African swine fever is growing threat to poor and rich countries alike

Participants of an African swine fever workshop held in July 2011 at ILRI’s Nairobi headquarters: (From left) Raymond Rowland (Kansas State University), David Odongo (ILRI), Richard Bishop (ILRI), Maria-Jesus Munoz (Centro de Investigación en Sanidad Animal-Instituto Nacional de Investigaciones Agrarias) and Jose-Manuel Vizcaino (head of the World Animal Health Organisation’s African Swine Fever World Reference Centre, in Madrid) on a visit to the new laboratories at ILRI and Biosciences eastern and central Africa (photo credit: ILRI/Edward Okoth).

‘Scientists from around the world came to Kansas State University’s Biosecurity Research Institute (BRI) May 15–17 to take a global look at the highly contagious viral disease, African swine fever (ASF). The researchers assembled to give updates on research and in some cases, the status of ASF in their countries.

‘ASF has not been found in the United States, but is a serious problem in Africa and outbreaks have occurred in other countries, including Spain, Italy, Russia and the Dominican Republic. There is no vaccine or treatment. Changes in production practices and increasing globalization have increased the risk of introducing ASF into North America and other parts of the world, according to the Center for Food Security and Public Health at Iowa State University. . . .

‘Humans are not susceptible to the African swine fever virus (ASFV), but when an outbreak occurs in any region or country, the financial and physical implications can be devastating to the swine industry and those related to it. During outbreaks in Malta and the Dominican Republic, for example, the swine herds of the entire countries were completely depopulated. . . .

Richard Bishop, senior molecular biologist with the International Livestock Research Institute in Nairobi, Kenya spoke of the importance of the swine herd in Africa, adding that even one pig can make a significant difference in a family’s income. He said that the pig population in Africa increased 284% from 1980 to 1999 and that pork consumption during the period almost doubled. . . .’

Read the whole article at National Hog Farmer (USA): African swine fever represents growing global threat, 18 May 2012.

 

Lethal family tree: ILRI research shows livestock bacterium is as old as the livestock it kills

Aurochs were the ancestors of domestic cattle (photo on Flickr by Marcus Sümnick).

Lucas Brouwers, in a blog on Scientific American, has picked up on an interesting genetics study conducted at the International Livestock Research Institute (ILRI), in Nairobi, Kenya, which targets a cattle disease known as contagious bovine pleuropneumonia (or CBPP for short). The study provides evidence of the primeval origins of the arms race between pathogens and their animal hosts.

The study, conducted by ILRI researchers and partners at the International Centre of Insect Physiology and Ecology (also in Nairobi), and in Germany, Sweden, Switzerland and the USA, was published last month in the Public Library of Science (PLoS, 27 Apr 2012).

The study shows that some ten thousand years ago, as humans first began to domesticate species of wild ruminants (in Africa as well as the Near East), they unwittingly also began to domesticate a wild bacterium—Mycoplasma mycoides.

‘. . . This bacterium has left a long and bloody trail through livestock history. Virulent strains of Mycoplasma raged around the world in the 19th century, killing millions of goats and cows. But the roots of Mycoplasma mycoides run deeper. In their paper, Anne Fischer and her colleagues show that the entire Mycoplasma mycoides cluster arose 10,000 years ago.

Mycoplasma mycoides is as old as the livestock it kills.

‘A severe Mycoplasma infection begins with a cough, followed by a groan, a grunt and more coughing. Breathing becomes difficult and painful. Eventually, the cow or goat becomes listless and, in the terminal stage of disease, stops moving altogether. . . . Untreated, the most deadly of Mycoplasma strains can slaughter herds within days. . . .

‘The nineteenth century . . . was a golden age, as far as Mycoplasma mycoides was concerned. The livestock trade became global, while vaccination programmes were still in their infancy. Entire countries could be infected by a single animal. . . . [A] handful of cows in . . . [South Africa] became infected by a Friesian bull, imported from the Netherlands. The disease soon swept through South Africa, killing 100.000 cows and oxen along the way.

‘To be fair, not every strain of Mycoplasma mycoides is a killer, and not every infection ends in death. The Mycoplasma family is large and most strains are not as lethal as Mycoplasma mycoides mycoides (for cows) and Mycoplasma capricolum capripneumoniae (for goats), the two strains that cause the contagious pneumonia described above.

