sábado, 17 de noviembre de 2012

The potential of alfalfa leaf meal as a fish feed

Mrigal (Cirrhinus mrigala), a carp endemic to Indo-Gangetic river systems, is one of the three Indian major carp species cultivated widely in Southeast Asian countries.

On a global scale aquaculture is the fastest growing animal protein sector. However, many fish require fish proteins in their diets and the availability is limited. 

Nutritionists on a continuous basis are searching for alternatives to replace the animal protein with plant protein. Indian researchers investigated the possibilities of alfalfa meal in fish diets.

By S.A. Vhanalakar and D.V. Muley, Maharashtra, India

Alfalfa might be an interesting fishmeal substitute in fish feeds.

Fish meal represents an ideal nutritional source of dietary protein and lipid for fish. It is the most important protein source for the aquaculture industry because of its high biological value, but this is a limited food resource and there is serious concern about the long-term availability of this feed stuff for use in fish diets. 

The aquaculture industry depends worldwide on the availability of low cost, high quality feed. 

Over several decades, fish nutritionists have evaluated alternative sources of plant origin protein in fish diets as partial or total fishmeal replacement.

Good nutrition in animal production systems is essential to economically produce a healthy, high quality product. 

In fish farming, nutrition is critical because feed represents 40-50% of the production costs. 

Fish nutrition has advanced dramatically in recent years with the development of new, balanced commercial diets that promote optimal fish growth and health. 

The development of new species-specific diet formulations supports the fish farming industry as it expands to satisfy increasing demand for affordable, safe, and high-quality products.

For commercial culture of fish, the formulation of a low-cost balanced diet using locally available agro-industry byproducts is needed. Recently fishmeal has become the most expensive protein ingredient in aquaculture feeds. 

Many developing countries have realised that, in the long run, they will be unable to afford fishmeal as a major protein source in aquafeeds. 

Currently one of the challenges that fish nutritionist face is to partially or totally replace fishmeal with less expensive, non-traditional animal or plant protein sources. 

Many studies have shown considerable success in partially replacing fishmeal with soybean meal and other soybean products in the diet of various fish species. 

Research interest has been focused on different leaf meals as protein sources in fish feed. 

Fish nutritionists have evaluated alternative sources of plant origin protein in fish diets as partial or total fishmeal replacement.

Alfalfa meal

Alfalfa (Medicago sativa) is a flowering plant in the pea family (Fabaceae), cultivated as an important forage crop. In the United Kingdom, Australia and New Zealand it is known as Lucerne and as Lucerne grass in south Asia. 

Alfalfa is widely grown throughout the world as forage for cattle due to its high protein content. 

In early Chinese medicines, physicians used young alfalfa leaves to treat disorders related to the digestive tract and the kidneys. 

Ayurvedic physicians used the leaves for treating poor digestion. In an experiment, fresh leaves of alfalfa plant were used in the formulation of fish feed. 

Dried leaves of alfafa in powder form were used for preparing fish feed. It was tested in the diet of a freshwater fish, Cirrhinus mrigala (Mrigal carp) under laboratory conditions. 

The feeding experiment was carried out for three months. 

The various experimental diets contained different combinations of dry alfalfa leaf meal, mixed with groundnut oil cake, rice bran, guar gum binder and a mineral vitamin mixture (Table 1). 


Ingredients were mixed thoroughly in a kitchen mixer till a homogenous mass was obtained. 

With the help of a mincer, pellets were prepared, which were immediately sun dried. 

After drying, the pellets were hand broken up into convenient pellet sizes and frozen until before feeding. 

In this experiment the alfalfa was incorporated at various percentage levels to check the effectiveness as a fish feed ingredient. Medcago sativa solely does not have the capacity to replace the traditional fish meal. 

Therefore it is used as a supplementary fish feed ingredient along with the traditional ingredients; but the incorporation level of traditional ingredients like groundnut oilcake, rice bran etc. was kept at a lower inclusion level.

