Purpose: Facing the COVID-19 pandemic, police officers are confronted with various novel challenges, which might place additional strain on officers. This mixed-method study investigated officers' strain over a three-month-period after the lockdown. Methods: In an online survey, 2567 police officers (77% male) from Austria, Germany, Switzerland, the Netherlands, and Spain participated at three measurement points per country in spring, 2020. Three-level growth curve models assessed changes in strain and its relation to stressor appraisal, emotion regulation, and preparedness through training. To add context to the findings, free response answers about officers' main tasks, stressors, and crisis measures were coded inductively. Results: On average, officers seemed to tolerate the pandemic with slight decreases in strain over time. Despite substantial variance between countries, 66% of the variance occurred between individuals. Sex, work experience, stressor appraisal, emotion regulation, and preparedness significantly predicted strain. Risk of infection and deficient communication emerged as main stressors. Officers' reports allowed to derive implications for governmental, organizational, and individual coping strategies during pandemics. Conclusion: Preparing for a pandemic requires three primary paths: 1) enacting unambiguous laws and increasing public compliance through media communication, 2) being logistically prepared, and 3) improving stress regulation skills in police training.
AbstractHistorically, epidemics and plagues are repeatedly reported to have happened since the ancient civilizations (Egypt, Greece, Rome and imperial China). Most known examples of a devastating global pandemics in recent history are the ‘Black Death’ (14th century) and the global influenza (1918-1919), also known as ‘Spanish Flu’, that has killed nearly 50 million people in the world. Even thoughpandemics may vary in their dimensions, length (short vs. long), scope (local/regional, national, global) and severity of effects (minimal effects or maximal effects), they all represent distinct exogenous and endogenous shocks that have far reaching effects on population, health, economy and other societal domains.Currently, the Covid-19 pandemic has relentlessly spreaded around the world, leaving behind destructive marks on health, populations, economies and societies. The Covid-19 could spread quickly around the globe because of the current structure of the global economy, which is highly interconnected through sophisticated global transport networks. An important characteristic of a suchnetworked complex system is it vulnerability to unattended events of systemic risk such as the Covid-19 pandemic for example. These systemic risks cause substantial cascading effects, which lead to extreme outcomes that could permanently alter economic, environmental, and social systems.In this article, we first, present, discuss and analyze the potential impacts of the Covid-19 on global economy, trade and supply chains, by focusing on Europe and/or the Netherlands. Second, we examine the effects of the Covid-19 crisis on the shipping industry and on the hub ports and the policy measures that have been applied by different countries around the world.
In our Guest Editorial “The COVID-19 Pandemic: A Family Affair,” which was published in the Journal of Family Nursing by members of the FAMily Health in Europe–Research in Nursing (FAME-RN) group (Luttik et al., 2020), we highlighted the impact on nurses and families.The pandemic was at its beginning, and we described the situation of patients and families and the need for family nursing. Furthermore, we addressed the effect on the mental health of nurses and other health care professionals, due to the increasing workload they needed to manage. In this Guest Editorial, we discuss the impact of the COVID-19 on families during and post pandemic.
Air-to-Water (A2W) systems are innovative technologies which make possible to supply drinking water to regions without any nearby surface or ground water source. Such systems use green energy (solar, wind) to condense air humidity and provide fresh water in rather remote locations. As water production is area dependent, they operate at relatively small fluxes (few cubic meters per day, per unit), which makes them especially suitable for small isolated communities that are not supplied by municipal water supply services. Even though they have reached quite high technology redness level (TRL), in-situ, real scale, tests are still required to optimize energy performance and evaluate production at very specific meteorological conditions. In this project we propose an in-situ evaluation of the performance of a real scale A2W system produced by a Dutch company (Dutch Rain Maker, model AW-25) in the semi-arid region of Northeast Brazil. The cooperation with a HBO institute (Water Technology lectoraat, NHL Stenden) will provide the necessary analytical and technical support as well as extra expertise to conduct the tests. The project uses the opportunity given by the state government of Ceará State which built an infra-structure to provide space for in-situ tests for experts and companies who would like to test water technology solutions for arid regions. Finally, it is also intended to help establishing partnerships between European SME and Brazilian end users, i.e. municipalities of the Ceará state and small agriculture companies in the region.
