Regions, Innovation Systems, and the North-South Divide in Italy

Using firm-level data collected by Statistics Italy for 2008, 2011, and 2015, we examine the Triple-Helix synergy among geographical and size distributions of firms, and the NACE codes attributed to these firms, at the different levels of regional and national government. At which levels is innovation-systemness indicated? The contributions of regions to the Italian innovation system have increased, but synergy generation between regions and supra-regionally has remained at almost 45%. As against the statistical classification of Italy into twenty regions or into Northern, Central, and Southern Italy, the greatest synergy is retrieved by considering the country in terms of Northern and Southern Italy as two sub-systems, with Tuscany included as part of Northern Italy. We suggest that separate innovation strategies should be developed for these two parts of the country. The current focus on regions for innovation policies may to some extent be an artifact of the statistics and EU policies. In terms of sectors, both medium- and high-tech manufacturing (MHTM) and knowledge-intensive services (KIS) are proportionally integrated in the various regions

Strain energy evaluation in structures having zone-wise physical-mechanical quantities

Among the possible aims of structural analysis inside some engineering spheres it can be useful to know the strain energy stored in all or in a part of the structure caused by assigned external actions, like the boundary and domain quantities. This serves to evaluate globally whether an assigned portion of structure undergoes an excessive store of energy able to compromise the stability of all the structure. This evaluation can be carried out through boundary work obtained using appropriate boundary generalized quantities connected to the results of the analysis on the whole structure. The advantage consists in using a very restricted number of quantities which, because of the characteristics of the method, are only evaluated on the boundary. Some strategies used to evaluate the error made are introduced through the computation of the external direct work and of the reciprocal works involving quantities only connected to the boundary of the complementary domain and quantities connected to either the real boundary of the structure or the boundary of its complementary domain. A reduction of this error is suggested

Active macro-zone approach for incremental elastoplastic-contact analysis

The symmetric boundary element method, based on the Galerkin hypotheses, has found an application in the nonlinear analysis of plasticity and in contact-detachment problems, but both dealt with separately. In this paper, we want to treat these complex phenomena together as a linear complementarity problem. A mixed variable multidomain approach is utilized in which the substructures are distinguished into macroelements, where elastic behavior is assumed, and bem-elements, where it is possible that plastic strains may occur. Elasticity equations are written for all the substructures, and regularity conditions in weighted (weak) form on the boundary sides and in the nodes (strong) between contiguous substructures have to be introduced, in order to attain the solving equation system governing the elastoplastic-contact/detachment problem. The elastoplasticity is solved by incremental analysis, called for active macro-zones, and uses the well-known concept of self-equilibrium stress field here shown in a discrete form through the introduction of the influence matrix (self-stress matrix). The solution of the frictionless contact/detachment problem was performed using a strategy based on the consistent formulation of the classical Signorini equations rewritten in discrete form by utilizing boundary nodal quantities as check elements in the zones of potential contact or detachment

Evidenze altomedievali nelle valli dei fiumi Torto e Imera settentrionale

Si illustrano i risultati relativi al periodo altomedievale nell'area della Sicilia centro-settentrionale corrispondente ai bacini dei fiumi Torto e Imera settentrionale. I dati archeologici, frutto delle prospezioni qui condotte, testimoniano forme di popolamento rurale sparso, con poche eccezioni rappresentate da siti egemoni

Valantia deltoidea (Rubiaceae) sulle Madonie (Sicilia)

Valantia deltoidea, a therophyte endemic to Sicily, so far known only from its locus classicus on the Rocca Busambra (Palermo, Province) has recently been found at the foot of the Serre di Quacella (Madonie, on dolomite rock, about 1300 m altitude. Besides outlines of taxonomical characteristics of such species, the data on the new locality and the updated distribution are provided here

