INCREASING THE VALUE OF THE TYPICAL WINE PRODUCTION IN NATIONAL TERRITORY: A PILOT PROJECT IN THE PROVINCE OF BERGAMO

Le caratteristiche di un vino dipendono dalla cantina, dai vitigni utilizzati per la produzione delle uve, e dal terroir: quella combinazione magica di geologia, morfologia, clima, coltura e cultura che caratterizza l’ambiente dove il vino nasce. Un sistema informativo geografi co è uno strumento potentissimo al servizio della qualificazione del terroir perché aiuta gli esperti nell’elaborazione dei dati e nella loro analisi. La tecnologia WebGIS si rivela essere un valido strumento di ausilio per l’analisi e la valorizzazione del territorio. Attraverso l’uso di queste soluzioni tecnologicamente avanzate, WineGIS fornisce in maniera integrata strumenti di carattere tecnico e scientifico, in grado di rappresentare in modo unitario la complessa e ricca realtà delle zone di produzione tipiche dei vini italiani. E di rappresentare un punto di partenza per una moderna politica di valorizzazione del territorio.The characteristics of a wine depend on the cellar, the grapevines used in the production of the grapes and the terroir: that magical combination of geology, landscape, climate culture that characterize the environment in which the wine is born. GIS is a powerful instrument in providing accurate terroir information because it helps experts in the elaboration of data and their research. Web GIS technology is a powerful tool to support landscape analysis and promotion. Through the use of these technologically advanced solutions, WineGIS offers, in an integrated manner, scientific and technical instruments able to represent in a unified way, a complex and rich view of areas of production typical to the Italian wine industry. And to represent a starting point for a modern political evaluation of the zone

CARTOGRAPHY AS A GAME: SCALES, PROJECTIONS AND THEMATIC MAPS IN PRIMARY SCHOOL (THIRD CLASS)

Raccontare la rappresentazione cartografica in modo accattivante ai bambini della scuola elementare. Un esperto di GIS passa dal computer a carta, spago, colla, forbici e pennarelli per far toccare con mano ai bambini i problemi dei geografi: - un mondo grande su un foglio piccolo; - un mondo tridimensionale su un foglio piatto; - un mondo complesso in un modello semplificato. Nell’era della realtà virtuale e della geografia su internet, resta di fondamentale importanza la percezione sensoriale, per toccare con mano che qualsiasi rappresentazione della realtà comporta grandi e piccole approssimazioni e semplificazioni. Il risultato dell’esperienza è un’unità didattica, con fogli da stampare, colorare e ritagliare, che potrebbe utilmente integrare il libro di testo.How to teach cartographic representation in an attractive way to primary school pupils. A GIS expert leaves the computer and uses paper, string, glue, scissors and felt pens so children can directly experience problems of geographers: - a big world on a small sheet of paper; - a three dimensional world on a flat sheet of paper; - a complex world in a simplified model. In the virtual reality and internet mapping age, sensorial perception is still extremely important to experience that every representation of reality involves big and small approximations and simplifications. The result of the experience is a didactic unit, with printable maps to paint and cut out that can integrate the schoolbook

Increasing the agricultural sustainability of closed agrivoltaic systems with the integration of vertical farming: A case study on baby-leaf lettuce

The photovoltaic (PV) greenhouses are closed agrivoltaic (CA) systems that allow the production of energy and food on the same land, but may result in a yield reduction when the shading of the PV panels is excessive. Adopting innovative cropping systems can increase the yield of the CA area, generating a more productive and sustainable agrosystem. In this case study we quantified the increase of land productivity derived from the integration of an experimental vertical farm (VF) for baby leaf lettuce inside a pre-existing commercial CA. The mixed system increased the yield by 13 times compared to the CA and the average LER was 1.31, but only 12 % of the energy consumption was covered by the CA energy. To achieve the energy self-sufficiency and avoid the related CO2 emissions, the VF area should not exceed 7–18 % of the CA area, depending on the PV energy yield and the daily light integral (DLI) of the LED lighting, meaning a land consumption from 5 to 14 times higher than the VF area. The support of the PV energy was essential for the profitability of the VFCA. Design features and solutions were proposed to increase the agronomic and economic sustainability of the VFCA. The VFs can be considered a possible answer for the reconversion of the actual underutilized CAs with high PV cover ratios into productive and efficient cropping systems, but a trade-off between energy production and land consumption should be identified to ensure an acceptable environmental sustainability of the mixed system

The impact of sequence database choice on metaproteomic results in gut microbiota studies

