The Ghana-based Forum for Agricultural Research in Africa (FARA) will form a Knowledge Management Service (KMS) in the second phase of its eRAILS platform. The technology is an information system that mobilize farming communities and farmer advisory service providers to generate questions so that agricultural experts can provide actionable responses.

The second phase of the FARA initiative, eRAILS2, will focus on content management. The research institute says this should speed-up the flow of information from agricultural experts to farmers by eliminating intermediaries.

The KMS phase of the project is widely seen as an opportunity to improve the agricultural sector in a myriad of ways, particularly through better data collection. Improved data collection processes will give scientists and policymakers a better understanding of the farming communities’ needs. This should result in better policies and programs, including early warning systems and impact assessment processes across the agricultural sector. This also bodes well for efforts to promote more targeted decision making, as agricultural management is localized.

Learn more about FARA’s effort to launch the second phase of the eRAILS project here.

eRAILS is funded by the African Development Bank (AfDB).




Green leaves of a Cassava plant

Credit: Farm Africa

After two decades of civil war and amid a tense truce, the world recently welcomed its newest nation, The Republic of South Sudan.  But like many of its Sub-Saharan neighbors did 50 years ago, South Sudan joins the rank of nationhood with a raft of intractable developmental  challenges– and the high expectations of 8 million people adds importance to each.

While the slate of challenges at hand are all important for sustained socio-economic development, achieving national food security will be key to the success of the nation.  It is a vital part of  national security and nationhood. But achieving self-sufficiency in food production and food security will require full transformation of the embryonic nation’s agricultural sector.

Although the sector accounts for the majority of economic activity—33% of the rural population lives on agriculture, whereas 45 % and 12 % are agro-pastoralists and fishermen respectively—the industry is stuck in a pre-industrial form. This is particularly bothersome as new nations must effectively manage their citizens’ expectations–for basic services, jobs and food–to thrive.

However, the country has been unable to provide enough food for the people of South Sudan since the signing of the Comprehensive Peace Agreement (CPA) in 2005. More than a fifth of the population depends on food aid, and the majority of the country’s food is imported from neighbouring countries, many of which are unstable. This doesn’t bode well for the country, and begs the question: where is the national food policy that would foster sustained food production and security? What should a national food policy for South Sudan entail?

A map showing the 10 states of South Sudan in various colours

Credit: South Sudan Forum For Public Policy

As I noted earlier, at the heart of any food policy must be the repositioning of the agricultural sector. South Sudan’s agriculture is characterized by subsistence farmers and disproportionate involvement in agriculture and forestry, compared to livestock and fisheries. There ought to be a concerted campaign to educate farmers about the importance of diversifying their crops and exploring opportunities in the livestock and fisheries sector.

This will require the bridging of the information divide.  In other words, South Sudanese farmers ought to have improved access to better extension services and information that will sensitize and inform them about markets. ICTs will be useful tools for enabling this and should therefore form a central part of the overall food security strategy for South Sudan.  However, the full incorporation of ICTs will depend on improvements in connectivity and access– mobile subscription, broadband access and total internet users are all less than the average for Sub-Saharan Africa.

Nonetheless, traditional ICTs such as radio, which is relatively ubiquitous in South Sudan, may be used as a key first step to offer extension services that tackle issues, including irrigation cycles, pest control, access to seeds,  fertilizer, transportation and prices. These services may be provided via a series of  regularly aired radio programs and features that capture the voices and interests of the farmers.  The use of traditional ICTs and other less advanced but newer technologies are likely to be more contextually relevant and appropriate, compared to high end ICTs. The latest technology is not always suitable. In the long-term, many opportunities to use the latest ICTs will mature. That is to say, they exist now, but the infrastructure in not in place to facilitate their effective implementation for the benefit of the majority.