Local food and civic food networks as a real utopias project

For scholars and activists alike, local food is linked to visions of a more equitable, ethical and sustainable agro-food system. Notwithstanding an apparent unity, local food is mobilized for very different aims including environmental sustainability, the revitalization of rural economies, the reconnection of consumers to agriculture and nature and the promotion of land entitlements for marginalized populations. At the same time, local food has become a crucial element in protectionist and neo-ruralist ideologies that support bounded, defensive spatial strategies. These contradictions point to the limited heuristic value of the ‘local food’ concept, particularly when decoupled from an explicit attention to the political and power dimensions of the local. Building upon these considerations, in this article we explicitly focus on the political and transformative dimensions of different local food projects and propose to read local food as a ‘real utopia’ project whose aim is the transformation of the food economy in the direction of sustainability, social emancipation and social justice. Utilizing the framework developed by E.O. Wright, we look at local food as a diagnosis and critique of the present; as the prefiguration of a more sustainable, just and democratic future; and as a set of transformative strategies that aim at changing the system in the desired direction. Our analysis suggests that, differently from the oppositional movements of the Fordist era, the local food movement is characterized by its use of interstitial (“ignore the state”) and symbiotic (“use the state”) strategies. These strategies either seek to establish new economic and social relations at the margins of the neoliberal food economy, or partner with local institutions to consolidate new experiences with food democracy and food justice. By mobilizing non-ruptural strategies in the service of a real utopian project, local food initiatives are opening up new, enlarged spaces for non-capitalist or post-capitalist economies that constitute the basis for social learning and experimentation of a global more sustainable and just food system. A further step ahead could be constituted by the promotion of a reflexive, more democratic, socially empowering system of governance, able to lead the innovative potential of the food movement to its full expression

Changes in Venice Lagoon dynamics due to construction of mobile barriers

The MoSE project (construction of mobile barrier to safeguard the Lagoon of Venice) entails changes to the structure of the lagoon\u27s inlets. This could have consequences for the areas near the inlets and for the dynamics of the lagoon ecosystem as a whole. In order to predict the effects of the proposed alterations on the hydrodynamics of the lagoon, a well-tested hydrodynamic-dispersion model was applied. Simulations were carried out considering both idealised and realistic tide and wind scenarios. The results show that with the new structures the Lido sub-basin tends to increase its extension due the southward movement of the watershed, at the expense of the Chioggia sub-basin, whereas the Malamocco sub-basin changes its relative position, but not its extension. The residence time shows variations in agreement with this trend, decreasing in the southern part of the Lido sub-basin and increasing in the inner part of the Chioggia sub-basin. The variations in residence time and return fl ow factor indicate that they are caused by changes in both instantaneous current velocities and sea-lagoon interaction. In fact the new breakwaters in front of the Malamocco and Chioggia inlets modify the length and direction of the out fl ow jet (up to 1 ms− 1 ) and the patterns of the currents around the inlets and the nearby coast. The new arti fi cial island in the Lido inlet changes the current pattern and increases the current velocity on the southern side of the channel propagating this effect up to the Venice city. The risks and benefits individuated from our conclusion are that the Lido sub-basin can improve its renewal time, but the more intense current speeds can be a risk for the conservation of habitats and infrastructures. Finally the micro-circulation between the breakwater and the coast in Chioggia and Malamocco inlets can be a trap for pollutants or suspended sediment

The Use of Accelerometers and Gyroscopes to Estimate Hip and Knee Angles on Gait Analysis

In this paper the performance of a sensor system, which has been developed to estimate hip and knee angles and the beginning of the gait phase, have been investigated. The sensor system consists of accelerometers and gyroscopes. A new algorithm was developed in order to avoid the error accumulation due to the gyroscopes drift and vibrations due to the ground contact at the beginning of the stance phase. The proposed algorithm have been tested and compared to some existing algorithms on over-ground walking trials with a commercial device for assisted gait. The results have shown the good accuracy of the angles estimation, also in high angle rate movement

Separase prevents genomic instability by controlling replication fork speed

Proper chromosome segregation is crucial for preserving genomic integrity, and errors in this process cause chromosome mis-segregation, which may contribute to cancer development. Sister chromatid separation is triggered by Separase, an evolutionary conserved protease that cleaves the cohesin complex, allowing the dissolution of sister chromatid cohesion. Here we provide evidence that Separase participates in genomic stability maintenance by controlling replication fork speed. We found that Separase interacted with the replication licensing factors MCM2-7, and genome-wide data showed that Separase co-localized with MCM complex and cohesin. Unexpectedly, the depletion of Separase increased the fork velocity about 1.5-fold and caused a strong acetylation of cohesin's SMC3 subunit and altered checkpoint response. Notably, Separase silencing triggered genomic instability in both HeLa and human primary fibroblast cells. Our results show a novel mechanism for fork progression mediated by Separase and thus the basis for genomic instability associated with tumorigenesis