Feed-plus-food sorghum crop varieties are feeding India

CGIAR Annual Report 2009 cover

Cover of the CGIAR Annual Report 2009 (photo credit: CGIAR/Palmer).

The annual report for 2009 for the Consultative Group on International Agricultural Research (CGIAR) is out.

The International Livestock Research Institute contributed the following article about development of crops that feed people and animals both.

'New varieties of sorghum are bred to better meet the needs of India’s 208 million livestock farmers for animal feed, as well as to feed its growing human population.

'Throughout the tropics, a lack of feed keeps farm animals underweight and underproductive, thereby preventing some 600 million poor farmers and herders from meeting fast-rising global demand for milk and meat. But thanks to a partnership between India ́s National Research Centre for Sorghum (NRCS), the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) and the International Livestock Research Institute (ILRI), new varieties of sorghum are being developed that can provide both nutritious food for humans and high-quality feed for livestock.

'The single most important source of animal feed on many small farms in Asia and Africa is not grass but rather the stalks, leaves and other residues of crop plants after harvesting. In India, for example, 44% of the feed that annually sustains all the country ́s cattle, buffalo, goats, sheep and camels is made up of such crop wastes. The rest comes from planted forages and a shrinking area of pastures and other common lands. Expensive feed concentrates—the mainstay of livestock production in rich countries—are used only occasionally.

'Although crop residues (also known as stover) have become the main source of feed for farm animals in developing countries, crop breeders have continued to focus their efforts solely on increasing grain yields and not on improving the yield and quality of stover. The NRCS-ICRISAT-ILRI partnership seeks to redress this oversight by focusing on sorghum, an important staple crop in India that is grown on nearly 10 million hectares throughout the country.

'Small-scale entrepreneurs in India are developing new livestock feeds using new dual-purpose, food-plus-feed sorghum varieties.

'The researchers incorporated fodder quality traits in India ́s sorghum crop breeding trials and, in so doing, led breeders to identify sorghum varieties that give high yields of both grain and stover, as well as improved stover quality. The result is dual-purpose, food-plus-feed sorghum varieties that are now helping India’s 208 million livestock farmers close the livestock feed gap and feed India’s growing human population.

'The initiative has proved groundbreaking in demonstrating that traits for stover fodder quality and quantity can be incorporated into existing breeding programs to improve grain yields and has led the way for similar work on other major crops such as millet, groundnut, rice, maize and cowpea. New initiatives are also beginning for wheat and various leguminous crops.'

Read the whole CGIAR Annual Report 2009: From research to results, November 2010.

New dual-purpose sorghum: Food for people and livestock

New varieties of food-feed sorghum are meeting the basic needs of India?s 208 million crop-livestock farmers, as well as feeding its growing human population.
 

India, Andhra PradeshThroughout the tropics, farm animals are kept underweight and underproductive due to lack of feed. This constraint is stopping some 600 million poor farmers from meeting a fast-rising global demand for milk and meat. But a new partnership, developing dual-purpose food-feed sorghum varieties is helping to meet the basic needs of India’s farmers and leading to similar work in other crops and other countries.

The single most important ruminant  feed resource on many of the small crop-livestock farms of Asia and Africa is not grass but rather the stalks, leaves and other remains of crop plants after harvesting. In India, for example, 44% of the feed annually sustaining all the country’s cattle, buffalo, goats, sheep and camel populations is made up of such crop ‘wastes’. The rest comes from planted forages and a shrinking area of pastures and other common lands. Expensive concentrates—the mainstay of livestock production in rich countries—are used only very occasionally.

While crop residues (straw and stover) have become a main feed for farm animals of the South, crop breeders until recently continued to focus solely on increasing grain yields. But a research partnership between India’s National Research centre for Sorghum (NRCS), the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) and ILRI is redressing this oversight in India’s all-important sorghum crop, grown on nearly 10,000,000 hectares on the country. The research partners incorporated fodder quality traits in India’s crop breeding trials and in doing so, led breeders to identify sorghum varieties with high yields of both grain and stover as well as improved stover quality.