Here are a few of the ICT opportunities:

  • The provision of access to financial services via mobile money
  • Improve irrigation and water management services using remote sensing technologies and GIS
  • Establishment of legible rural and agricultural markets through market information systems
  • Reduction of waste through proper storage and transportation facilities enabled by logistics technology
  • Text and other mobile-based  extension services to create access to better agriculture and livestock  inputs

Despite the immense scope for growth in South Sudan’s agriculture sector, much depends on the development of indigenous agricultural and livestock research, animal health services, infrastructure (including roads and bridges), and the stability of the  regulatory and political environment.

Paraguayan farmers, like their counterparts across the developing world, are joining the legion of people at the bottom of the economic pyramid who now have access to mobiles—individually or through social networks.

They are also reaping the benefits of burgeoning agricultural markets, training opportunities and best practices that mobile-based systems help to inform them about and connect them to. The most recent, SMS Productivo, is premised on an SMS platformed, which was introduced by USAID’s Paraguay Productivo, under the management of CARANA Corporation.

This system has also automated data collection and enable agricultural planning to be more up-to-date and efficient, as farmers may now submit observations via text messages.

La Norteña, a cooperative, worked with PyP last fall to  introduce SMS Productivo to their members. There are now five participating cooperatives and another 20 are ebbing to join.

Learn more about SMS Productivo and the stories of those using the technology.

Poor access to farm extension services is still a major impediment to agricultural productivity and the improvement of rural livelihoods. But, increasingly, ICTs are playing a central role in enabling and facilitating the provision of demand-driven extension services. This marks a shift from highly inefficient public sector extension delivery models, under which farmers and rural communities had little/no opportunity to articulate their own needs.

Despite the ICT-enabled shift towards more democratic/pluralistic, demand driven and efficient extension services in some places, there is still a far way to go before game changing impacts are made.

A silver laptop with a blank screen and black buttons on bright green grass

CTA/ARDYIS Facebook Photo

Although the use of conventional technologies such as radio and television, and even new ICTs, is commendable, many “model projects” reach too few people and are unsustainable.

But the emergence of multiple players in the evolving extension services landscape—NGOs/CBOs, private sector actors, and farmers as extension service users and sharpers, among others—presents broad opportunities. The main opportunity I foresee is that of a firmer platform for articulating the need for better telecommunications policies, which will benefit extension services and the broader range of development objectives that hinge on access to ICTs.

Consequently, agricultural planners and policy-makers ought not to be particularly concerned with  specifically enabling the integration of ICTs into pro-poor extension service delivery. While that is a desirable objective, it ignores the broader picture—poverty reduction.

Strategic agricultural planning recognize that ICT-based solutions for agricultural problems are not all sector specific. In much the same way that the major agricultural challenges operate on a macro-level, by cutting-across sectors, the solutions must stem from holistic observations and responses.

Indeed, any ICT intervention that improves the livelihoods of the rural poor is likely to have positive (direct and indirect) impacts on agricultural value chain management—planning, productivity, and marketing. This is true to the extent that rural economies are largely agrarian. So, any challenge to improving the general livelihood of the rural poor will adversely affect agricultural productivity— be that challenge inadequate health services, poor resource management, natural disasters, anthropogenic shocks, minimal access to education, financial services and poor infrastructure, etc.

So, strengthening extension services will require tackling more systemic problems… seeing the forest and not just the trees.

 

The GSMA, a global body that represents the interests of over 1000 mobile operators and suppliers, launched the mFarmer Initiative Fund today, in Cape Town South Africa. The Fund, which will run until 2013, is backed by financial support from the Bill & Melinda Gates Foundation.

If successfully implemented, the mFarmer Fund will enable the provision of more efficient farm extension services to 2 million of the world’s poorest farmers. The Fund will target “mobile communications service providers, in partnership with other public and private sector agricultural organizations, to provide information and advisory services to smallholder farmers in developing countries living under US$2 per day”.

The initiative will target 12 countries: India, Ghana, Kenya, Malawi, Mali, Mozambique, Nigeria, Rwanda, Tanzania, Uganda and Zambia. However, the technologies developed and lessons learned will be shared globally. The mobile sector advocate said the initiative will function through competitive and deadline-driven grants. For more on the criteria for grants from the mFarmer Fund, please click here.