Background: Elucidating the role of gut microbiota in physiological and pathological processes has recently emerged as a key research aim in life sciences. In this respect, metaproteomics, the study of the whole protein complement of a microbial community, can provide a unique contribution by revealing which functions are actually being expressed by specific microbial taxa. However, its wide application to gut microbiota research has been hindered by challenges in data analysis, especially related to the choice of the proper sequence databases for protein identification. Results: Here, we present a systematic investigation of variables concerning database construction and annotation and evaluate their impact on human and mouse gut metaproteomic results. We found that both publicly available and experimental metagenomic databases lead to the identification of unique peptide assortments, suggesting parallel database searches as a mean to gain more complete information. In particular, the contribution of experimental metagenomic databases was revealed to be mandatory when dealing with mouse samples. Moreover, the use of a "merged" database, containing all metagenomic sequences from the population under study, was found to be generally preferable over the use of sample-matched databases. We also observed that taxonomic and functional results are strongly database-dependent, in particular when analyzing the mouse gut microbiota. As a striking example, the Firmicutes/Bacteroidetes ratio varied up to tenfold depending on the database used. Finally, assembling reads into longer contigs provided significant advantages in terms of functional annotation yields. Conclusions: This study contributes to identify host- and database-specific biases which need to be taken into account in a metaproteomic experiment, providing meaningful insights on how to design gut microbiota studies and to perform metaproteomic data analysis. In particular, the use of multiple databases and annotation tools has to be encouraged, even though this requires appropriate bioinformatic resources

Agricultural sustainability estimation of the European photovoltaic greenhouses

The integration of the photovoltaic (PV) energy in the greenhouse farm has raised concerns on the agricultural sustainability of this specific agrosystem in terms of crop planning and management, due to the shading cast by the PV panels on the canopy. The PV greenhouse (PVG) can be classified on the basis of the PV cover ratio (PVR), that is the ratio of the projected area of PV panels to the ground and the total greenhouse area. In this paper, we estimated the yield of 14 greenhouse horticultural and floricultural crops inside four commercial PVG types spread in southern Europe, with PVR ranging from 25 to 100%. The aim of the work is to identify the PVG types suitable for the cultivation of the considered species, based on the best trade-off between PV shading and crop production. The daily light integral (DLI) was used to compare the light scenarios inside the PVGs to the crop light requirements, and estimate the potential yield. The structures with a PVR of 25% were compatible with the cultivation of all considered species, including the high light demanding ones (tomato, cucumber, sweet pepper), with an estimated negligible or limited yield reduction (below 25%). The medium light species (such as asparagus) with an optimal DLI lower than 17 mol m−2 d−1 and low light crops can be cultivated inside PVGs with a PVR up to 60%. Only low light demanding floricultural species with an optimal DLI lower than 10 mol m−2 d−1, such as poinsettia, kalanchoe and dracaena, were compatible inside PVGs with a PVR up to 100%. Innovative cropping systems should be considered to overcome the penalizing light scenarios of the PVGs with high PVR, also implementing LED supplementary lighting. This paper contributes to identify the sustainable PVG types for the chosen species and the alternative crop managements in terms of transplantation period and precision agriculture techniques, aimed at increasing the crop productivity and adaptability inside the PVG agrosystems

Closing the Efficiency Gap between Synchronous and Network-Agnostic Consensus

In the consensus problem, $n$ parties want to agree on a common value, even if some of them are corrupt and arbitrarily misbehave. If the parties have a common input $m$, then they must agree on $m$. Protocols solving consensus assume either a synchronous communication network, where messages are delivered within a known time, or an asynchronous network with arbitrary delays. Asynchronous protocols only tolerate $t_a < n/3$ corrupt parties. Synchronous ones can tolerate $t_s < n/2$ corruptions with setup, but their security completely breaks down if the synchrony assumptions are violated. Network-agnostic consensus protocols, as introduced by Blum, Katz, and Loss [TCC\u2719], are secure regardless of network conditions, tolerating up to $t_s$ corruptions with synchrony and $t_a$ without, under provably optimal assumptions $t_a \leq t_s$ and $2t_s + t_a < n$. Despite efforts to improve their efficiency, all known network-agnostic protocols fall short of the asymptotic complexity of state-of-the-art purely synchronous protocols. In this work, we introduce a novel technique to compile any synchronous and any asynchronous consensus protocols into a network-agnostic one. This process only incurs a small constant number of overhead rounds, so that the compiled protocol matches the optimal round complexity for synchronous protocols. Our compiler also preserves under a variety of assumptions the asymptotic communication complexity of state-of-the-art synchronous and asynchronous protocols. Hence, it closes the current efficiency gap between synchronous and network-agnostic consensus. As a plus, our protocols support $\ell$-bit inputs, and can be extended to achieve communication complexity $O(n^2\kappa + \ell n)$ under the assumptions for which this is known to be possible for purely synchronous protocols