 Partners in the sorghum food-feed collaboration

India’s National Research Centre for Sorghum (NRCS) leads the All-India Coordinated Sorghum Improvement Program mandated to test and release new cultivars. It also assesses the socio-economic importance of sorghum-based livelihoods.
Website:  http://www.nrcsorghum.res.in

The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) provided conventional and molecular sorghum breeding, global crop economics and assessments of the impacts of crop interventions for the poor.
Website: http://www.icrisat.org


The International Livestock Research Institute (ILRI) conducted the livestock nutrition work and provided expertise in global livestock economics and assessments of the impacts of livestock interventions for the poor.
Website: http://www.ilri.org


Summary of results from the sorghum trials
The research partnership began in 1999 by assessing the potential impacts on India’s smallholder livestock productivity of planting sorghum and millet varieties with genetically enhanced stover fodder quality and quantity. Remarkably, results indicated that a 1% increase in just one livestock productivity-related parameter—stover digestibility—would result in increases in milk, meat and draught power outputs ranging from 6-8%. The net present value of the research was estimated to range from US$42-208 million, with predicted high rates of return to the research investment of 28-43% and corresponding high benefit:cost ratios of 15 to 69:1.

ILRI then proceeded to establish facilities for animal nutrition studies using large and small ruminants at ICRISAT’s Patancheru headquarters, close to the NRCS. These facilities enabled the research partners to make a stepwise evaluation of the relationships between fodder from different sorghum lines and livestock productivity—and to find a simple way of assessing these. Animal experimentation, while itself impractical as a routine screening tool, quickly laid a sound basis for developing and validating simple laboratory assessment methods and for quantifying potential impacts on livestock productivity.

In 2001 work began with combined feeding and laboratory trials of stover obtained from a wide range of sorghum varieties and hybrids. The trials simulated diverse on-farm circumstances, including those where stover is scarce, abundant and supplemented with other forages, because fodder qualities depend on a farm’s total feed resources. Across India’s great drylands, for example, where insufficient feed prevents animals from eating until they have satisfied their appetites, a fodder trait for ‘voluntary feed intake potential’ is likely to be irrelevant while another for ‘feed digestibility’ is critically important.

Sorghum varieties were investigated for their morphological characteristics and structure (leaf blade:leaf sheath:stem proportions, plant height, stem diameter, residual green leaf area), chemical constituents (protein, fiber, sugar) in the stover and in vitro fermentation characteristics (true and apparent digestibility, rate of fermentation, partitioning of fermentation products). Results showed that fodder quality traits measured in the laboratory could be used to predict and account for at least 80% of the variation in relevant livestock productivity traits, such as digestible organic matter intake and nitrogen balance.

Traits were chosen also for the ease with which they could be measured (e.g. plant height, stem diameter) and/or be accurately predicted by near-infrared spectroscopy (NIRS). Importantly, use of NIRS technology allowed all the partners in the project, including those with no livestock feeding facilities, easy access to developed and validated NIRS prediction equations and consequently phenotyping for stover fodder quality capability. NRCS staff seconded to ILRI’s livestock nutritional facilities on ICRISAT’s Patancheru campus used the facilities and NIRS equations to comprehensively assess all newly submitted sorghum cultivars.

Breaking new ground in food-feed crops
Identification of superior dual-purpose food-plus-feed sorghum varieties is now helping India close its livestock feed gap as well as feed its growing human population. By increasing the country’s livestock productivity, this research is improving the livelihoods of some 100 million mixed crop-livestock farmers —and doing so in ways those small farmers should be able to sustain over the longer term. This partnership also led the way for similar work on millet, groundnut, rice, maize and cowpea and new collaborations are about to begin on wheat and various leguminous crops.

By generating superior dual-purpose sorghum varieties suited to India’s millions of smallholder farmers, this collaborative research has been path-breaking in demonstrating that traits for stover fodder quality and quantity can be incorporated into existing breeding programs to improve grain yields—and with minimum investments in equipment, staff and labour and minimum transaction costs for the collaborating institutions.

It further offers a practical two-step approach to development of food-feed crops. First, exploit dual-purpose traits in existing cultivars by complementing traditional crop improvement programs with information about the quantity and quality of expected yields of crop residues for livestock feed. Second, target dual-purpose crops for genetic enhancement. The first approach, comparatively cheap and logistically feasible, promises quick benefits for resource-poor farmers. The second, more strategic, approach requires more investments and benefits farmers later and over the longer term. In a world of scarce and rapidly diminishing land, water, fodder and other natural resources, both approaches merit the world’s attention.