Growth performance on alfalfa diet

The growth performance of Mrigal carp on the alfalfa diet is presented in Figure 1. 


The present study confirmed that Mrigal carp is able to utilise the plant based formulated diet. 

An inclusion level of up to 30% in the practical diet for Mrigal carp fingerlings had no adverse effects on growth, feed utilisation efficiencies or body composition of the fish. 

From the present work it is concluded that, Medicago sativa may be a promising source of plant protein; used for partial replacement of fishmeal in the formulated fish feed. 

It will definitely help small scale fish farmers to cut costs on traditional fish feed.

S.A. Vhanalakar works at the Department of Zoology, Karmaveer Hire Arts, Science, Commerce and Education College. D.V. Muley works at the Department of Zoology of the Shivaji University, both located in Maharashtra, India.

allaboutfeed.net


jueves, 4 de octubre de 2012

Farmed insects could provide feed for livestock


Common house fly
The common house fly may provide an excellent source of protein for farming
Flickr/Eran Finkle

Common house flies (Musca domestica) may be a cheap and sustainable source of feed for farm animals, according to a scientist and an entrepreneur.
The flies, whose larvae can be bred, nurtured and ground into granules, provide roughly the same amount of edible protein as fish meal and other widely used protein sources, said entrepreneur Jason Drew.  
Drew's book, The Story of the Fly and How it Could Save the World, launched in London, United Kingdom, last week, argues that the insect's larvae should be farmed commercially to provide protein for farmed fish and animals to feed the world's growing population.  
Commercially bred flies can live on slaughterhouse or distillery waste, rather than on foods that could be processed and sold to humans, which also makes them environmentaly  sound, he said.
Drew and his brother David are breeding M. domestica to use in fish farms in their Cape Town business, AgriProtein.
Jason Drew told SciDev.Net that AgriProtein feeds its breeding stock waste human food, while the larvae produced consume slaughterhouse blood. It has taken five years to develop the larvae farming process. 
Around one million flies are kept in a cage of about 100 cubic metres producing about 1,000 eggs each.  
The larvae are hatched and harvested within 17 days, which is how long they live before they turn into flies. They are then dried, flaked and sold as meal. 
Last month, the company produced 100 tonnes of wet larvae and 24.5 tonnes of feed, Drew told SciDev.Net.
AgriProtein is one of the first companies to produce high quantities of fly meal for commercial use, said Paul Vantomme, senior forestry officer for the UN Food and Agriculture Organization, in Rome.
Vantomme added that using flies as animal feeds will be "a major benefit to developing countries".  
"Insect raising or gathering can be done without major cash [investments]," he told SciDev.Net. "You don't need land."  
The challenges, he added, include maintaining sanitary conditions, monitoring quality, and maximising larvae production.
Drew said the company plans to design an automated process for mass production. It then plans to release technology for breeding small amounts of larvae for animal feed to help small-scale farmers in South Africa, and beyond, to develop their own livestock feed farms
Meanwhile, a US-based company, Enviroflight, is developing black soldier fly (Hermetia illucens) larvae to add to fish meal for distribution to developing countries, according to Glen Courtright, chief executive officer of the company.
The larvae consume dry distillery grain solubles (DDGS) — a waste product from brewing and ethanol production — leaving a byproduct that can also be sold on as livestock feed.
Enviroflight is in negotiations with a global charity to use the technology to help develop fish farms in South America, Courtright said.
Similar research is ongoing in Thailand, too, but Yupa Hanboonsong, an associate professor in entomology at Khon Kaen University in Thailand, said that not all countries can use the same insects for feed.
For example, in Thailand "you cannot use crickets because people eat them," and it is, therefore, too expensive to use for livestock feed, Hanboonsong said. 
Also, some insects are parasites on other commercially valuable animals, such as the silk worm, so they should not be bred, he said.
"If we are not careful about which are the right species to breed, it may destroy our silk industry," Hanboonsong told SciDev.Net.
Developing an alternative source of protein would directly benefit the poor, said Monica Ayieko, associate professor at Bondo University College, in Kenya, who is researching breeding crickets.
"The problem we have in Kenya, as in many other parts of Africa, is that animal feed is competing with human feed," Ayieko told SciDev.Net.  
For example, she said, near Lake Victoria, the poorest people depend on a small fish that used to be cheaper to purchase than most other foods. 
Now that this fish is being used as feed for fish farms and for pet stores, the price has gone up so only well-off consumers can buy it, she added.
"The challenge will be mass rearing insects," she said.
Paula Park
scidev.net