‘Over the past few years, scientists have realized that the Mycoplasma mycoides family extends beyond its two most infamous members, but have so far failed to chart all the relationships between the different strains. To figure out who is related to whom, Anne Fischer and her colleagues collected 118 different strains from all over the world, and sequenced 7 of their genes. Fischer’s collection features bacteria from all times and places, including strains isolated from African cattle in 1931, Rocky Mountain goats and Mouflons from Qatar.

‘Using the genetic differences between strains as a measure for their kinship, Fischer’s team reconstructed the entire Mycoplasma mycoides family tree. From this tree, the team concludes that the founding father of all Mycoplasma mycoides lived 10,000 years ago—around the same time pastoralists domesticated cattle, goats and sheep in the Near East. . . .

The family tree of the Mycoplasma mycoides cluster, published in the 2012 paper by Fischer et al. Horizontal axis represents time, in years before present. The entire cluster is 10,000 years old, but the two most virulent strains (M caprcicolum subsp capripneumoniae and M mycoides subsp mycoides) are much younger.

‘While Mycoplasma mycoides as a family might be as ancient as livestock itself, the two most contagious and deadly strains are much younger. The common ancestors of the strains that cause contagious pneumonia in cows and goats lived between 91 and 414 and between 56 and 490 years ago, respectively. . . . [W]hat could have favoured the origin and survival of these hypervirulent bugs in recent centuries. Herding made Mycoplasma mycoides—but what turned it into a killer?’

Read the whole post by Lucas Brouwers on Scientific American‘s Thoughtomics Blog: Livestock bacteria are as old as the livestock they kill, 14 May  2012.

Read the science paper: The origin of the Mycoplasma mycoides cluster coincides with domestication of ruminants, by Anne Fischer (ICIPE and ILRI), Beth Shapiro (Pennsylvania State University), Cecilia Muriuki (ILRI), Martin Heller (Friedrich-Loeffler-Institute), Christiane Schnee (Friedrich-Loeffler-Institute), Erik Bongcam-Rudloff (Swedish University of Agricultural Sciences), Joachim Frey (University of Berne) and Joerg Jores (ILRI), 2012, PLoS ONE 7(4): e36150.

 

The future of hunger: How animal science supports global food security

In the past few weeks, Madeline McCurry-Schmidt has published a series of short pieces exploring ways that animal scientists can help feed the world’s growing population.

Published on the American Society of Animal Science ‘Taking Stock’ blog, the five articles covered:

Part 1 – explored the coming food crisis from a livestock perspective
Part 2 – looked at how animal scientists use new nutrition research and technology to increase feed efficiency
Part 3 – looked at how new research and technology related to animal breeding can make animal production more efficient
Part 4 – looked at ways animal scientists can treat and prevent the diseases that threaten animal and human health
Part 5 – looked at the challenges of applying animal science research around the world.

All five parts can also be downloaded as a single PDF file

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Small livestock, big impact

Kenyan geneticist and new PhD Sheila Ommeh (right) works at the Biosciences eastern and central Africa Hub (BecA Hub) and ILRI’s animal health laboratories in Nairobi, Kenya, studying Africa’s native chicken breeds (photo credit: ILRI/Susan MacMillan).

‘Sheila Ommeh, a poultry geneticist at the International Livestock Research Centre in Nairobi, hopes to introduce a disease-resistant chicken that can be easily reared by women farmers.

‘The humble chicken may be a small bird but it could play a big role in reducing rural poverty in Africa, particularly among women farmers. . . .

‘Ommeh knows a thing or two about chickens, having grown up on the slopes of Mount Elgon in western Kenya where most homes rely on poultry flocks for food and income.

‘Her mother, aunts and grandmothers all kept chickens and the birds even paid for some of her schooling.

‘Three quarters of rural households in Kenya rear poultry, which is a cheap source of good protein. These smallholders are mostly women.

‘But Ommeh has seen first-hand how virulent diseases like Newcastle and Gomboro can wipe out flocks and destroy families’ livelihoods, increasing hunger and forcing parents to pull their children out of school because they can’t afford to pay for it. . . .

‘Although women produce most of the food consumed in Africa, only one in four agricultural researchers are female and even fewer hold leadership positions in African agricultural research institutions.

