Tag Archives: article

International Women’s day 2016: Recognizing BecA-ILRI Hub women’s contribution to research in Africa

The United Nations Institute for Statistics’ reports show that only 28 per cent of the world’s researchers are women. It also reveals that many of the women who enroll for science careers in university end up choosing not to advance their science careers.

The scenario at the Biosciences eastern and central Africa-International Livestock research Institute (BecA-ILRI) Hub in Kenya is however quite different. With 50 percent female staff, the African centre for excellence in agricultural biosciences has proven that women do have a significant contribution to make to research for development in Africa and beyond.

As we celebrate the International Women’s day 2016, the BecA-ILRI Hub pays special tribute to all the women who are part of a dedicated team of scientists; technical staff; and administrators playing a vital role in empowering African scientists to use biosciences in transforming African agriculture.

In this article, you will meet two out of 22 remarkable women who represent the skill, passion and determination of women in science at the BecA-ILRI Hub and of many more across the globe.

Happy International Women’s Day!

Agnes Mburu
Technical management assistant

A trained electronics engineering technologist, Agnes is driven to ensure the efficient management and use of the electronic equipment at the shared research platform.

“I got the greatest encouragement in choosing a career in Electronics Engineering from my high school physics teacher. He had only two girls in his class—the other 38 opted to take geography instead.

I have a passion for all things ‘electricity’ and what I love most about my job is that I am always learning new things. But more important to me is the fact that as I learn, I am able to support researchers in the proper use of equipment to ensure their success.

Although mine is a male dominated field, this has never stopped me from being the best that I can be. Being open to new ideas and new ways of doing things has helped me overcome the negative attitudes I faced when I chose my career.

The greatest challenge I have faced is getting the resources to finance my learning and career growth. It was a tough choice to make—progressing my career while at the same time, providing for my family. What kept me strong is the understanding that whatever we do in life never goes unnoticed.

I plan to start a group to support the young people in my village who did not get an opportunity to go to high school. There are many opportunities for hands-on training at the polytechnics in Kenya which they can benefit from. Maybe given an opportunity, more women from my village will join my profession.”

Everline Atieno
Acting Central Core Unit Coordinator

Trained in laboratory technology and biotechnology, Everline manages a team providing essential services to all laboratory users at the BecA-ILRI Hub.

“I developed an interest in science at a very early age and therefore I had a bias towards science subjects in high school.

The most exciting thing about working at the BecA-ILRI Hub is that I am adding value to research done by national, regional and international scientists. I get to meet top notch scientists, students, research associates, and suppliers from all over the world. I belong to a big community that is making a difference in Africa!

I have never really been made to feel out of place in my career choice. On the contrary, I have been made to feel important for having developed an interest in science as a woman. The greatest challenge I have experienced though, was the struggle to have my skills and contribution recognized before I got a college degree. Some people have the wrong perception that anyone without a college degree is a failure–that is not true, I think my work spoke for me long before I got my degree!

There is need to encourage people to grow no matter what their background is. Some people simply lack opportunities or an enabling environment to help them excel. More people should stand out as role models and motivate those in the lower cadres who have the potential and are willing to grow in their career.

My greatest drive has been my ambition to progress and the encouragement I have received from other women who have made it in the world of science like the BecA-ILRI Hub technology manager, Josephine Birungi. I have also benefited from the support and flexibility of my supervisors and the encouragement from my peers.”

Lessons from an ‘ugly’ pig: BecA-ILRI Hub Director Appolinaire Djikeng discusses the role of livestock diversity in resilience for smallholder farmers in Africa

Leave a reply

Smallholder livestock farming in sub Saharan Africa is associated with considerable risk and vulnerability. The challenging environmental conditions and limited resources available to support large livestock production present a major constraint to the development of this sector on the continent. Yet, Africa holds up to 70 percent of the livestock diversity in the world.

In addition to great diversity, African livestock includes species which possess attributes that give them resilience to diseases and other stresses that present a challenge to livestock production. During the fourth session of the International Fund for Agricultural Development (IFAD) AgTalks, the Biosciences eastern and central Africa-International Livestock Research Institute (BecA-ILRI) Hub director Appolinaire Djikeng gave his perspective on a fresh approach to livestock production which will help poor and vulnerable farming households in Africa climb up the livestock ladder out of poverty.

