Sunday, February 24, 2013

SRI system and increase in food production- An answer to food systems?


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SRI system and food production

General public are generally given an impression that there is a massive food shortage in the world and this is leading to price rises and food shortages. To a large extent this is not true. There is a massive food shortage due to waste, lack of storage for produced food and lack of infrastructure such as silos chillers etc. and of course transport logistics. I suggest to every agronomist and every plant breeder in the world to read the two articles below. SRI method of rice cultivation is not only making very significant improvement in rice production but also in economies of villages and social systems. However this system when used smartly is making impact on wheat potatoes etc too. This system uses number of plants per square meter very smartly, water minimally and weed management smartly. All these have led to significant production increases in countries like India ( read article 2 & 3)

Article 1 from Cornell website as below

https://docs.google.com/viewer?url=http%3A%2F%2Fsri.ciifad.cornell.edu%2Fcountries%2Fbhutan%2Fextmats%2FbhExtManual08.pdf






Article 2 Production of rice in India

 From Guardian UK

Sumant Kumar








Sumant Kumar photographed in Darveshpura, Bihar, India. Photograph: Chiara Goia for Observer Food Monthly
Sumant Kumar was overjoyed when he harvested his rice last year. There had been good rains in his village of Darveshpura in north-eastIndia and he knew he could improve on the four or five tonnes per hectare that he usually managed. But every stalk he cut on his paddy field near the bank of the Sakri river seemed to weigh heavier than usual, every grain of rice was bigger and when his crop was weighed on the old village scales, even Kumar was shocked.
This was not six or even 10 or 20 tonnes. Kumar, a shy young farmer in Nalanda district of India's poorest state Bihar, had – using only farmyard manure and without any herbicides – grown an astonishing 22.4 tonnes of rice on one hectare of land. This was a world record and with rice the staple food of more than half the world's population of seven billion, big news.
It beat not just the 19.4 tonnes achieved by the "father of rice", the Chinese agricultural scientist Yuan Longping, but the World Bank-funded scientists at the International Rice Research Institute in the Philippines, and anything achieved by the biggest European and American seed and GM companies. And it was not just Sumant Kumar. Krishna, Nitish, Sanjay and Bijay, his friends and rivals in Darveshpura, all recorded over 17 tonnes, and many others in the villages around claimed to have more than doubled their usual yields.
The villagers, at the mercy of erratic weather and used to going without food in bad years, celebrated. But the Bihar state agricultural universities didn't believe them at first, while India's leading rice scientists muttered about freak results. The Nalanda farmers were accused of cheating. Only when the state's head of agriculture, a rice farmer himself, came to the village with his own men and personally verified Sumant's crop, was the record confirmed.
A tool used to harvest riceA tool used to harvest rice. Photograph: Chiara Goia
The rhythm of Nalanda village life was shattered. Here bullocks still pull ploughs as they have always done, their dung is still dried on the walls of houses and used to cook food. Electricity has still not reached most people. Sumant became a local hero, mentioned in the Indian parliament and asked to attend conferences. The state's chief minister came to Darveshpura to congratulate him, and the village was rewarded with electric power, a bank and a new concrete bridge.
That might have been the end of the story had Sumant's friend Nitish not smashed the world record for growing potatoes six months later. Shortly after Ravindra Kumar, a small farmer from a nearby Bihari village, broke the Indian record for growing wheat. Darveshpura became known as India's "miracle village", Nalanda became famous and teams of scientists, development groups, farmers, civil servants and politicians all descended to discover its secret.
When I meet the young farmers, all in their early 30s, they still seem slightly dazed by their fame. They've become unlikely heroes in a state where nearly half the families live below the Indian poverty line and 93% of the 100 million population depend on growing rice and potatoes. Nitish Kumar speaks quietly of his success and says he is determined to improve on the record. "In previous years, farming has not been very profitable," he says. "Now I realise that it can be. My whole life has changed. I can send my children to school and spend more on health. My income has increased a lot."