‘One organisation trying to close this gap is African Women in Agricultural Research and Development (AWARD), which is helping women like Ommeh build their technical and leadership skills. . . .

‘Ommeh, who holds a PhD in chicken genetics, firmly believes that the answers to Africa’s problems lie within Africa.

In my view … it’s about time Africa looked for solutions in Africa for Africa,” she told TrustLaw, during a trip to London to address a group of British MPs about empowering African women scientists.

‘. . . The 34-year-old scientist believes it should be possible to produce a disease-resistant breed that weighs around 4 kilogrammes and produces 250 eggs a year – about three times the weight and yield of indigenous chickens. . . .

Chicken is a small livestock but I believe it has the capacity to have a big impact.”. . .’

Read the whole article at TrustLaw: Designer chicken could help empower Africa’s rural women, 07 Mar 2012.

 

Devastating African disease of pigs gets new attention and funding

African Swine Fever Workshop, July 2011, Nairobi; from left: Raymond Rowland (Kansas State University), David Odongo (ILRI), Richard Bishop (ILRI), Maria-Jesus Munoz (CISA-INIA) and Jose-Manuel Vizcaino (Head of OIE ASF World Reference Centre Madrid) on a visit to the new BecA-ILRI laboratories (photo credit: ILRI/Edward Okoth).

New Agriculturist reported late last year on renewed research effort to tackle African swine fever, a devastating disease of pigs.

‘Causing up to 100 per cent mortality in previously unaffected animals, African Swine Fever (ASF) is a devastating disease of pigs. Endemic across much of Africa, the disease poses a wider threat to global food security, particularly in East Asia, where at least 50 per cent of the protein consumed is pork, much of it produced through small to medium-scale “backyard” enterprises.

‘Current control methods are by diagnosis and slaughter but this approach is difficult, expensive and often not practical for smallholder farmers. To better understand the complexities of the disease, a consortium of research and development organisations from around the world is implementing a range of approaches across Africa.

Whilst there are currently no formal economic estimates of the overall losses to ASF in Africa, an outbreak in Madagascar in 1998 killed half the country’s pig population (250,000 animals). During the last year, ASF outbreaks have also been reported in North Cameroon where over 100,000 animals may have been lost to the disease. In October 2010, the World Organisation for Animal Health (OIE) received notification of the first ASF outbreak in Chad. . . .

‘A new injection of research funding will enable African scientists to obtain in-depth data to provide improved insight into the transmission and spread of ASF between African countries. AusAID is supporting Australia’s national science agency (CSIRO), in developing an institutional partnership with the Biosciences eastern and central Africa (BecA) hub.

‘The research team is working to better understand modes of viral transmission, between different geographical regions. . . .

“Collaboration and awareness of biosecurity measures between agencies and across borders is essential since ASF is a transboundary disease,” explains Dr Richard Bishop, project leader. “Through BecA and other mechanisms, we now have national veterinary laboratories increasingly working together across Kenya, Uganda, Tanzania, Rwanda and Burundi, to formulate joint control policies, an initiative that is critical to secure East Africa’s smallerholder pig industry,” he adds. . . .’

This work is funded by development partners including the Africa Union-Interafrican Bureau for Animal Resources (AU-IBAR), the Australian Agency for International Development (AusAID), Centro de Investigación en Sanidad Animal-Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (CISA-INIA Spain), the Food and Agriculture Organization-Emergency Centre for Transboundary Animal Diseases (FAO-ECTAD) and the World Organisation for Animal Health (OIE).

The BecA hub is hosted and managed by the International Livestock Research Institute (ILRI), where the leader of this African swine fever project, Richard Bishop, is a senior scientist.

Read the whole article at New Agriculturist: Renewed research effort to tackle African swine fever, Nov 2011.

 

US National Science Foundation’s BREAD funds Craig Venter and ILRI to battle cattle pneumonia in Africa

Dinner with philanthropist Bill Gates at the home of genome-czar J Craig Venter in La Jolla, California, in 2008 (photo by jurvetson on Flickr). ‘Gates asked the most astute and detailed questions about microbiology’, JCVI reports, and said, ‘DNA is the most interesting software there is.’

The National Science Foundation (NSF) and the Bill & Melinda Gates Foundation have awarded five grants in the second of a five-year Basic Research to Enable Agricultural Development (BREAD) program.

