness at the continental scale, as a key tool for protecting biodiversity. The number of European habitats is related to geography more than climate and human pressure, reflecting a major component of biogeographical patterns similar to the drivers observed at the species level. The interaction between anthropogenic variables highlights the need for coordinated, continental-scale management plans for biodiversity conservation