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Feature Section, Latest News

FARMERS NEED LONG-TERM AND SHORT-TERM SOLUTIONS TO COMBAT FALL ARMYWORM IN KENYA

By: CropLife International

This article was first published by Farming First on May 4, 2018 and can be found here.

Fall Armyworm has arrived in Kenya to stay, but while the government develops a long-term strategy, farmers need ready and accessible solutions now.

From a distance, Wycliffe Ngoda’s two acres of shiny green maize crops look healthy and lush. But the tell-tale holes in the leaves and debris on the stems give away an increasingly dangerous secret hidden in more and more maize fields across Kenya and sub-Saharan Africa. The rampant Fall Armyworm caterpillar is once again threatening harvests across the continent for a second year.

The pest, which arrived in Africa from the Americas in 2016, affected around 50,000 hectares of maize in Kenya alone last year, costing 25 per cent of the crop, according to government officials.

This year, the losses could be as high as 50 per cent, threatening Kenya’s food security and farmers’ economic security in a country where the average annual consumption of maize surpasses 100kg per person.

Signs of the Fall Armyworm on maize crops in Mbale, Vihiga county, Kenya.

“This is one of the deadliest crop pests in the world,” said Dr B.M. Prasanna, director of the global maize programme at CGIAR’s International Maize and Wheat Improvement Centre (CIMMYT), based in Nairobi. “It can have as many as six life cycles in a year and each female moth can lay as many as 1,500 to 2,000 eggs.

“There’s no single solution that will fight it in all the smallholder contexts. But we’re not starting from scratch.”

Government delegates and experts have recently travelled to Brazil to learn how Fall Armyworm is controlled in the Americas, including the use of pest-resistant varieties of maize.

Scientists at the African Agricultural Technology Foundation (AATF) have also found improved yields in controlled trials of transgenic crops as part of the Water Efficient Maize for Africa (WEMA) initiative.

A scientist at the African Agricultural Technology Foundation labs in Nairobi working on plant material.

But while the Kenyan government considers such developments as part of a long-term strategy to reduce the impact of Fall Armyworm, the pest continues to pose a threat in the short-term.

In their desperation to ward off the caterpillar, which can reach the size of a little finger, some farmers even resorted to mixing homemade pesticides.

“I came across Fall Armyworm last year,” said Mr Ngoda, 65, from Mbale, Vihiga county. “We were taken unaware. It’s something that had not occurred here before. The attack was very fast and furious.

“We started looking for local solutions. We took liquid detergents and mixed it with some ash. Eventually we succeeded in fighting it off but the damage was already done. I lost about 50 per cent of my crop, others lost 70 per cent.

“We were using local innovations but it was more like guesswork.”

Lucas Wekesa, a plant doctor with CABI, teaches farmers how to identify Fall Armyworm on their crops.

This year, Mr Ngoda said he was better prepared thanks to training in detection and responsible pesticide use provided by the county government and NGOs such as Farm Input Promotions Africa (FIPs-Africa). He said he had applied pesticide to his crops once so far.

The advice included treating crops with pesticides in the morning or afternoon when the caterpillars are active, and spraying to the side to avoid direct contact with the product. FIPs-Africa also contracts specialist sprayers to help farmers safely apply the correct pesticide.

In the meantime, Kenya’s Pest Control Products Board (PCPB) has fast-tracked its approval process for products that can help tackle Fall Armyworm to help address the threat in the short-term. But the challenge in rural areas is ensuring the best advice and information reaches the smallholders.

Wycliffe Ngoda, 65, and his grandson inspect their maize crop for Fall Armyworm at his farm in Mbale, Kenya.

CropLife Kenya organises popular county farmer training sessions every month and CABI has more than 120 PlantWise clinics across Kenya where smallholders can bring in samples of their damaged crop to get expert advice on the necessary remedy.

But more is needed to teach farmers how to live with a pest that is here to stay.

“I wish we had more people,” said Mr Ngoda. “Sometimes, farmers don’t seek solutions and expert advice. We need more surveillance and on farm visits.

“I’m normally guaranteed 40 bags minimum. Last year, I didn’t get 20. I thank God I have a small family and none of them are going to school, otherwise it would have been a total disaster.”

Facts, Latest News

SUSTAINABILITY, IT’S IN THE SOIL

 

By: CropLife International

Fertile and healthy soil is essential for agriculture and a sustainable food supply. Biotech crops and complementary herbicides reduce the need to plough—or till—and help to take care of the world’s arable farm land.

Both biotech crops and crop protection help to facilitate no-till. 10% of the world’s carbon dioxide is stored in the soil and tilling releases that into the atmosphere. The amount of CO2 saved in in one year alone by using herbicide-tolerant biotech crops – that help facilitate no-till – was equal to removing every single car from the streets of London for five years 1.

Click here to see our interactive infographic and learn more about the layers of the soil!