Through the Gates-BREAD program, the NSF supports international research projects at the proof-of-concept stage, with funding provided to both US institutions and their international collaborators. All five of the new grants will fund projects using innovative approaches to advance basic research on key problems involving small farmer agriculture in the developing world.

As a news release from NSF this week reports: ‘One of the projects will develop vaccines against a costly livestock disease common in Africa.

Venter, ILRI, INRA develop new vaccine for African cattle disease CBPP
‘Scientists at the J. Craig Venter Institute (JCVI), the International Livestock Research Institute (ILRI), and the National Institute for Agronomical Research (INRA) will join forces to use new synthetic biology technologies to create strains of Mycoplasma mycoides subspecies mycoides that can be developed as live vaccine candidates for the prevention of contagious bovine pleuropneumonia, an economically very important livestock disease within Africa.

The NSF news release quotes John Wingfield, its assistant director for biological sciences, as saying: ‘The BREAD program continues to draw interest of scientists from around the world. More than 160 U.S. institutions in 45 states, partnering with more than 260 institutions in 76 countries, submitted proposals in fields as diverse as the genetic improvement of crops and animals, control of diseases and pests, the chemistry and biology of soils and water, and engineering. The program and the awards made in 2011 epitomize how novel, transformative basic research in the biological sciences can contribute to major benefits to human society globally.’

‘The awards involve 28 institutions in 6 states and international investigators from Angola, Benin, China, Colombia, the Dominican Republic, Egypt, Ethiopia, France, Israel, Kenya, Malawi, Nigeria, Peru, South Africa, Tanzania, Uganda, Zambia and Zimbabwe.

Other new awards
UC Davis, CIAT and IITA work to improve banana and cassava crop production by the poor
‘The ability to produce doubled haploid plants containing only one set of parental chromosomes could revolutionize breeding in slow cycling crops. Scientists at the University of California, Davis, the International Center for Tropical Agriculture (CIAT) (Colombia) and the International Institute of Tropical Agriculture (IITA) (Uganda) will exploit a recently developed, novel centromere engineering strategy to develop double haploids in banana and cassava.

Boyce Thompson and CIP document the virus populations hurting Africa’s food crops
‘Emerging and reemerging pathogens, including many viruses, continue to cause devastating losses of food production in Africa. Yet there is a widespread lack of basic information and understanding of the virus populations throughout Africa. A team of biologists and computational scientists at the Boyce Thompson Institute for Plant Research and the International Potato Center (CIP) (Peru) will use a systems approach and small RNA deep sequencing on geo-referenced sample surveys from throughout Africa to generate and link viral genome sequence information and their distribution patterns with disease symptoms, epidemic risk prediction, and proposed management strategies.

Cornell, USDA-ARS, IITA battle viruses of Africa’s staple food crops
‘Key to the success of any strategy to control insect vectors of plant and animal viruses is early and fast detection of vector species and avoidance of infection. A research team at Cornell University/USDA-ARS, University of Washington, International Institute of Tropical Agriculture (IITA) (Nigeria) with collaborators at the USDA-ARS (Charleston, SC) and IITA (Cameroon) has identified a set of protein biomarkers that can identify vector competent populations of aphids, the most important vectors of plant viruses. They will exploit this discovery and determine whether biomarkers can identify vector competent populations of other homopteran insect vectors of plant viruses affecting staple food crops in sub-Saharan Africa. . . .’

Read the whole news release at the US National Science Foundation: NSF provides additional $5.9 million to support five new BREAD Program Projects, 9 Feb 2012.

A complete list of 2011 BREAD awards can be accessed on the Directorate for Biological Sciences website.

Read more about ILRI’s BREAD project on this ILRI News Blog: Biologists in Nairobi to take part in two new animal health projects announced this week by the US National Science and Gates foundations, 13 May 2010.

About the J. Craig Venter Institute
The J. Craig Venter Institute was formed in October 2006 through the merger of several affiliated and legacy organizations—The Institute for Genomic Research (TIGR) and The Center for the Advancement of Genomics (TCAG), The J. Craig Venter Science Foundation, The Joint Technology Center, and the Institute for Biological Energy Alternatives (IBEA). Today all these organizations have become one large multidisciplinary genomic-focused organization. With more than 300 scientists and staff, more than 250,000 square feet of laboratory space, and locations in Rockville, Maryland and San Diego, California, the new JCVI is a world leader in genomic research.

