To face human population growth, increasing environmental constraints and changes in socio-cultural values, animal breeding must evolve toward a more sustainable model that guarantees production while promoting efficient resource use, animal health and welfare, and preserving genetic diversity. Thanks to recent developments in omics technologies, it is now possible to rethink breeding, taking advantage of improved knowledge on genome-to-phenome relationships that accounts for both genetic and non-genetic mechanisms controlling traits. GEroNIMO will work on chicken and pig, the most used sources of animal protein worldwide, to provide breeders with new knowledge and tools to promote innovative genome- and epigenome enabled selection methods for traits related to production (quantity and quality), efficiency, productive longevity, fertility, resilience and welfare. A large number of animals from cosmopolitan and local breeds will be characterized phenotypically, genetically and epigenetically under different environments to i) identify underlying biological mechanisms affecting trait variation, ii) develop methods to improve selection strategies integrating genetic- and non-genetic factors, and iii) propose strategies to optimize the conservation of genetic and epigenetic diversity. GEroNIMO proposes demand-driven innovation employing a multi-actor approach through the involvement of breeders, professional associations of animal production, and scientists, engaged from the planning phase to the dissemination of results over Europe. GEroNIMO will build on existing academic and commercial knowledge and will analyze large populations to quantify the contribution of genetic and epigenetic variation in gene expression, trait variation and trade-offs between traits. GEroNIMO will also propose a comprehensive and enhanced characterization of diversity by integrating epigenetic diversity into conservation purposes, corresponding to a new integrated conservation strategy.
The SAS research team is responsible for WP5 on the societal and ethical dimensions of this project.
The IMAGEN programme brings research into animal behaviour together with computer science to improve the health and welfare of pigs and laying hens and to reduce the ecological footprint of the food production.
The researchers are developing a system that automatically detects the behaviour of pigs and chickens in large groups. For example, the system must be able to detect perpetrators and victims of undesirable behaviour such as tail biting or pecking to prevent animal suffering and early mortality. The researchers will also map the relationships between genes and behaviour. That will allow them to identify which animals are genetically the most suitable for living peacefully in large groups.
The SAS research theme analyses the societal and ethical dimensions related to this project.
The aim of BovReg is to identify functions in the cow genome that are relevant to the diversity and plasticity of phenotypes in cattle with respect to robustness, health and biological efficiency.
The knowledge developed within BovReg should also be particularly applicable to small cattle breeds of regional relevance and distribution, and thus contribute to the conservation of biological diversity in farmed animals. The project includes a focus on udder health and options for reducing use of antimicrobials in animal husbandry. BovReg will enable precision breeding to make cattle farming more efficient while considering animal welfare, limited primary resources and climate change.
https://www.bovreg.eu/
SmartResilience: towards a sustainable, future-oriented pig production system that supports and predicts resilience and welfare in pigs
In this project, we develop and apply a comparative responsible innovation approach to novel techniques of genome editing to examine the conditions (if any) under which the technique can and should be applied to animal breeding applications. Using the anticipate-include-reflect-respond (AIRR) RI framework beta scientists, social scientists, ethicists and breeding companies work together to understand, anticipate, reflect and respond to ethical and societal concerns. We undertake an integrated programme of research across three workpackages. In Workpackage 1 we analyse the benefits, challenges, risks and uncertainties of genome editing, the driving visions and expectations of the technology in scientific and corporate programmes, and how these compare across animal breeding and human health applications. In Workpackage 2 we open up inclusive dialogue and ethical reflection on animal genome editing. We examine the factors shaping public opinion and what constitutes an appropriate ethical framework. We compare responses to human medical and animal breeding applications, as well as to three spheres of animal breeding application: editing for animal welfare, editing for disease resistance, and editing for yield efficiency. In Workpackage 3 we experiment ways of integrating social and ethical dimensions into scientific and corporate research practices and decision-making processes, and formulate building blocks for the development of reflexive corporate and scientific cultures. The project culminates in a policy seminar aimed at decision-makers, and a policy report and toolkit, where we offer guidance on how (if at all) the science and decision-making of animal genome editing can develop in ways that are responsive and responsible.