The Fund is part of GSMA’s thrust to fully deploy and integrate mobile technology into agricultural management, to boost productivity and ensure food security, under its flagship Mobile Agriculture (mAgri) Programme.

The GSMA project will further promote demand-driven, use inspired mobile tools for farmers. The rapid rise in mobile phone subscriptions, in even the outskirts of the developing world, presents opportunities to improve the lives of those at the bottom of the economic pyramid.

 

The emergence of IBM’s Spoken Web, a mobile innovation that eliminates literacy as a precursor to access the internet, is a game-changer in the ICT for Agriculture sector.

Unlike other efforts to bridge the global information divide, even people with limited to no functional literacy skills will find Spoken Web user-friendly. With nearly 800 million functional illiterates around the world, the inability to read remains a major impediment to the use of ICT4D. This is most acute in the most remote parts of the developing world where livelihoods and agriculture are inextricably linked.

The mobile innovation is essentially a world wide network of VoiceSites joined to make the Spoken Web. Its most essential hardware is a telephone, which people use to browse VoiceSites by saying keywords, also known as VoiLinks.

This rapidly progressing network of voice recordings is predicated on a system called VoiGem, which simplifies the process of creating voice-based applications. VoiGem is unique compared to existing interactive voice response technology because it allows users to create their own VoiceSites that consists of voice pages (VoiceXML files) that may be linked. Each page is identified by the user’s phone number. This identification mode allows the user to easily edit VoiceSites and pages from their phone.

The mobile-centric nature of this development reflects a global trend and complements a development need, particularly for agriculture. Although small scale farmers, scattered across some of the most far-flung places around the globe, make up a large portion of the 5 billion people without access to the internet and computers, a growing number of these people own cellphones. In fact, farmers constitute a strong contingent among the 3 in 4 people worldwide who own mobiles. Although only a fifth of those with mobile subscriptions worldwide have access to mobile broadband services, the International Telecommunication Union (ITU) “predicts that within the next five years, more people will hop onto the Web from laptops and mobile gadgets than from desktop computers”.

As more farmers join the growing legion of wired folks, they will have faster and more reliable opportunities to access and share information. This development will reduce information asymmetries, structure and strengthen agricultural markets by bringing the internet to parts of the world where small scale farmers, consumers, middlemen and traders have limited knowledge about where to access and trade food.

The technology is also culturally appropriate given the oral nature of many cultures in the developing world. Farmers will also have the opportunity to efficaciously share valuable indigenous farming retentions.

As with most things, the Spoken Web also comes with challenges. Chief among the challenges is that though voice-recognition technology can match search terms against a previously processed index of recorded voice sites, it presents cumbersome results. However, the technology is being refined to be more precise. Precision is especially important because farmers and other end-users will not be able to retain all the information found on lengthy voice pages/sites, and they may not have the literacy skills to jot down points. Interestingly though, the Spoken Web comes with a fast-forward feature that enables the user to listen as if they were skim-reading.

Despite these challenges, the technology has been successfully piloted in eight Indian villages. It is now a central part of farming and health-care delivery in four Indian states, parts of Thailand and Brazil.


EGdrought510An Egyptian rice farmer shows his drought damaged rice crop in a village near Balqis on June 14, 2008. REUTERS/Nasser Nuri 

LONDON (AlertNet) – For African farmers struggling to cope with increasingly erratic conditions linked to climate change, there’s good – and bad – news.

The good news is that in parts of sub-Saharan Africa, scientists can now issue reasonably reliable seasonal climate forecasts a month or more in advance of the planting season, giving growers a chance to opt for different kinds of crops or other measures to adapt to upcoming conditions.

That has the potential to improve food security in many climate-vulnerable parts of Africa, and reduce the impact on some of the world’s poorest people of droughts, floods and temperature surges.

The bad news is that those forecasts, and other historical weather information farmers need to judge risk and make good decisions, still are not reaching most growers, in part because meteorological data in many African countries is available only at a cost.