 

Could Rift Valley fever be a weapon of mass destruction? An insidious insect-animal-people infection loop explored

The Fifth Plague: Livestock Disease, woodcut by Gustave Doré, 1866 (public domain, via Wikimedia Commons).

Anthrax, bird flu , Ebola, HIV-AIDS, H1N1, H5N1, influenza, Rift Valley fever, SARS: What are the disease links between people, animals and environments? And what are we doing to protect ourselves against the next outbreak of a deadly infectious disease? A series being published in the Huffington Post is exploring such ‘living weapons’ and our preparedness, or lack thereof, in dealing with them. Keeping an eye on livestock diseases, experts agree, is a major way to prevent deadly outbreaks of human diseases. And these animal-human disease links, they say, are under-appreciated and under-funded.

Take Rift Valley fever, a disease transmitted between mosquitoes, livestock and people in Africa. Although considered by many experts to be a potential bioterrorist weapon, it remains underfunded.

As Lynne Peeples of the Huffington Post reports:

This emphasis on coordination among medical, veterinary and environmental health scientists, reflecting the global “One Health” movement, could also be employed in the development of vaccines and treatments for bioterror threats.

Rift Valley fever virus is a prime candidate for such collaboration, says BioProtection Systems’ [Ramond] Flick, an expert on emerging infectious disease, which can afflict both animals and humans. Creating a livestock vaccine would reduce the risk of human infection.

However, because the disease is not considered a priority human bioterrorism agent by the government, research funding is low. Jason McDonald, a CDC spokesperson, explains the agency’s exclusion of Rift Valley: humans typically contract the virus through bites of infected mosquitoes and just 1 percent of these victims die.

Flick disagrees.

The public’s current awareness of Rift Valley fever and its perception of the West Nile virus threat before 1999 are strikingly similar, he says. West Nile had not been given much thought before it cropped up in New York City. Within a few years it had spread across the country.

Flick warns of even more devastating consequences with the relatively unknown bug. More mosquito species can carry Rift Valley than West Nile. It is also more virulent. And according to research in Arabia and Africa, the fatality rate may actually be increasing, killing more than 30 percent of people infected during recent outbreaks. Further, there does appear to be potential for human-to-human transmission.’

Scientists at the International Livestock Research Institute (ILRI) have been working with partner organizations in eastern and southern Africa to better understand the spread of Rift Valley fever. They are developing a toolkit that will help decision-makers make timely and appropriate interventions to prevent the disease from jumping from cattle to the poor people who rear them. The toolkit includes advice on the conditions that suit the Rift Valley fever virus infecting cattle populations (e.g., following unusually heavy rains northern Kenya and other parts of the Horn’s drylands), at which point disease control agents should begin surveillance to diagnose and stop the spread disease in the infected animals before it has time to begin infecting human populations.

Efforts to better align the work of organizations researching Rift Valley fever were the focus this month (Feb 2012) of a workshop organized and hosted by ILRI at its Nairobi headquarters. Watch for a forthcoming post on the ILRI New Blog on that workshop and what it achieved.

The urgency of adopting a ‘one health’ approach to disease control is highlighted by the Huffington Post‘s Lynne Peeples.

‘. . . Biological weapons have a long and sordid history, from catapulting infected corpses to dropping bombs of plague-infected fleas. But what if a biological weapon were being developed and studied by scientists that had the potential to kill not a battalion or a city, but 150 million people? According to some public health and defense officials, that is exactly what we’re facing, following the cultivation of a highly contagious form of H5N1—a lethal bug better known as bird flu. The contagion, they fear, could escape the lab or its recipe could land in the wrong hands.

. . . A super flu is just one of a growing list of potential pandemics that could develop in the near future, either as a result of terrorism, of superbugs leaping from animals to humans, or both. In fact, nearly 80 percent of the bioterrorism agents recognized by the U.S. government started in animals. . . . And nature will spawn new agents continuously.’

‘This means a terrorist may need few tools, little training, minimal money and no published blueprint to harvest a superbug and then unleash it in food, water, air or via insect vectors such as fleas or mosquitos. . . .

The overlap of bioterrorism agents and emerging infectious disease also means that officials could defend against biological attacks and natural outbreaks in tandem.’