Facts, Feature Section, Latest News

SOIL ATLAS OF AFRICA

By: CropLife International

The Soil Atlas of Africa was a collaboration between the European Union, the African Unionand the Food and Agriculture Organization of the United Nations to support and encourage the sustainable use of soil resources in Africa. It uses maps, informative text, and photos to answer questions and provide context on the diverse soil landscape in Africa.

The Soil Atlas of Africa used computer mapping techniques to show the changing composition of soil across the continent. It provides detail on the origin, functions, and types of soil. The atlas also discusses the principal threats to soil and the steps being taken to protect it as a resource.

The map below shows the incredible variety of soil types on the African continent and the full atlas is available for download here.

Latest News

AGROECOLOGY IN ACTION: BUILDING HEALTHIER SOILS AND A HEALTHIER PLANET

Originally published on farmingfirst.org. Article can be found here.

Only healthy soils will be able to fulfill the Herculean task of growing the food our planet requires both now and in the future. In this guest post, Dr. J. Scott Angle, President and CEO of IFDC, discusses how the agroecological approach of Integrated Soil Fertility Management can build healthier soils and a healthier planet. This is the third installment of Farming First’s “Agroecology in Action” series, produced ahead of the Second  International Symposium on Agroecology held by the FAO in Rome from 3-5th April 2018.

In the late eighties, the water quality and aquatic life of the Chesapeake Bay were under threat. As human activity and farming in the region had increased, so had its impacts on the local environment.

That is when a group of scientists, including myself, founded the Maryland Centre for Agroecology. Our mission then is how I would define agroecology now – creating a road map to help farmers be productive, while reducing their impact on the environment.

In the case of Chesapeake Bay, this relied a great deal on encouraging farmers to only apply nutrients from the right source, in the right place, at the right time and the right rate (known as the 4Rs of nutrient stewardship). This results in less cost for the farmer, less runoff into the environment, and also allows the plant to use the nutrients that are applied more effectively. Planting cover crops to absorb nutrients before they reach the bay has also gone a long way to solving this challenge.

Pleasing the Wizard and the Prophet

Agroecology seeks to merge two visions of farming: one that seeks to grow the right quantity and quality of food, with one that protects natural resources. These two visions can, and should be balanced to create approaches that can deliver on both objectives.

In Charles C. Mann’s bestselling book “The Wizard and the Prophet”, he personifies these two approaches as scientists Norman Borlaug, hailed as the man who saved a billion lives through his high yielding wheat variety, and William Vogt, the intellectual forefather of the environmental movement, who was fiercely cautious of using more than the environment had to give.

Although the book was unable to reconcile the perspectives of these two men, it is not only possible, but essential that we as global community are able to. We need to produce more food for our growing population – that is an undisputed fact. We will have ten billion people on the planet by 2050, but no additional land or water. So it is agriculture’s job to harness approaches from the environmental community, such as organic or conservation farming that can be integrated into more traditional agriculture.

Integrated Soil Fertility Management: When Organic Meets Mineral

A great example of this is Integrated Soil Fertility Management (ISFM), which relies on application of both organic and mineral fertilizer to achieve optimum soil health. Improving soil health so it can perform natural functions such as carbon capture and water retention is a cornerstone of agroecology. Organic fertilizer is incredibly important, as it is a natural source of nutrients and organic matter. Unfortunately, there is just not enough of it. To have enough manure to produce enough food for the growing population, we would need a great deal more animals on the planet, which have their own impact on the environment. Therefore, farmers should be encouraged to use all the organic matter that they can, and then supplement it with mineral fertilizers. This is Integrated Soil Fertility Management.

Mineral fertilizer can be more precise in directing nutrients to the plant. Custom blends can be produced that address the exact soil deficiencies in the region. They can be coated, to ensure that the nutrient is released slowly over time, in a way that allows the plant to absorb it effectively. They can be compacted into briquettes and placed deep near the roots, which also improves its efficiency.

Fertilizer is in fact responsible for 50 per cent of the food grown worldwide. In regions like Africa, where up to 60 per cent of soils are estimated to be degraded, it is possible to double, if not triple or quadruple yields through the judicious use of the right fertilizer.

But it is not only the crop that can be harvested and eaten or sold that benefits. Crops that have been nourished adequately also have a much larger root system. These are made from carbon dioxide that was pulled out of the atmosphere by the plant, and then incorporated into the soil as soil organic matter. It can be argued, therefore, that the proper use of fertilizer can actually become a solution to the problem of excess greenhouse gases, as it helps us capture carbon out of the atmosphere and tie it up in the soil. When soil has more organic matter, it has greater water holding capacity, it can store more micronutrients and supress disease, but crucially it is able to hold carbon in the soil for tens of thousands of years that would otherwise exist in the atmosphere and contribute to climate change.

It is very important to manage the application of these products appropriately. We would struggle to eliminate them completely, because we have to grow the food we need. The goal instead should be to use them in a way that maximizes their efficiency, which ISFM promotes.

Other ISFM strategies include crop rotation, legume introduction, and crop-livestock integration systems.