martes, 18 de septiembre de 2012

Report identifies gaps in research on agriculture for nutrition


Serious knowledge gaps exist in how agricultural developments lead to people's improved nutrition, which current research is not addressing, a report has found.
The report reveals eight gaps that are currently being neglected, including specific target groups — particularly rural workers and non-rural populations — as well as a lack of methodologies to guide research in the field.
Published by the UK's Department for International Development (DFID), the report — 'Current and Planned Research on Agriculture for Improved Nutrition: A Mapping and Gap Analysis'— first identified the direct agricultural factors, such as farming practices and the food value chain, as well as indirect, including health, economic and education|al status, that feed into nutritional outcomes.
It then analysed which of these factors 151 research projects on agriculture for nutrition — mainly based in low- to middle-income countries in Sub-Saharan Africa — addressed.
Firstly, the report's authors found, not a single project considered the full range of direct and indirect factors identified by the model, leading to a poor understanding of the full 'pathway of change' — from agricultural processes to nutritional measurements in populations.
More specifically, research addressing the indirect effects of agricultural changes on wider market dynamics, such as economic growth, income and health services — which have a knock-on effect on nutrition — was particularly deficient.
Research into the effects of agricultural policy changes on nutrition levels was also found to be lacking.
At a similar macro level, there was a lack of research into governance — investigating how changing policy and institutional processes could improve the development, implementation and scaling-up of agriculture for nutrition programmes.
Specific target groups, namely rural workers and non-rural populations, also received very little attention from research.
Combined with the gap in investigating the risks to urban and rural populations to nutrition-related non-communicable diseases such as diabetes, this led authors to question whether research was being directed at the poorest, most-needy populations.
Finally, the report highlighted a lack of recognised metrics and methodologies to guide research linking agriculture to nutrition.
But the report highlighted an "enormous surge" in interest in the field, Corinna Hawkes, an affiliate of the Leverhulme Centre for Integrative Research on Agriculture and Health (LCIRAH) and an author of the report, told SciDev.Net.
"By showing what is going on at the moment, it [the report] can really engage researchers and the donor community to translate research into action", she said.
However, Kedar Rai, principal scientist at the International Crop Research Institute for the Semi-Arid Tropics (ICRISAT) felt that it was ignorance of the link between agriculture and nutrition among policymakers, not researchers, that was the main problem.
He said a sustained advocacy campaign was essential to bring this issue to the attention of governments.
Hawkes admitted that progress would ultimately be determined by political involvement, and said that although the report may not influence policymakers, it was an important first step for invigorating the research community.
Link to full report  [1.08MB]
Jan Piotrowski
scidev.net

lunes, 10 de septiembre de 2012

New World Bank Push to Tackle Drought in the Horn of Africa and Sahel



The World Bank said today that nine million people are currently facing food shortages in the Horn of Africa (down from a high of 13.3 million in September 2011 when the drought was at its peak), and nearly 14 million people in the Sahel region, which mainly includes Burkina Faso, Chad, Mali, Mauritania and Niger are at risk of hunger because of drought, limited food, political instability, and periods of conflict.