‘. . . Yet federal funding to prevent and respond to bioterrorism is plummeting. The U.S. Centers for Disease Control and Prevention’s biodefense budget peaked in 2005 at about $1.2 billion. The 2012 budget is down to $800 million, with state and local programs—the country’s first line of defense—absorbing some of the most significant cuts. . . . The U.S. “remains largely unprepared for a large-scale bioterrorism attack or deadly disease outbreak.”

. . . Meanwhile, nature knows no rules or regulations and continues to create new viruses and alter old ones. And because animal-borne diseases may need no help spilling over into humans, outbreak investigations could easily confuse intentional and natural outbreaks.

“The government spends a lot of money developing biosensors,” says Princeton’s Kahn, referring to air sampling surveillance and other sophisticated systems. “But I would argue the best ones are flying around,” or in this case, hanging out on farms.

Zoos can be particularly good sources of sentinels, she adds, as they house a wide array of animals from around the world with different levels of susceptibility. Most zoos are also located near densely populated urban centers, which tend to be terrorism “hot spots.”

“There’s a possibility that the high-tech tools are not even in the right place,” says Rabinowitz. “By being constantly aware of new events in animals as well as in humans and the environment, we’re more likely to pick up a new threat.”. . .

This emphasis on coordination among medical, veterinary and environmental health scientists, reflecting the global “One Health” movement, could also be employed in the development of vaccines and treatments for bioterror threats. . . .

Researchers have discovered an average of 15 to 20 previously unknown diseases in each of the past few decades, including incurable diseases like HIV/AIDS, ebola and SARS, with new pathogens likely to emerge and spread faster due to the global population’s increasing size and mobility.’

‘. . . The ability to detect and identify diseases as they initially emerge can go a long way in thwarting an outbreak, [Scott Lillibridge] says. It can provide the time to prepare, including upgrading quarantines at the border, researching a vaccine and identifying what drugs might successfully combat the infection.

‘”A couple weeks can be critical,” says Lillibridge. “It can make an administration look foolish or like they’re in control.”

‘Overall, the U.S. government spent approximately $60 billion on biodefense from 2001 to 2009. Only 2 percent of that was dedicated to preventive measures such as programs to discover and reduce biological threats overseas, according to Koblentz.

To protect Americans, we must look at what is going on in the rest of the world,” says Khan.

ANSER’s Gursky, recently returned from hosting a NATO meeting in Central Europe: “The most important strategy is to build up the capabilities that we share, which means reaching across borders and politics,” she says.’

‘Coalescing efforts might also allow the government to do more with less. “We’re looking at not only man being a terrorist, but nature can be a terrorist as well,” says Henderson. “The natural occurrence of a disease gives us similar problems, so whatever we’re doing to prepare for one, prepares us for the other.”‘

Read the whole article, by Lynne Peeples, in the Huffington Post: Bioterrorism funding withers as death germs thrive in labs, nature, 10 Feb 2012; this article is part of a series, ‘The Infection Loop,’ investigating the complex links between human, animal and environment.

Read more on ILRI’s News Blog and Clippings Blog about recent research advances in better control of Rift Valley fever.

 

Elevage en régions chaudes

L’agriculture – et plus particulièrement les productions animales – sont depuis quelques années au coeur des préoccupations mondiales, si l’on en juge par les nombreux rapports produits par diverses institutions internationales.

Les productions animales au Sud se trouvent ainsi dans une situation paradoxale : elles doivent faire face à une évolution importante de la demande à moyen terme, dans un contexte nouveau, marqué notamment par les tensions sur les disponibilités et les coûts des intrants et par la prise en compte impérative tant des contributions que des effets liés au changement climatique.

C’est dans ce contexte particulier, et en prolongement de la réflexion menée en France par l’Institut National de la Recherche Agronomique (INRA) et le Centre de coopération internationale en recherche agronomique pour le développement (CIRAD) dans le cadre du chantier ‘Production animale en régions chaudes’ (PARC) rappelé dans la préface, que la Rédaction de la revue INRA Productions animales a décidé de consacrer un numéro complet (Numéro 1 2011) au thème de l’élevage en régions chaudes.