For Sunday Oyo, who has benefitted from our 2Scale project in Nigeria, the use of ISFM has unlocked much needed credit to expand his farming business. He gained access to hybrid seeds of tomato, and was educated on good agronomic practices such as trellising the tomatoes to avoid rotting. Thanks to a combination of fertilizers applied in the right quantities and in the right time and place, Sunday was able to quadruple his yields – a feat previously unthinkable.

Sunday Ojo and his family show off their produce.

Fertile and productive soils are vital components of stable societies, and ISFM strategies protect these. As one ancient Sanskrit text states, “Upon this handful of soil our survival depends. Husband it, and it will grow our food, our fuel and our shelter and surround us with beauty. Abuse it and the soil will collapse and die, taking humanity with it.” Our reliance on the soil is as strong today as it was then, and we need to adopt agroecological practices that will help us protect it for future generations that will rely on it too.

Further reading:

Latest News

12th Pan-Asia Farmers Exchange Program

On Mar 12-16, a total of 56 participants from Australia, China, India, Indonesia, Korea, Malaysia, Pakistan, Philippines, Taiwan, Thailand and Vietnam, attended the 12th Pan-Asia Farmers Exchange Program in the Philippines. 

On Mar 12, the organizers, Biotechnology Coalition of the Philippines, CropLife Philippines and CropLife Asia, welcomed the participants at Manila Hotel. DA Undersecretary Segfredo Serrano, graced the event. 

On Mar 13, a brief seminar on modern biotechnology was given and each country shared their status, challenges and experiences on agricultural biotechnology.

On Mar 14, the participants visited the International Rice Research Institute at Los Banos, Laguna. They learned more about IRRI’s role in helping farmers and the community through maintaining the viability of different rice varieties from different countries in their genebank facilities; and by developing improved rice plants, such as golden rice and iron-fortified rice.

On Mar 15, the participants visited the GM Corn Learning Center of Syngenta & GM corn commercial farms, where they were able to see and touch actual GM corn planted. Moreover, they were able to interact with actual GM corn farmers, who shared their fruitful experience in planting GM corn. In the afternoon, they also visited the Monsanto RIB Plant in Pulilan, Bulacan, where they were able to see the tests and processes undergone by the seeds prior to distribution to the farmers. 

The participants gave positive feedback on this event, as they were able to gain knowledge and learned to appreciate more about genetically modified crops.

Take a quick look of the short movie made by the Vietnam media crew, one of the participants of the program. 

 

Feature Section, Latest News

A PRACTICAL APPROACH TO AGROECOLOGY

By: CropLife International

The principles of agroecology help us understand the interaction between agriculture and the environment. With agroecological knowledge, scientists, farmers, and researchers can select appropriate technologies and systems to create a sustainable food system.
 
 

Dr. Esther Kioko (far right in jean jacket) discussing vegetables in Mbiuni Market.

 

 

 

 

 

 

 

Dr. Esther Kioko, a senior research scientist with the National Museums of Kenya, is using her background in entomology to study the relationship between pollinators and vegetable viability in the arid regions of Kenya. Pollinators are an important part of agroecology in that they serve as a natural middle-man between agriculture and the environment. Thirty five percent of the food crop produced worldwide depends on pollinators, and with more than 25,000 species of bees in the world, understanding them is essential.

“The main objective of our project was to address some of the major gaps that we see in the understanding of insect pollinators,” Dr. Kioko says.

One such gap was the understanding of pest management strategies and how they affect the pollinators. To encourage better pest management choices, Dr. Kioko and her team advocate for integrated pest management—selecting the correct pest management products to use when necessary, applying them at the right time, and in the correct way. They are also making information on pollinators available through the Museum, and are training young plant scientists in these areas about how to maintain pollinator health with support from the Bayer Bee Care Centre.

“We also saw a gap in how people see the relationship between pollinators and the vegetables that are grown,” Dr. Kioko says. “How the pollinators affect vegetable use, vegetable quality, and vegetable quantity in the arid regions.”

A large portion of the population in the area are growing indigenous African vegetables—such as amaranth, pumpkin, and cowpeas—as well as more wide-spread varieties like sweet peppers, tomatoes, cucumber and squash.  She says the crops are suffering from the effects of climate change which can negatively impact food sources for pollinators.

“We are addressing the issues of climate change and lack of pollinator knowledge through agroecology because as we think of vegetable production, those elements come into play,” Dr. Kioko says.

The smaller, indigenous systems in Africa and the large-scale systems in other parts of the world equally rely on pollinators as an element of agroecology.

Dr. Kioko says that even though research is being done and projects are being undertaken, there is still a need for even greater capacity building and incorporation of agroecology within agricultural production systems. She says that although the ecosystems are facing challenges,  there are ways to help—for example, providing alternative floral resources for pollinators when crops are not flowering.

“We need to be innovative in finding management practices that increase the farmers understanding of the various ecological processes and at the same time, boost production,” Dr. Kioko says. “With climate change, there are challenges we can’t just ignore, we have to go the extra mile to make sure sustainable agriculture is enhanced for everyone.”

This article is originally posted at CropLife International webpage – Plant Science Post. You may view original article here