Community Cooperative: A New Legal Form for Enhancing Social Capital for the Development of Renewable Energy Communities in Italy

This paper investigates the suitability of the community cooperatives (CC) model for the implementation of renewable energy communities (REC), as prescribed by art. 22 of EU Directive 2018/2001, and temporarily transposed into the Italian law by art. 42-bis of the Law Decree n. 162/2019. The hypothesis explored analyses the potential synergies between RECs and CC, based on their similarities. In particular, the article takes into consideration: the actors involved in both the RECs and the CCs; the geographical scope in which they develop, and the purposes that these two legal forms intended to achieve. Through a literature review and the analysis of EU, national and regional legislations, the paper aims at (1) clarifying the main features of RECs and the CCs in Italy; (2) exploring the main differences between CCs and the other legal forms of cooperative (e.g., mutual cooperative, cooperative benefit, etc.) and assessing the extent to which CCs are more suitable to implement renewable energy communities. As a result of the literature and regulatory review, several similarities between CCs and RECs can be detected, particularly, in reference to the strategic valorization of the cooperation between citizens and the local public entities. These similarities allow the authors to provisionally conclude that, in Italy, CCs may be adopted as a tool to implement RECs

A comparison of the phytoplasma associated with Australian grapevine yellows to other phytoplasmas in grapevine

The phytoplasma associated with Australian grapevine yellows (AGY) was compared to other phytoplasma diseases of grapevine using the polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) analysis. Comparison of eight different Australian isolates suggests that only one type of phytoplasma is associated with this disease. Based on RFLP analysis of the 16S rRNA gene, it was shown that AGY is different from the tomato big bud and sweet potato little leaf phytoplasma strains which are widespread in Australia and that it represents the only other phytoplasma strain recorded in Australia to date. Restriction profiles of grapevine phytoplasmas using Mse I suggest that AGY is unique but most closely resembles those phytoplasmas associated with grapevine diseases in the stolbur group. Sequence analysis of the 16S rRNA gene and adjacent spacer region supports this association. The uniqueness of AGY was confirmed by PCR assays using non-ribosomal primers; the primer pair STOL11f/r2 specific for stolbur phytoplasmas did not result in amplification products in grapevines affected with AGY; the primer pair fMLOl/rMLOl which amplifies a region of the tuf gene from phytoplasmas in the aster yellows cluster, amplified AGY DNA confirming its association within this phylogenetic group. RFLP analysis of the tufPCR product again highlighted a distinction between AGY and other stolbur phytoplasmas occurring in grapevine. The only other phytoplasma in Australia which is in the stolbur group is associated with dieback in papaya, and it has the same RFLP profile of the tuf PCR product as AGY

Multiple approaches to microbial source tracking in tropical northern Australia

© The Author(s), 2014. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in MicrobiologyOpen 3 (2014): 860–874, doi:10.1002/mbo3.209.Microbial source tracking is an area of research in which multiple approaches are used to identify the sources of elevated bacterial concentrations in recreational lakes and beaches. At our study location in Darwin, northern Australia, water quality in the harbor is generally good, however dry-season beach closures due to elevated Escherichia coli and enterococci counts are a cause for concern. The sources of these high bacteria counts are currently unknown. To address this, we sampled sewage outfalls, other potential inputs, such as urban rivers and drains, and surrounding beaches, and used genetic fingerprints from E. coli and enterococci communities, fecal markers and 454 pyrosequencing to track contamination sources. A sewage effluent outfall (Larrakeyah discharge) was a source of bacteria, including fecal bacteria that impacted nearby beaches. Two other treated effluent discharges did not appear to influence sites other than those directly adjacent. Several beaches contained fecal indicator bacteria that likely originated from urban rivers and creeks within the catchment. Generally, connectivity between the sites was observed within distinct geographical locations and it appeared that most of the bacterial contamination on Darwin beaches was confined to local sources

Power Plays Memory Workshop:Prevent sexual harassment in workplaces of care with memory work

This manual is a result of the project Power Plays – preventing sexualharassment through memory work & forum theater in workplaces of care.Power Plays was funded by Nordic research initiative on sexual harassmentin the workplace from 2022-2023. Project partners was Roskilde University(Denmark), VIA University College (Denmark), Oulu University (Finland) andJämställd Utveckling Skåne (Sweden)

Forum Power Plays:Preventing sexual harassment in workplaces of care

This manual is a result of the project Power Plays – preventing sexualharassment through memory work & forum theater in workplaces of care.Power Plays was funded by Nordic research initiative on sexual harassmentin the workplace from 2022-2023. Project partners was Roskilde University(Denmark), VIA University College (Denmark), Oulu University (Finland) andJämställd Utveckling Skåne (Sweden