The Salvation Army has been battling social problems in the Netherlands for more than 125 years. Over the course of this period, the Dutch Salvation Army has developed into a well-known faith-based organization as well as an important professional social service provider. These two characteristics: religious work and social work, are regarded by the Army as essential to its identity, and are considered distinct but in – separable. However, as this study shows, during much of the Army’s history this bilateral character created an inescapable field of tension. This became explicitly clear with the development of the Dutch social policy system during the twentieth century, when the evolving relationship between the Salvation Army and the Dutch government created certain problems for both actors. How would the government cooperate with a valued social service provider that had an explicit faith-based identity? And on the other hand, how did the Army cope with this relationship in relation to its identity? The work presented in this thesis was supported by the University of Applied Sciences Utrecht (HU) and the VU University Amsterdam.
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Animal welfare is a multidimensional phenomenon and currently its on-farm assessment requires complex, multidimensional frameworks involving farm audits which are time-consuming, infrequent and expensive. The core principle of precision agriculture is to use sensor technologies to improve the efficiency of resource use by targeting resources to where they give a benefit. Precision livestock farming (PLF) enables farm animal management to move away from the group level to monitoring and managing individual animals. A range of precision livestock monitoring and control technologies have been developed, primarily to improve livestock production efficiency. Examples include using camera systems monitoring the movement of housed broiler chickens to detect problems with feeding systems or disease and leg-mounted accelerometers enabling the detection of the early stages of lameness in dairy cows. These systems are already improving farm animal welfare by, for example, improving the detection of health issues enabling more rapid treatment, or the detection of problems with feeding systems helping to reduce the risk of hunger. Environmental monitoring and control in buildings can improve animal comfort, and automatic milking systems facilitate animal choice and improve human-animal interactions. Although these precision livestock technologies monitor some parameters relevant to farm animal welfare (e.g. feeding, health), none of the systems yet provide the broad, multidimensional integration that is required to give a complete assessment of an animal’s welfare. However, data from PLF sensors could potentially be integrated into automated animal welfare assessment systems, although further research is needed to define and validate this approach.
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It is generally assumed that competition increases welfare. The main idea behind this assumption is that competition in a market is the best incentive mechanism to produce efficient market outcomes. This is good for social welfare and therefore stimulating competition is welfare increasing. According to this view, a lot of emphasis has been laid on the conditions to enhance competition in certain areas of the economy. Next to these developments in the markets of goods and services, one sees a similar development in emphasizing competition between regions and semi-public and other kind of institutions. One can generally say that as a result of general development in other sectors and more formally, globalization tends also to increase the intensity of competition.
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In the last decade, the concept on interactions between humans, animals and their environment has drastically changed, endorsed by the One Health approach that recognizes that health of humans and animals are inextricably linked. Consideration of welfare of livestock has increased accordingly and with it, attention into the possibilities to improve livestock health via natural, more balanced nutrition is expanding. Central to effects of healthy nutrition is an optimal gastrointestinal condition which entails a well-balanced functional local immune system leading to a resilient state of well-being. This project proposal, GITools, aims to establish a toolbox of in vitro assays to screen new feed ingredients for beneficial effects on gastrointestinal health and animal well-being. GITools will focus on pig and chicken as important livestock species present in high quantities and living in close proximity to humans. GITools builds on intestinal models (intestinal cell lines and stem cell-derived organoids), biomarker analysis, and in vitro enzymatic and microbial digestion models of feed constituents. The concept of GITools originated from various individual contacts and projects with industry partners that produce animal feed (additives) or veterinary medicines. Within these companies, an urgent need exists for straightforward, well-characterized and standardized in vitro methods that provide results translatable to the in vivo situation. This to replace testing of new feed concepts in live animal. We will examine in vitro methods for their applicability with feed ingredients selected based on the availability of data from (previous) in vivo studies. These model compounds will include long and short chain fatty acids, oligosaccharides and herbal-derived components. GITools will deliver insights on the role of intestinal processes (e.g. dietary hormone production, growth of epithelial cells, barrier function and innate immune responses) in health and well-being of livestock animals and improve the efficiency of testing new feed products.
We live in a time of radical changes in Europe. The climate crisis, the war in Ukraine, energy crisis, the pandemic, increasedprice levels and interest rates, digitalization, robotization, reduced birth rates, an aging population, migration, a decliningdemocracy index and increasing friction level between continents and powerful states makes us uncertain about tomorrow.Deglobalization, shorter production lines, changed export models, bloc formations and sovereignty might be results of someof the large challenges we see today. We see tendencies towards increasing poverty and a declining middle class. It isperhaps more important than ever in recent times to show optimism on behalf of young people and future generations.European cooperation and the link between the right skills for the right future seems to be more actual and important thanever. A report from McKinsey Global Institute (2017) about future work life, competence development and digitalization,shows that approximately 50 % of todays jobs can disappear in the nearest future caused digitalization, robotization and AI.MGI’s in-dept report have covered more than 20 countries and 30 industries (mckinsey.com). We have also a commonEuropean challenge reagarding too many youth outside the working life. The NEET index (Not in Employment, Education orTraining) was 14 % totally for the EU countries, 9.6 % for Germany, 6.3 % for Netherlands and also 6.3 % for Norway in2021 (ssb.no).This is a challenge we have to solve as we need to increase the work participation as welfare costs willincrease as a consequence of more immigration and several older people.