LCA study of oleaginous bioenergy chains in a Mediterranean environment

This paper reports outcomes of life cycle assessments (LCAs) of three different oleaginous bioenergy chains (oilseed rape, Ethiopian mustard and cardoon) under Southern Europe conditions. Accurate data on field practices previously collected during a three-year study at two sites were used. The vegetable oil produced by oleaginous seeds was used for power generation in medium-speed diesel engines while the crop residues were used in steam power plants. For each bioenergy chain, the environmental impact related to cultivation, transportation of agricultural products and industrial conversion for power generation was evaluated by calculating cumulative energy demand, acidification potential and global warming potential. For all three bioenergy chains, the results of the LCA study show a considerable saving of primary energy (from 70 to 86 GJ·ha−1) and greenhouse gas emissions (from 4.1 to 5.2 t CO2·ha−1) in comparison to power generation from fossil fuels, although the acidification potential of these bioenergy chains may be twice that of conventional power generation. In addition, the study highlights that land use changes due to the cultivation of the abovementioned crops reduce soil organic content and therefore worsen and increase greenhouse gas emissions for all three bioenergy chains. The study also demonstrates that the exploitation of crop residues for energy production greatly contributes to managing environmental impact of the three bioenergy chains

Synchronous Perfectly Secure Message Transmission with Optimal Asynchronous Fallback Guarantees

Secure message transmission (SMT) constitutes a fundamental network-layer building block for distributed protocols over incomplete networks. More specifically, a sender $\mathbf{S}$ and a receiver $\mathbf{R}$ are connected via $\ell$ disjoint paths, of which at most $t$ paths are controlled by the adversary. Perfectly-secure SMT protocols in synchronous and asynchronous networks are resilient up to $\ell/2$ and $\ell/3$ corruptions respectively. In this work, we ask whether it is possible to achieve a perfect SMT protocol that simultaneously tolerates $t_s < \ell/2$ corruptions when the network is synchronous, and $t_a < \ell/3$ when the network is asynchronous. We completely resolve this question by showing that perfect SMT is possible if and only if $2t_a + t_s < \ell$. In addition, we provide a concretely round-efficient solution for the (slightly worse) trade-off $t_a + 2t_s < \ell$. As a direct application of our results, following the recent work by Appan, Chandramouli, and Choudhury [PODC\u2722], we obtain an $n$-party perfectly-secure synchronous multi-party computation protocol with asynchronous fallback over any network with connectivity $\ell$, as long as $t_a + 3t_s <n$ and $2t_a + t_s < \ell$

Wild asparagus domestication for food/energy cropping system setup

The solar greenhouse sector is currently unbalanced towards energy production. Thus, the introduction of new crop options, such as wild asparagus, could contribute to the promotion of economic and environmental sustainability in these food/energy systems (mixed-systems). We hypothesized that wild asparagus is able to adapt both to sunny and partially shaded environments provided that both nutrient and water supply are guaranteed. Over a three-year experiment, we carried out an intensive examination of within-season phenological, physiological and productive dynamics under a greenhouse with 50% of the roof area covered with photovoltaic panels. Under the photovoltaic roof the net assimilation rate was on average 5 time lower, averaged over the growing seasons (0.6 μmol CO2 m-2 s-1), resulting in negative results for some monitoring dates. However, lower net assimilation rate did not negatively impact spears production in terms of number, length and diameter. The year of establishment affected the length of the spear, which was 4 cm shorter in 2013 than in 2014 and 2015, when no significant difference was observed. The novelty proposed in this study could be a successful option for farmers to promote production diversification and a promising strategy to guarantee the environmental and economic sustainability of the whole mixed system

Habsburg topographic cartography of the Italian peninsula in the first half of the 19th century

The geodetic point lists of the Habsburg survey of the Italian peninsula, carried out in several steps after the Napoleonic wars, were digitized and analyzed together with the modern coordinates of the identified points. Assuming the usage of the Zach-Oriani hybrid ellipsoid, the Burša-Wolf type datum transformation parameters were estimated between the local, historical triangulation Datums and the WGS84. The results show interesting accuracy differences in the Italian regions; since the points and coordinates in Lombardy, Piedmont and Lucca shows surprisingly high accuracy and consistency, the survey of Venice, Tuscany, the Papal State, the Adriatic coasts and the Kingdom of Naples is less controlled. The results enabled us to geo-refer the corresponding map series, stored in the Austrian Military Archives, in Vienna, in four different parts. Venice, Lombardy and Lucca (with other small regions at their southern border) were a part of the Habsburg Second Military Survey, with same scale and technology and legend. Part of the series of Piedmont was also found in the Vienna archives and geo-referred. South of these regions, Tuscany and the Papal State was mapped in 1:86400 scale, in a Cassini projection with the centre in the Duomo S. Salvatore, Milan. The southernmost systematic mapping work in the peninsula was in the Kingdom of Naples in the 1820s, with the same scale as used in mid-Italy, projection centre was in Capodimonte (Naples). Albeit the relatively high accuracy of the geodetic network, these map mosaics are refined horizontally applying a local correction grid (GSB) to keep the horizontal errors below 200 meters