ILRI Top story 22 August 2007 
Sweet sorghum: utilizing every 'drop'

 

Contacts
For further information about this project contact:
Michael Blummel
ILRI c/o ICRISAT
Patancheru 502 234AP India
Email:
m.blummel@cgiar.org

For further information about ILRI’s activities in Asia contact:

 

Iain Wright
ILRI’s regional representative in Asia
Email: i.wright@cgiar.org

 

Sweet sorghum: Utilizing every ‘drop’

Poor livestock keepers in the drylands point to feed shortages as one of their biggest animal production constraints. Research in India is demonstrating that sweet sorghum's traditional use as a dual-purpose food and feed crop and its modern day use as a bio-fuel need not be mutually exclusive

Sweet sorghum: utilizing every 'drop'

Sweet sorghum (Sorghum bicolor (L.) Moench) is well adapted to the semi-arid regions of the tropics. One of its main advantages is that it is very water-use efficient  It has long been used by farmers as a multi-purpose crop from which they extract grain for human consumption and stover for livestock feed. Today, sweet sorghum is becoming increasingly used in industrial bio-fuel production in India. It is one of the most efficient dryland crops to convert atmospheric CO2 into sugar and is therefore a viable alternative for the production of ethanol.

 

 

Sweet sorghum’s role in India’s bio-fuel plans
‘All countries, including India, are grappling with the problem of meeting the ever-increasing demand for fuel within the constraints of international commitments, legal requirements, environmental concerns and limited resources. In this connection fuels of biological origin have drawn a great deal of attention during the last two decades.
 
‘India wishes to consider the use of bio-diesel and ethanol for blending with petro-diesel and petrol. Oil provides energy for 95% of transportation and the demand for transport fuel continues to rise. The extract from the third assessment of the Intergovernmental Panel on Climate Change (IPCC) estimates that global oil demand will rise by 1.68% from 75 million barrels per day (mb/d) in the year 2002 to 120 mb/d in 2030. Energy input in agriculture is also increasing. Part of this energy should come from bio-based fuel, which is short term renewable.
 ‘Ethanol is used as a fuel or as an oxygenate to gasoline. In India, raw material used for producing ethanol varies from sugar, cereals (sweet sorghum), sugar beet, and molasses. Brazil uses ethanol as 100% fuel in about 20% of vehicles. Use of a 5% ethanol gasoline blend is already approved by the Bureau of Indian Standards (BIS) and is in a progressive state of implementation in India.’

Excerpted from: ‘Development of Value Chain for Bio-fuel in India’, National Agricultural Innovation Project (NAIP). NAIP website: http://www.naip.icar.org.in

 

Win-win situation
Increasing industrial usage of sweet sorghum for ethanol production does, on one hand, provide important income for dryland farmers, but it can also divert biomass away from livestock, thus adding to the feed scarcity problem being faced by livestock keepers. However, scientists are demonstrating that full use of all parts of the sweet sorghum plant can meet both industrial and livestock feed needs.
Collaborative work between the International Crop Research Center for the Semi-Arid Tropics (ICRISAT), the Rusni Distillery in Sanga Reddy Medak District, the Indian Council of Agricultural Research’s National Research Center for Sorghum (NRCS), in Hyderabad, and the International Livestock Research Institute (ILRI) is demonstrating the feasibility of manufacturing marketable sweet sorghum feed blocks using the stripped leaves and the crushed stalks (bagasse) remaining after juice extraction for ethanol. A bagasse-based feed block has been manufactured in collaboration with Miracle Fodder and Feeds in Hyderabad and is currently being tested with large and small ruminants with very promising results.Sweet sorghum: utilizing every 'drop'
Full utilization of crops and their by-products in the balanced production of food, feed and industrial products is likely to become increasingly important in developing countries. Total utilization of all parts of the sweet sorghum plant for use in the manufacturing and food industries would help compensate for fodder loss and provide an additional source of income for farmers.

Value-added products from by-products

Surveys of fodder markets in Hyderabad showed that stover from ordinary grain sorghum is widely traded as livestock fodder. This stover is sourced from several Indian States, transported over distances of more than 350 km and fetches retail prices that are about half the value of the sorghum grain. Higher quality stover fetches premium prices ranging from 3.1 to 3.9 Indian rupees per kilogram of dry stover.
  The fodder quality of feed blocks made from sweet sorghum leaf strippings and bagasse is similar to premium stover made from grain sorghum. Scientists estimate that this feed could fetch prices of 6 rupees per kg and more. The manufacturing of feed blocks could therefore offer attractive additional income along a sweet sorghum utilization chain. The feed blocks could be made more nutritious by adding sorghum grain distillery by-products—where the grain is used for biofuel production—and/or by targeted fortification with other supplements. The end product would be an attractive sweet sorghum by-product based feed block of good quality and with a high density, making