Andrea Cossu scite author profile

The conservation of the coastal marine environment requires the possession of information that enables the global quality of the environment to be evaluated reliably and relatively quickly. The use of biological indicators is often an appropriate method. Seagrasses in general, and Posidonia oceanica meadows in particular, are considered to be appropriate for biomonitoring because of their wide distribution, reasonable size, sedentary habit, easy collection and abundance and sensitivity to modifications of littoral zone. Reasoned management, on the scale of the whole Mediterranean basin, requires standardized methods of study, to be applied by both researchers and administrators, enabling comparable results to be obtained. This paper synthesises the existing methods applied to monitor P. oceanica meadows, identifies the most suitable techniques and suggests future research directions. From the results of a questionnaire, distributed to all the identified laboratories working on this topic, a list of the most commonly used descriptors was drawn up, together with the related research techniques (e.g. standardization, interest and limits, valuation of the results). It seems that the techniques used to study meadows are rather similar, but rarely identical, even though the various teams often refer to previously published works. This paper shows the interest of a practical guide that describes, in a standardized way, the most useful techniques enabling P. oceanica meadows to be used as an environmental descriptor. Indeed, it constitutes the first stage in the process.

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Mechanically Robust and Transparent N‐Halamine Grafted PVA‐co‐PE Films with Renewable Antimicrobial Activity

Cossu

Nitin

et al. 2016

Macromolecular Bioscience

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Antimicrobial polymeric films that are both mechanically robust and function renewable would have broad technological implications for areas ranging from medical safety and bioengineering to foods industry; however, creating such materials has proven extremely challenging. Here, a novel strategy is reported to create high-strength N-halamine incorporated poly(vinyl alcohol-co-ethylene) films (HAF films) with renewable antimicrobial activity by combining melt radical graft polymerization and reactive extrusion technique. The approach allows here the intrinsically rechargeable N-halamine moieties to be covalently incorporated into polymeric films with high biocidal activity and durability. The resulting HAF films exhibit integrated properties of robust mechanical strength, high transparency, rechargeable chlorination capability (>300 ppm), and long-term durability, which can effectively offer 3-5 logs CFU reduction against typical pathogenic bacterium Escherichia coli within a short contact time of 1 h, even at high organism conditions. The successful synthesis of HAF films also provides a versatile platform for exploring the applications of antimicrobial N-halamine moieties in a self-supporting, structurally adaptive, and function renewable form.

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Assessment and comparison of the solar radiation distribution inside the main commercial photovoltaic greenhouse types in Europe

Cossu

Deligios

et al. 2018

Renewable and Sustainable Energy Reviews

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MAP3738c and MptD are specific tags of Mycobacterium avium subsp. paratuberculosis infection in type I diabetes mellitus

Cossu

Rosu

Paccagnini

et al. 2011

Clinical Immunology

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Shoreline evolution related to coastal development of a managed beach in Alghero, Sardinia, Italy

Manca

Pascucci

DeLuca

et al. 2013

Ocean & Coastal Management

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Andrea Cossu

Descriptors of Posidonia oceanica meadows: Use and application

Mechanically Robust and Transparent N‐Halamine Grafted PVA‐co‐PE Films with Renewable Antimicrobial Activity

Assessment and comparison of the solar radiation distribution inside the main commercial photovoltaic greenhouse types in Europe

MAP3738c and MptD are specific tags of Mycobacterium avium subsp. paratuberculosis infection in type I diabetes mellitus

Shoreline evolution related to coastal development of a managed beach in Alghero, Sardinia, Italy

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