The N’dama cattle of West Africa are known to be trypanotolerant, and as such are able to populate tsetse fly infested regions of the continent where the tick-borne trypanosomiasis disease poses a significant challenge to livestock keeping. Still in West Africa, the prolific dwarf goat which produces up to four kids in one kidding has proved to be a great asset to smallholder farmers, enabling them to build large flocks for quick access to financial resources and nutrition. The Red Maasai sheep which are indigenous to East Africa possess resistance to endoparasites and thrive in very challenging arid environments, common in sub Saharan Africa.

In this nine minute video, Djikeng draws lessons from his childhood experience of the difference it made to own Cameroon’s unique ‘ugly’ pig during an Africa swine fever outbreak to address the issue of providing better opportunities for smallholder farming communities by utilizing the diversity of livestock as well as developing alternative livestock production systems in Africa.

_________________________________________________________________________

Read the full transcript here: http://ifad.org/agtalks/apollinaire.htm

Read related story here: Livestock, a lifeline for smallholder farmers

Improved Brachiaria grasses broaden horizon for Kenya’s livestock sector

1 Reply

Farmer harvesting Brachiaria grasses in Kenya

Albernus Mulwa harvests Brachiaria grass at his farm in Machakos County, eastern Kenya
(photo: Nation Media Group\ Sarah Ooko).

The meat and milk production of a cow is only as good as the feed it gets. Through a project led by the Biosciences eastern and central Africa-International Livestock Research Institute (BecA-ILRI) Hub, dairy farmers in the semi-arid regions of Kenya are discovering that Brachiaria, the grass which transformed the livestock industries of Brazil and Australia, can turnaround their low production levels.

Brachiaria grasses are highly nutritious, possessing about 12 per cent protein at harvest which can be sustained over a long period as compared to the commonly used Napier grass whose protein concentration starts diminishing after about four months. The leaves, which form a greater proportion of the plant, are also more palatable and easily digestible. Since Brachiaria grasses thrive all year round, farmers are able to enjoy a constant supply of animal fodder. After a bumper harvest, Brachiaria can easily be dried in the sun and conserved as hay for sale or future use.

Brachiaria grass is not only good for livestock, but has proven useful in the alleviation of the effects of greenhouse gas emissions and ground water pollution. The high amounts of biomass produced by the grass sequester carbon and enhance nitrogen use efficiency through biological nitrification inhibition (BNI).

Through the Swedish funded research project, scientists from the BecA-ILRI Hub, Kenya Agricultural and Livestock Research Organization, Rwanda Agriculture Board, International Centre for Tropical Agriculture (CIAT), Grasslanz Technology Limited and AgResearch (New Zealand), are developing varieties of Brachiaria grasses that are well suited to different local environments across eastern Africa. The project aims at promoting the mass cultivation of the grass in Kenya and other African countries so that the continent can eventually also reap the benefits of her native grass.

_______________________________________________________________________________

For information on the Brachiaria grass planting materials and the field trials being coordinated by KALRO Katumani research center, call Tel: 0722206986

For more information on the research project, contact program leader Sita Ghimire — s.ghimire@cgiar.org

Read original story by Sarah Ooko: Wonder grass back in Africa, opens new horizon for Kenya’s livestock sector
Read related story: Change of diet opens cash taps for milk producers
Visit the project page: Climate-smart Brachiaria grasses for improved livestock production in East Africa

Defining the future of genomics in plant breeding

1 Reply

Appolinaire Djikeng, director, the BecA-ILRI Hub speaks on the role of genomics in plant breeding

The availability of genomics tools is transforming plant breeding by making it possible to identify and capitalize on their positive genetic traits. Genomics, or the study of genes and their interrelationships and functions, is giving plant breeders the means to accelerate the development of new higher yielding crop varieties that are capable of withstanding pests, diseases, or climate changes, and ultimately improve the global status of food and nutritional security.