Ce numéro spécial comprend les articles (complets) suivants :

• Introduction générale
• Évolution des productions animales terrestres et aquacoles dans le monde : tendances globales et implications économiques, sociales et environnementales
• Ressources tropicales : disponibilité et valeur alimentaire.
• Adaptation des animaux d’élevage aux multiples contraintes des régions chaudes.
• Spécificités de la santé animale en régions chaudes : le cas des maladies infectieuses majeures en Afrique.
• Elevage et qualité des produits en régions chaudes.
• Impacts et services environnementaux de l’élevage en régions chaudes.
• Conception et évaluation de systèmes d’élevage durables en régions chaudes.
• Élevage, filières et territoires en régions chaudes.
• Élevages et sociétés : les rôles multiples de l’élevage dans les pays tropicaux.

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Australia steps up support for research in Africa to reduce the continent’s heavy livestock disease burden

ILRI scientist Joerg Jores (right) tells German Chancellor Angela Merkel, who visited the ILRI-BecA labs in July 2011, about his livestock disease research (photo credit: ILRI/Njoroge).

‘Owning large livestock is like money in the bank for African farmers, but major diseases significantly threaten their future.

‘Among these are [peste des petits ruminants], a viral disease affecting sheep and goats, and [contagious bovine pleuropneumonia], adversely impacting on cattle, which are spreading rapidly in the developing world.

‘With three years of funding from AusAID and with science support from Australia’s CSIRO, research scientists at the International Livestock Research Institute in Nairobi, Kenya, are working on improved diagnostics and more effective vaccines for their control.

‘Jeffrey Mariner heads the development of a thermo-stable vaccine for PPR (known as small ruminant plague). The disease causes diarrhoea in sheep and goats and up to 50 per cent mortality in affected flocks.

‘He said a vaccine was in production which offered lifelong immunity but required refrigeration, giving it limited use in remote Africa.

‘Developing a vaccine effective at room temperature would significantly reduce the cost of vaccination and make it more accessible to pastoral areas of Africa, where many sheep and goats were run. . . .

‘A team of researchers is also investigating more effective control methods for [CBPP] which is estimated to cost 44 million Euros a year in the 12 African countries which represent the vast majority of outbreaks.

‘The flu-like disease was eradicated from most Western countries, including Australia, in the early 1970s, but it is still a large killer of cattle across central Africa and south into Tanzania and Zambia.

‘A live vaccine is available for [CBPP] but delivers only short time immunity with annual revaccinations required. It also needs refrigeration during transport and storage.

‘Project leaders Jan Naessens and  [Joerg] Jores said other continents had eradicated [CBPP] through test and slaughter programs, but Africa could not afford to take this approach due to food security issues. . . .’

Read the whole article in Stock Journal: Oz research tackles disease spread, 26 Dec 2011.

ILRI’s PPR and CBPP research projects both come under an Australian Government African Food Security initiative supported by the Australian Agency for International Development (AusAID) through  the Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia’s national science agency, and in partnership with BecA, Biosciences eastern and central Africa Hub (BecA), an initiative hosted and managed by ILRI in Nairobi, Kenya.

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Livestock and human health – directions for ILRI

As part of a session on ‘livestock and human health’ at the recent ‘LiveSTOCK Exchange’ event, Brian Perry interviewed a panel of ILRI staff on future research in this area as part of the new CGIAR Research Program (CRP4) on Agriculture for Improved Nutrition and Health.

Topics addressed by Delia Grace include the topical and geographic focus of the new CRP, how gender will be addressed, the involvement of partners, monitoring and impact indicators, and the role on One Health. Bernard Bett explained how risks of emerging diseases will be addressed, and ILRI’s comparative advantages in this area. Vish Nene elaborated on the ‘biotechnology’ and diagnostics aspects of the new work; and Appolinaire Djikeng talks on ways the BecA hub can be used to link genomics and meta-genomics technologies with work on emerging infectious diseases. ILRI Director General Jimmy Smith concluded by arguing in favour of work on the prevention and surveillance side of such diseases.

See the video:

 

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On 9 and 10 November 2011, the ILRI Board of Trustees hosted a 2-day ‘liveSTOCK Exchange’ to discuss and reflect on livestock research for development. The event synthesized sector and ILRI learning and helped frame future livestock research for development directions.

The liveSTOCK Exchange also marked the leadership and contributions of Dr. Carlos Seré as ILRI Director General.  See all posts in this series / Sign up for email alerts

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