Showing results for: Zoonotic diseases
FCRN member Damian Maye of the University of Gloucestershire has put together a list of academic and non-academic resources on COVID-19 and sustainable food systems. It is organised into categories including agricultural labour, food access and security, local food networks, food waste and food system commentaries.
This paper combines data on zoonotic viruses in mammals with trends in species abundance. It finds that wild land mammal species with larger populations generally harbour a greater number of zoonotic viruses. Furthermore, among mammal species that are threatened, those that are threatened because of exploitation (e.g. hunting or wildlife trade) or loss of habitat host approximately twice as many viruses as mammals that are threatened for other reasons.
This podcast by the Green Alliance (a UK charity) is an interview with Professor Tim Lang about his new book Feeding Britain. The book was written before the coronavirus crisis, but the interview explores how the crisis is affecting the UK’s food system. The podcast also discusses food rationing, inequality and the links between food policy and the economy, defence, risk, nature and biodiversity.
This blog post from University of Oslo’s Centre for Development and the Environment argues that the spread of zoonotic diseases cannot be halted simply by closing wet markets (often portrayed in the Western media as the source of viruses). Rather, it argues, deeper changes in the food system are required, since zoonotic diseases have also been linked to deforestation and industrial meat production.
This blog post from the Global Alliance for Improved Nutrition sets out the impacts that COVID-19 is likely to have on the food system in both low- and high-income contexts, including impacts on health, livelihoods and the cost of food transport. It also suggests how the food system can be strengthened to mitigate these challenges. See this table (PDF link) for a summary.
This blog post from the UK’s Food Ethics Council explores some of the ethical complexities in the food system’s response to COVID-19. It notes that many people are displaying compassion and supporting neighbours during the pandemic. It also argues that other ongoing crises, including climate, nature loss, health and the UK’s post-Brexit trade deal negotiations, must not be neglected.
This article in the Guardian explores the links between food production and COVID-19. It points out that, while the virus is likely to have been transmitted to humans via a pangolin at a “wet” market in Wuhan, China, the virus may have come to pangolins from wild bats. Some smallholder farmers, the article suggests, began to rear “wild” animals (such as pangolins) for income when their previous livestock farming was undercut economically by industrial farming methods, and may also have been pushed onto marginal land (nearer to forests, bats and the viruses hosted by bats) by industrial agriculture’s expansion.
This book addresses sustainability problems in modern animal agriculture and proposes solutions on topics such as biotechnology, feed production techniques and disease management.
This book discusses how networks of wireless sensors could be used in African agriculture, e.g. to minimise conflicts between wildlife, people and livestock, or to monitor livestock health.
This review paper finds that the number of bacterial strains that are resistant to antimicrobials is increasing in both pigs and chickens. The paper synthesises hundreds of studies from low- and middle-income countries (LMICs) to develop maps of antimicrobial resistance. Hotspots of antimicrobial resistance are found in India and China, with resistance also developing in Brazil and Kenya.
This blog post by Mia MacDonald of US think tank Brighter Green and Gene Baur of Farm Sanctuary explains the African swine fever epidemic that is currently affecting China and Southeast Asia. Over 3 million pigs have already been killed by the disease or culled as a preventative measure. The disease has not yet been passed on to humans.
This report by the World Health Organisation calls for urgent action on the global and growing antimicrobial resistance crisis. It reports that “[a]larming levels of resistance have been reported in countries of all income levels, with the result that common diseases are becoming untreatable, and lifesaving medical procedures riskier to perform.”
This paper describes the susceptibility of organisms such as bacteria to biocides such as antibiotics, insecticides and herbicide as a beneficial ecosystem service, since susceptible organisms can prevent the spread of biocide resistance by outcompeting resistant organisms (that is, in biocide-free environments). This framing is distinct from many other viewpoints, which focus on the negative costs of biocide resistance.
A case of bovine spongiform encephalopathy (BSE), also known as “mad cow disease”, has been confirmed on a farm in Aberdeenshire. The case was discovered before entering the human food chain, and Rural Affairs Minister Mairi Gougeon has said that all necessary measures have been taken to protect consumers.
Animal products are vital components of the diets and livelihoods of people across sub-Saharan Africa. They are frequently traded in local, unregulated markets and this can pose significant health risks.