Limited focus has been placed on fish welfare and other ethical aspects of catching and killing processes for wild fish. Recent studies reveal that teleost fish have a capacity for mental awareness, and there is a growing concern for the welfare of fish. For farmed fish, welfare requirements are included in laws and regulations, but for wild fish, the industry and government, probably for practical and economic reasons, has not prioritized animal welfare. Wild fish is included in the Norwegian Animal Welfare Act, and in 2014, the Norwegian Council for Animal Ethics gave the following advices for commercial fisheries; a) Strive to shorten the harvesting time, particularly the time fish are experiencing high levels of stress, fear or pain; b) There must be made more gentle handling and minimal damage in the capture time; c) The fish has to be stunned by electricity or percussion stunning, followed by killing by bleeding; d) Bycatch must as far as possible be reduced, e) Fish that have been in contact with the gears, but that does not get caught or released after capture, should be undamaged and physically able to survive afterwards.
This project seeks to reflect on and integrate ethics in the development of new technologies and methods, with the aim of improving fish welfare in some key phases and processes in trawl fisheries. Trawling is a dominant fishing method in Norway and internationally, and improvements here can have significant overall impact. Specifically, the project will establish a framework for ethical assessment of new technology, develop and evaluate a new trawl codend for improved fish welfare, and investigate and assess stunning and killing methods.
Het maatschappelijke debat over dierproeven heeft geleid tot nieuwe, betere onderzoeksmodellen. Maar innovaties in dieronderzoek leiden niet altijd tot de gewenste gezondheidswinst. In zijn project wil Meijboom de achtergronden van dit probleem onderzoeken en stelt hij bovendien een nieuwe aanpak voor: het formuleren van 'translationele strategieën'.
Bij 'translationele strategieën' wordt de hele onderzoeksketen (zowel dieren als mensen) betrokken bij het bepalen van de ideale onderzoeksstrategie en staat de patiënt centraal. Aan de hand van casestudies rond taaislijmziekte en reuma zal het onderzoeksteam de mogelijkheden van goede translationele strategieën verkennen. De resultaten worden onder meer gebruikt voor het onderwijs en voor een bijdrage aan standaardprotocollen voor onderzoek en ethische toetsing.
http://www.uu.nl/nieuws/franck-meijboom-gaat-nieuwe-aanpak-bij-dierproeven-onderzoeken
'One Health as a normative concept’ (2014-2017)
Funded by: Arcus Foundation (New York)
Cooperation with Leiden University (project coordinator)
Role: Daily supervision PhD
Ethical aspects of Aquaculture “Aggression in Catfish” (2009-2014)
Funded by: The Netherlands Organisation for Scientific Research. NWO
Interdisciplinary cooperation with Nijmegen University, Imares (WUR)
Role: project leader, daily supervision of 2 Postdocs
Trustworthy Science (Betrouwbare Wetenschap) (2011-2013)
Case study on trust and trustworthiness and the role of science in the EHEC crisis of 2011
Funded by: Rathenau Institute
Role: project leader, researcher
Ethical Justification of Keeping Animals (Rechtvaardiging houden van dieren) (2011-2012)
Funded by: Ministry of Economic Affairs, Agriculture and Innovation (EL&I)
Role: project leader, researcher, moderator of stakeholder sessions
Ethical reflection regarding innovative housing system for laying hens (Ethiek bij het Gulden EI project Rondeel) (2009-2011)
Interdisciplinary cooperation with Livestock Research (Wageningen UR)
Funded by: Transforum
Role: project leader, supervision of senior researcher and students
A new ethics for livestock farming: towards value based autonomy of farmers? (2005-2009)
Funded by: The Netherlands Organisation for Scientific Research. NWO
Interdisciplinary cooperation with Rural Sociology and Livestock Research (Wageningen UR)
Role: coordination ethics part, researcher
New foundations for prevention and control of notifiable animal diseases (2005-2009)
Funded by: The Netherlands Organisation for Scientific Research. NWO
Interdisciplinary cooperation with Faculty of Veterinary Medicine (UU) and Animal Production Systems (Wageningen UR)
Role: researcher
Animal Biotechnology & Public Debate (2002-2004)
Organization semi-annual public meetings on animal biotechnology
Funded by: Ministry of Agriculture, Nature Management & Food Quality
Role: researcher and coordinator
Responsible Trust (‘Verantwoord vertrouwen’) (2002)
Funded by: Ministry of Agriculture, Nature Management & Food Quality
Role: researcher
Towards an ethical framework for developments in biotechnology (2002)
Funded by: Netherlands Commission on Genetic Modification (COGEM)
Role: researcher
Food, prevention and ethics. Tailor-made dietary advice to prevent colorectal neoplasia (2001- 2006)
Funded by: ZoN/Mw (Netherlands Organisation for Health Research and Development)
Interdisciplinary cooperation with the groups of Epidemiology, Human Nutrition, and Toxicology (Wageningen UR)
Role: researcher