What happened in Darveshpura has divided scientists and is exciting governments and development experts. Tests on the soil show it is particularly rich in silicon but the reason for the "super yields" is entirely down to a method of growing crops called System of Rice (or root) Intensification (SRI). It has dramatically increased yields with wheat, potatoes, sugar cane, yams, tomatoes, garlic, aubergine and many other crops and is being hailed as one of the most significant developments of the past 50 years for the world's 500 million small-scale farmers and the two billion people who depend on them.
People work on a rice field in BiharPeople work on a rice field in Bihar. Photograph: Chiara Goia
Instead of planting three-week-old rice seedlings in clumps of three or four in waterlogged fields, as rice farmers around the world traditionally do, the Darveshpura farmers carefully nurture only half as many seeds, and then transplant the young plants into fields, one by one, when much younger. Additionally, they space them at 25cm intervals in a grid pattern, keep the soil much drier and carefully weed around the plants to allow air to their roots. The premise that "less is more" was taught by Rajiv Kumar, a young Bihar state government extension worker who had been trained in turn by Anil Verma of a small Indian NGO called Pran (Preservation and
Proliferation of Rural Resources and Nature), which has introduced the SRI method to hundreds of villages in the past three years.
While the "green revolution" that averted Indian famine in the 1970s relied on improved crop varieties, expensive pesticides and chemical fertilisers, SRI appears to offer a long-term, sustainable future for no extra cost. With more than one in seven of the global population going hungry and demand for rice expected to outstrip supply within 20 years, it appears to offer real hope. Even a 30% increase in the yields of the world's small farmers would go a long way to alleviating poverty.
"Farmers use less seeds, less water and less chemicals but they get more without having to invest more. This is revolutionary," said Dr Surendra Chaurassa from Bihar's agriculture ministry. "I did not believe it to start with, but now I think it can potentially change the way everyone farms. I would want every state to promote it. If we get 30-40% increase in yields, that is more than enough to recommend it."
The results in Bihar have exceeded Chaurassa's hopes. Sudama Mahto, an agriculture officer in Nalanda, says a small investment in training a few hundred people to teach SRI methods has resulted in a 45% increase in the region's yields. Veerapandi Arumugam, the former agriculture minister of Tamil Nadu state, hailed the system as "revolutionising" farming.
SRI's origins go back to the 1980s in Madagascar where Henri de Laulanie, a French Jesuit priest and agronomist, observed how villagers grew rice in the uplands. He developed the method but it was an American, professor Norman Uphoff, director of the International Institute for Food, Agriculture and Development at Cornell University, who was largely responsible for spreading the word about De Laulanie's work.
Given $15m by an anonymous billionaire to research sustainable development, Uphoff went to Madagascar in 1983 and saw the success of SRI for himself: farmers whose previous yields averaged two tonnes per hectare were harvesting eight tonnes. In 1997 he started to actively promote SRI in Asia, where more than 600 million people are malnourished.
"It is a set of ideas, the absolute opposite to the first green revolution [of the 60s] which said that you had to change the genes and the soil nutrients to improve yields. That came at a tremendous ecological cost," says Uphoff. "Agriculture in the 21st century must be practised differently. Land and water resources are becoming scarcer, of poorer quality, or less reliable. Climatic conditions are in many places more adverse. SRI offers millions of disadvantaged households far better opportunities. Nobody is benefiting from this except the farmers; there are no patents, royalties or licensing fees."
Rice seedsRice seeds. Photograph: Chiara Goia
For 40 years now, says Uphoff, science has been obsessed with improving seeds and using artificial fertilisers: "It's been genes, genes, genes. There has never been talk of managing crops. Corporations say 'we will breed you a better plant' and breeders work hard to get 5-10% increase in yields. We have tried to make agriculture an industrial enterprise and have forgotten its biological roots."