In this three-minute video, Appolinaire Djikeng, director of the Biosciences eastern and central Africa-International Livestock Research Institute (BecA-ILRI) Hub in Nairobi, Kenya gives his views on the future of genomics in breeding and why research programs should invest more in the acquisition and application of genomics tools.

The BecA-ILRI Hub, a joint initiative of the African Union’s New Partnership for Africa’s Development (AU/NEPAD) and ILRI, is strengthening the capacity of African scientists to exploit advances in research by providing access to technologies previously unavailable in the region. The BecA-ILRI Hub genomics platform actively supports a wide range of research projects in molecular breeding as well as animal, crop and environmental health. Through a continued collaboration with researchers from African national agricultural research systems, the genomics platform is helping guide the design of strategies for increased agricultural productivity and crop and livestock disease management in Africa.

___________________________________________________________________________________________

Read more about the BecA-ILRI Hub Technologies and research related services

Livestock, a lifeline for smallholder farmers: The BecA-ILRI Hub director to participate in IFAD AgTalks in Rome, Italy

Leave a reply

Approximately 95 per cent of livestock keepers live in extreme poverty despite the increased demand for animal products such as milk and meat. While it is recognized that livestock keeping offers a promising opportunity to combat poverty in many developing countries, most livestock policies and services tend to favour large-scale production.

Appolinaire Djikeng at the Annual Bioforsk Conference in Norway Join Appolinaire Djikeng, the Director of the Biosciences eastern and central Africa – International Livestock Research Institute (BecA-ILRI) Hub on 9 July 2015 during the fourth session of AgTalks as he gives his perspective on what it will take to reverse this trend.

Djikeng will be sharing his vision on why Africa’s untapped animal genetic diversity, particularly of mini livestock, holds the key to helping poor and vulnerable households in rural and peri-urban African climb up the livestock ladder out of poverty.

Djikeng is a strong proponent of capacity-building in Africa. His focus is on building the next generation of African scientists and tapping on bioscience to address agricultural development and public health issues. Djikeng has led the domestication of ruminant species in Africa, including the grasscutter, to create sustainable sources of protein.

Twitte handle: @BecAHub

________________________________________________________________________________

About AgTalks
As a contribution to the International Year of Family Farming (IYFF), the International Fund for Agricultural Development (IFAD), a specialized United Nations agency and the only international financial institution within the UN family, launched the AgTalks series. IFAD is exclusively dedicated to investing in rural people and working with smallholder family farmers. The objective of AgTalks is to present the human face of family farming by sharing the latest policy research findings, as well as different viewpoints on smallholder farming.

The fourth session of AgTalks brings together Appoliniare Djikeng,Director, BecA-ILRI Hub; Emma Naluyima, smallholder farmer and private veterinarian, Uganda; Robyn Alders, Associate Professor, University of Sydney and Director, KYEEMA Foundation; and Guillermo Vila Melo,agronomist engineer, who will share their perspectives and views on the critical importance of livestock to smallholder farmers

Follow the proceedings and interact with the prominent guests via webcasting.
Share your views and insights on social media with the #agtalks hashtag.

Providing much needed support to African women in science at the BecA-ILRI Hub

Leave a reply

The BecA-ILRI Hub fraternity celebrates visiting researcher’s family milestone

On 24 June 2015, the BecA-ILRI Hub team and Africa Biosciences Challenge Fund (ABCF) fellows from across eastern and central Africa celebrated six-month old baby Rayan BecA Babiker.
Baby BecA who was born to ABCF fellow Rasha Adam from Sudan and her husband Babiker Mohammed is a testimony to the significance that the BecA-ILRI Hub places on supporting women in agricultural research.

Africa Bioscience Challenge Fund Fellow Rasha Adam and her family pose with BecA-ILRI Hub communications officer Ethel Makila and capacity building officer Valerian Aloo, Nairobi, Kenya

Adam, a researcher at the Biotechnology and Biosafety Research Centre at the Agricultural Research Corporation (ARC) in Khartoum, Sudan joined the BecA-ILRI Hub on 30June 2014 for a year-long placement. Already expectant when she got her letter of acceptance to the highly competitive fellowship program, Adam was not willing to postpone her quest to improve the food security situation in Sudan despite being offered a postponement of the start date till after delivery. The BecA-ILRI Hub capacity building team worked with her to ensure her work-plan guaranteed her safety and comfort, and she commenced her placement in June 2014 as scheduled.