Weather information “is an essential resource for adaptation (to climate change) and development,” said James W. Hansen, a researcher on climate change, agriculture and food security at the Consultative Group on International Agricultural Research (CGIAR) and lead author of a new report on seasonal climate forecasting and agriculture in Africa.

But “as long as these (data) are seen as a revenue source for Met services rather than as a public good for development, the people who are most affected by climate change, climate variability and poverty won’t have much access to innovations,” he said in a telephone interview.

Growing climate variability is making life increasingly difficult for farmers throughout sub-Saharan Africa. Some areas, particularly in southern and eastern Africa, are seeing extended droughts and high temperatures that can make growing staples like maize a challenge. Other regions, including parts of West Africa, have struggled with extreme rainfall.

Altogether “dependence on uncertain rainfall and exposure to climate risk characterize the livelihoods of roughly 70 percent of (sub-Saharan Africa’s) population,” notes the study, published in the journal Experimental Agriculture in March.

SOME PREDICTABLE REGIONS

But scientists are getting increasingly good at predicting seasonal climate conditions in advance, largely because of growing understanding of how Pacific Ocean temperatures – linked to weather phenomena like El Nino and La Nina – influence rainfall in sub-Saharan Africa.

While it is still very difficult to predict seasonal conditions in some parts of Africa – including across the Sahara and the northern parts of the Sahel – other areas are showing potential for predictability, at least in some seasons. They include much of southern Africa up to southern Zambia; a swath of East Africa centered on Kenya; a wide band of West Africa reaching from the Atlantic coast across to Sudan; and a stretch of west-central Africa from the Atlantic coast into the Democratic Republic of Congo.

Already, “skillful forecasts can be produced more than a month before the normal start of the growing season for the short rains in eastern Africa and the main rainy season in southern Africa,” the study noted.

Just as important, the regional forecasts can be “downscaled” to provide more specific local forecasts with only “modest” loss of accuracy, the study said.

So why aren’t seasonal forecasts yet reaching farmers, particularly given that studies show most are eager to get and act on the information?

Largely it’s the result of communication failures, Hansen said. Meteorologists in many regions tend to oversimplify forecasts, telling farmers there will be higher rainfall, for instance, rather than a 60 percent chance of higher than normal rainfall.

That has led to a lack of trust, particularly when oversimplified predictions don’t come true.

“If I were a smallholder farmer and a climate scientists said it would be more or less rainy, I’d be extremely skeptical. A lot would depend on how much I trust that person,” Hansen noted.

The reality is “farmers understand probability very well. Their lives depend on it,” he said. Leaving the probabilities off forecasts undermines trust and reliability, he said.

But perhaps the most severe problem, he said, is that many African meteorological services see weather data as something to be sold to paying clients – airports, insurance firms, development organizations – rather than released as a public good.

That view is in part the result of structural reforms driven by the World Bank and the International Monetary Fund, aimed at reducing the hand of governments – often seen as corrupt or inefficient – in services including meteorology, Hansen said. The reforms left many meteorological services dependent on commercial sales of data for funding, he said, a model that is providing difficult to change.

CHANGING THE FUNDING MODEL

Still, efforts are underway. An initiative in Kenya called WIND – Weather Information for Development – aims to help Kenya’s meteorological service find new sources of revenue and make better decisions about what data should be commercialized and what made publicly available free.

In other countries, researchers hope to tempt government meteorological services into releasing satellite data free in exchange for access to information from ground weather stations runs by research organizations.

“If we can get one or two (countries) to break out, and they get new visibility and funding, maybe there can be a domino effect,” Hansen said.

Better seasonal climate forecasts won’t help ease surging food prices around the world, because the surges are driven by rising demand, the scientist warned.

But in some of the poorest parts of the world, good seasonal climate forecasts have the potential to help curb hunger, protect incomes and get some of the world’s most climate-vulnerable people through bad years.

“The ability to anticipate climate fluctuations and their impact on agriculture months in advance should, in principle, enable… opportunities to manage risk,” the study noted.

Copyright © 2020 Integra Government Services International LLC