In an update briefing to its Executive Directors, the Bank said it was working to alleviate the development impact of two simultaneous droughts in the Horn of Africa and the Sahel. It said a $1.8 billion Drought Response Plan for the Horn of Africa is underway to meet immediate food needs while looking at a broad, longer-term approach that combines investments in health and nutrition, with better weather forecasting, early warning systems, drought resilience, and other risk management measures.

To date, $147 million has been disbursed and $944 million has been committed for fast-tracking drought prevention projects and programs.

In addition to the above, the regional Horn of Africa Emergency Health and Nutrition project has helped treat over 35,000 malnourished children under age five living in refugee camps, with $30 million in funding from IDA’s Crisis Response Window.

“Our strategy focuses on meeting immediate needs through ongoing development projects in the worst-hit countries and helping lay the foundations for long-term drought resilience.” said Makhtar Diop, World Bank Vice President for the Africa Region.  “We are working closely with our countries and partners alike to deliver positive development results that improve poor people’s lives.”

With a changing climate likely to intensify extreme weather events, the World Bank’s Africa teams are committed to help drought-affected countries in both regions to boost economic growth and alleviate people’s suffering.

How the Bank is helping people in the Horn of Africa and Sahel

World Bank assessments show that the drought is having a significant, adverse impact on the region’s economic development. Financial losses for Djibouti, Kenya and Uganda alone could amount to as much as $13.6 billion.  The outlook is sobering. Below average rainfall is predicted for the Horn of Africa throughout 2012.

·         Ethiopia: A new safety net program is supporting three million transitory, food-insecure people, and work is underway to strengthen social safety nets as well as to increase investments for boosting production and improving rural infrastructure to enable poor people to have better access to food.
·         Somalia:  A $9 million Grant from Global Fund for Disaster Reduction and Recovery (GFDRR) is providing 97,000 people with temporary employment through a ‘Cash for Work’ program and supporting the recovery of food production through rehabilitation of productive assets such as land, livestock and water.

“The drought in Horn of Africa and the unfolding events in the Sahel are having an enormous impact on the poor and those made homeless by conflict. Communities are simply unable to find food because it’s either too expensive, or they are forced to live on the run after being forced out of their refugee camps because of violence,” says Jamal Saghir, World Bank Director for Sustainable Development in the Africa Region.  “Droughts always affect poor people the most.”

Drought in the Sahel is steadily worsening after less rainfall in 2011.

Large-scale refugee migrations are also worsening the drought’s toll as in the case of Mali where a recent coup resulted in over 320,000 people being displaced.  Other examples of the World Bank’s support to drought-hit countries in the Sahel:

Niger: $15 million in supplemental budget support was provided to the Government to address the fiscal shortfall caused by the food crisis and the Libyan crisis, also four active investment lending operation were retrofitted to provide cash transfer, micro-projects and cash-for-work opportunities to the repatriates.
Chad:  The Agriculture Production Support Project (PAPA) pipeline project is being reviewed to help improve the food security situation through accelerated financing of small-scale infrastructure.
Working in partnership is vital

The World Bank is working closely with the UN system, the European Union, and regional institutions such as the Intergovernmental Authority on Development (IGAD), Permanent Interstate Committee for Drought Control in the Sahel (CILSS) and Economic Community of West African States (ECOWAS) to foster cooperation across all sectors.

The work is benefiting from cutting-edge satellite surveillance and data-intensive efforts by leading organizations such as National Aeronautics and Space Administration (NASA), the new Information Technology for Humanitarian Assistance, Cooperation and Action (ITHACA) program which mobilizes ICT technology to tackle climatic problem


Contacts: 
In Washington:  Sarwat Hussain, (202) 473-4967, shussain@worldbank.org;
                        Aby K. Toure, (202) 473-8302, akonate@worldbank.org


To see more on the World Bank’s work in alleviating hunger and the effects of drought, please visit: http://go.worldbank.org/ES5VW6H4W0  

Be updated via Twitter: http://www.twitter.com/worldbankafrica
For our YouTube channel: http://www.youtube.com/worldbank


worldbank.org