‘I am so grateful to all of you at the BecA-ILRI Hub for the support that you gave me throughout my pregnancy,’ said Adam, who gave her baby the name BecA as a reminder of the team that stood with her during a significant period in her career and family life.

In appreciating her co-ABCF fellows, Adam said ‘The ABCF fellows have become like family to me, watching over me throughout my pregnancy and showing me how to hold and care for the baby when she came.’

Appolinaire Djikeng, the director of the BecA-ILRI Hub lauded Rasha as a true example of the resilience of women in science.

‘It is inspiring to see Rasha balance her new status as a mother while conducting excellent science,’ said Djikeng. ‘Rasha is evidence of the heights that women can achieve when they are offered the right support,’ he added.

For the past one year, Rasha Adam has been working to optimize tissue culture and transformation protocols that will facilitate the enhancement of sweet sorghum for drought resistance. Sorghum is an important staple crop in Sudan due to its tolerance to high temperatures and drought. The sweet sorghum is increasingly significant in the country for its use as food, livestock feed and its potential for production of biofuels.

The research being conducted by this first time mother could result in the ground-breaking development of the very first protocol for the transformation of cereals.

For more pictures, visit the Flickr Album: Celebrating Baby BecA

Kenyan farmers reap rewards of the amazing Brachiaria grasses

13 Replies

K24 Journalist Violet Otindo highlights the changing fortunes of dairy farmers using Brachiaria grasses to feed their animals in Kenya.

Preliminary data from dairy farmers participating in on-farm evaluations of Brachiaria grasses in Kenya shows that the nutritious grasses contribute to increased milk production.

The on-going research program on Climate-smart Brachiaria Grasses to Increase Livestock Production in East Africa conducted by the BecA-ILRI Hub in collaboration with the Kenya Agricultural and Livestock Research Institute (KALRO); Rwanda Agriculture Board (RAB) ; International Center for Tropical Agriculture (CIAT), Colombia; and Grasslanz Technology Limited, New Zealand has engaged smallholder farmers in cultivating the grasses as major livestock feed sources and as a source of household cash income through the seed production.

The Swedish funded program has been successful in, together with farmers, identifying best bet varieties for different agro-ecological regions and creating awareness among the farmers, researchers, extension agents, policy makers and politicians on the significance of Brachiaria grasses to support a growing dairy industry. Through the project, farmers have discovered that the Brachiaria grasses not only preferred by animals but also grow better than most forage in marginal soils of semi-arid and sub-humid environments that are common in most of Sub-Saharan Africa.

In this four minute video, K24 journalist Violet Otindo talks to Albanus Nduva from Kanzalu village of Machakos County in eastern Kenya, one of the 1200 farmers in Kenya who have been involved in participatory on-farm evaluations of Brachiaria grasses as pasture and recording the milk production data Otindo also gets insights from BecA-ILRI Hub scientist Sita Ghimire who leads the program and Donald Njarui from KALRO, Kenya as to why Brachiaria grasses are good for the environment.

________________________________________________________________________________

Read related stories:

Vibrant innovation platforms equals relevant research – sustainable gains in research through community involvement

Leave a reply

Often, adoption of new technologies or practices designed to improve people’s, lives does not take place due to various factors including lack of understanding by communities and the absence of support for the innovations from leadership. Félix Meutchieye, Cameroon national coordinator of the “Harnessing genetic diversity for improved goat productivity” project speaks about the strides being made by the project in involving communities and increasing the chances of adoption of research findings through innovation platforms.

Harnessing the diversity of native livestock in Africa is becoming a pressing need as continual changes in the environment exert pressure on small holder livestock farmers. The higher temperatures and changing rainfall patterns are contributing to the increased spread of existing vector-borne diseases and the emergence of new diseases as well affecting the feed production.

Small ruminants play a significant role in livestock production systems throughout the wide range of agro-ecological regions in Africa. For many rural farmers, they are a critical resource of nutrition and income, and goats in particular are more resilient and adapted to different husbandry conditions. It is well documented that genetic variation in ability to various infections and diseases as well as to adapt to harsh environments with higher temperatures and less water, exists between and within different breeds of goats.This adaptation is especially evident in indigenous breeds, but gaps still exist in the knowledge available.

The “Harnessing genetic diversity for improved goat productivity” project is focused on bridging this knowledge gap by helping farmers take advantage of the best genetic resources locally available. Our strategy involves working closely with the goat keepers, traders, policy makers and all other stakeholders so that there is collective ownership of the existing problems and in the approach to finding solutions. Through the innovation platform (IP) system, the project is drawing from the existing indigenous knowledge, receiving guidance in terms of farmers’ actual needs and preferences and establishing effective channels that act as vehicles for information on research findings and promotion of sustainable livestock keeping practices.

Already in Cameroon, one regional IP in Kouoptamo (West Highlands) has identified high fecundity as a desirable trait in their goats and are promoting their animals as high value breeding stock for proven twinning ability. Additionally, as a result of close engagement with the project through the
Cameroon National goat IP, the Ministry of Livestock, fisheries and animal industries has recognized the importance of goats and small ruminants as an important resource to grow the country’s rural economy and has started a program to revitalize three small ruminant breeding and multiplication
stations in different agro-ecological regions.

Our counterparts in Ethiopia have established a community based goat breeding initiative where a group of 50 farmers have formed a cooperative society to drive the breeding activities. The cooperative members brought their goats for selection to form the next generation of goat parents in their village and in the neighbouring villages as well.

I see this active participation by communities as a very exciting and practical way of doing research. Through community involvement, the project has been able to stay relevant and ensure that good science supports the things that are most relevant to Africa’s development.

Getting goat facts straight – ABCF fellow makes a presentation during the 6th All Africa Conference on Animal Agriculture

5 Replies

“There is need for us, African scientists to design research to suit our own context so that we can get the real picture of what we have on our continent.”

This was the powerful message delivered by Getinet Mekuriaw, an Africa Bioscience Challenge Fund (ABCF) research fellow at the BecA-ILRI Hub, during the Sixth All African Conference on Animal Agriculture in Nairobi on 27 October 2014. Mekuriaw’s presentation titled “A review of genetic diversity of domestic goats identified by microsatellite loci from global perspective” was based on a paper authored together with five other scientists from the Addis Ababa University in Ethiopia, the Biosciences eastern and central Africa-International Livestock Research Institute (BecA-ILRI) Hub and ILRI. The paper was an evaluation of the research that has been done so far in establishing the genetic diversity of domestic goats globally.

Africa Bioscience Challenge Fund fellow, Getinet Mekuriaw at work at the BecA-ILRI Hub. (photo credit: BecA-ILRI Hub/Marvin Wasonga)

Genetic diversity holds the key to animal breeding and selection. Accurate information on the observable characteristics or traits of a species, their form and structural features and how this varies amongst different populations in a given region is crucial in the development of appropriate breeding strategies for the improvement and for the conservation of important breeds.

In Africa, the role of indigenous goats in smallholder livestock production is growing rapidly as keeping them is often the only practical way to use vast ranges of grasslands that cannot be used for crop production. There is evidence of local goat breeds being better able to withstand the increasingly harsh environmental conditions that come with climate change including higher temperatures, lower quality diets and greater disease challenge.

Unfortunately, not enough has been done to generate information about the genetic resources available and it is feared that many goat populations could disappear before they are even identified. Mekuriaw attributed the gaps in knowledge on goats globally, and in Africa specifically, to deficiencies in research methods. While it is indeed possible that there is low genetic variation between goat populations in Africa and beyond due to uncontrolled and random mating within flocks as well as huge population movement in between regions, inefficient technical and statistical data management have contributed to conclusions drawn from research so far.

Mekuriaw, a PhD student from the University of Addis Ababa in Ethiopia, is currently attached to the BecA-led research project “Harnessing genetic diversity for improved goat productivity” under the ABCF fellowship program. Through this component of his PhD research which is supervised at the BecA-ILRI Hub by project Principal Investigator Dr Morris Agaba, Mekuriaw hopes to establish the extent of diversity among indigenous goat breeds in Ethiopia. He also hopes to map out the genes responsible for growth and twinning and thus contribute to the establishment of a breeding strategy that will select goats for those traits. In addition, he is also developing a molecular tool, DNA profiling, which enables the determination of pedigree of the animals which will also be used in the establishment of the breeding strategy.

Mekuriaw’s research is helping the BecA-led project to achieve its overall goal which includes empowering goat breeders in Cameroon and Ethiopia to develop better goats suited to resource-poor farmers and to develop ICT based tools to support management decisions throughout the goat production chain.

Welcome home Brachiaria! Home coming of Africa’s “super” grass

2 Replies

“The hitherto overlooked Brachiaria grasses have returned home to Africa and have been warmly embraced by smallholder dairy farmers in eastern Africa.”

Presenting a paper co-authored by nine scientists from seven institutions including the BecA-ILRI Hub, Dr Brigitte Maas from International Center for Tropical Agriculture (CIAT) gave an overview of the research, successes and challenges of adopting improved Brachiaria hybrids Mulato and Mulato II in the African context during the 6th All Africa Conference of Animal Agriculture in Nairobi on 27 October 2014.

Brachiaria grasses have higher nutrient content than most commonly used forages. They are adapted to drought and low fertility acidic soils. These grasses are good for the environment as they enhance nitrogen use efficiency, sequester carbon, and reduce greenhouse gas emission and ground water pollutions. These attributes make Brachiaria one of the most widely cultivated forages in South and Central America, and Australia where they have been shown to increase milk and meat yields in cattle.

Farmers participatory selection of brachiaria grasses

Farmers select their preferred variety of Brachiaria grasses at the KALRO-Katumani experimental plot in eastern Kenya. (photo credit: ILRI/Samuel Mungai)

Re-introducing Brachiaria grasses to their native home
Despite the fact that they are native to Africa and that they occur plentifully across many regions of sub Saharan Africa, these grasses are yet to be explored and fully utilized as forage on the continent. However, thanks to the implementation of a Swedish funded research program “Climate-smart Brachiaria grasses for improved livestock production in East Africa” which is led by BecA-ILRI Hub in partnership with CIAT; Kenya Agricultural and Livestock Research Organization (KALRO); Rwanda Agriculture Board (RAB); and Glasslanz, the anonymity of these “wonder grasses” is coming to an end. The heightened publicity of the importance of Brachiaria grasses and as a strategy to mitigate the effects of climate change has resulted in substantial interest in these grasses among farmers, researchers and policy makers across the continent.

While improved varieties developed in Latin America are being tested in Africa, challenges from pests and diseases have been observed on these imported varieties. The grassed developed in South American conditions have already been observed to be vulnerable to spider mites; sorghum shoot fly, and a number of fungal diseases that are currently in the process of identification. This has necessitated a deeper investigation into locally available diverse genetic resource in Africa to identify the pest and disease resistant varieties.

Finding the best local varieties for the African context

Dr Sita Ghimire, lead scientist in the BecA-led project on Brachiaria, examines one of the varieties under testing at the KALRO-Katumani experimental field. (photo credit: ILRI/Samuel Mungai)

Since Africa hosts a high genetic diversity of Brachiaria, the way forward would be the utilization of this untapped genetic resource to breed varieties that are suitable to the African context. The BecA-ILRI Hub-led project is exploring local ecotypes and gene bank accessions of African origin for drought tolerance, pests and disease resistance and biomass yields. This program consists of four main components – evaluating Brachiaria genotypes for drought tolerance and adaptation to marginal soils; evaluating varieties for biomass production, animal nutrition (including feeding experiments) and seed production; identification and use of phytobiomes for potential agricultural applications as bio-fertilizers, bio-pesticides and bio-yield enhancement agents; and the building the capacity of African scientists to conduct research on Brachiaria grasses.

This collaborative research effort is giving renewed hope to millions of smallholder livestock farmers across eastern Africa who operate smallholder crop-livestock mixed farms on less than 10 ha and are at pains to increase their production in a set up where natural grazing is limited or no longer available

____________________________________________________________________________________