Not everyone agrees. Some scientists complain there is not enough peer-reviewed evidence around SRI and that it is impossible to get such returns. "SRI is a set of management practices and nothing else, many of which have been known for a long time and are best recommended practice," says Achim Dobermann, deputy director for research at the International Rice Research Institute. "Scientifically speaking I don't believe there is any miracle. When people independently have evaluated SRI principles then the result has usually been quite different from what has been reported on farm evaluations conducted by NGOs and others who are promoting it. Most scientists have had difficulty replicating the observations."
Dominic Glover, a British researcher working with Wageningen University in the Netherlands, has spent years analysing the introduction of GM crops in developing countries. He is now following how SRI is being adopted in India and believes there has been a "turf war".
"There are experts in their fields defending their knowledge," he says. "But in many areas, growers have tried SRI methods and abandoned them. People are unwilling to investigate this. SRI is good for small farmers who rely on their own families for labour, but not necessarily for larger operations. Rather than any magical theory, it is good husbandry, skill and attention which results in the super yields. Clearly in certain circumstances, it is an efficient resource for farmers. But it is labour intensive and nobody has come up with the technology to transplant single seedlings yet."
But some larger farmers in Bihar say it is not labour intensive and can actually reduce time spent in fields. "When a farmer does SRI the first time, yes it is more labour intensive," says Santosh Kumar, who grows 15 hectares of rice and vegetables in Nalanda. "Then it gets easier and new innovations are taking place now."
In its early days, SRI was dismissed or vilified by donors and scientists but in the past few years it has gained credibility. Uphoff estimates there are now 4-5 million farmers using SRI worldwide, with governments in China, India, Indonesia, Cambodia, Sri Lanka and Vietnam promoting it.
Sumant, Nitish and as many as 100,000 other SRI farmers in Bihar are now preparing their next rice crop. It's back-breaking work transplanting the young rice shoots from the nursery beds to the paddy fields but buoyed by recognition and results, their confidence and optimism in the future is sky high.
Last month Nobel prize-winning economist Joseph Stiglitz visited Nalanda district and recognised the potential of this kind of organic farming, telling the villagers they were "better than scientists". "It was amazing to see their success in organic farming," said Stiglitz, who called for more research. "Agriculture scientists from across the world should visit and learn and be inspired by them."
A man winnows rice in Satgharwa villageA man winnows rice in Satgharwa village. Photograph: Chiara Goia
Bihar, from being India's poorest state, is now at the centre of what is being called a "new green grassroots revolution" with farming villages, research groups and NGOs all beginning to experiment with different crops using SRI. The state will invest $50m in SRI next year but western governments and foundations are holding back, preferring to invest in hi-tech research. The agronomist Anil Verma does not understand why: "The farmers know SRI works, but help is needed to train them. We know it works differently in different soils but the principles are solid," he says. "The biggest problem we have is that people want to do it but we do not have enough trainers.
"If any scientist or a company came up with a technology that almost guaranteed a 50% increase in yields at no extra cost they would get a Nobel prize. But when young Biharian farmers do that they get nothing. I only want to see the poor farmers have enough to eat."

Article 3 from Guardian UK


India's rice revolution: Chinese scientist questions claim of massive harvests

Revelations in last week's Observer Food Monthly have created controversy over the truth of record yields
rice in nalanda bihar india
People work on a rice field in Nalanda district, Bihar, India, where world record yields are said to have been achieved. Photograph: Chiara Goia/Observer Food Monthly
China's leading rice scientist has questioned India's claims of a world record harvest, following a report in last week's Observer of astonishing yields achieved by farmers growing the crop in the state of Bihar.
Professor Yuan Longping, known as the "father of rice", said he doubted whether the Indian government had properly verified young Indian farmer Sumant Kumar's claim that he had produced 22.4 tonnes of rice from one hectare of land in Bihar in 2011.
Yuan, director-general of China's national rice research centre and holder of the previous record of 19.4 tonnes a hectare, asked: "How could the Indian government have confirmed the number after the harvesting was already done?"
The dispute centres on a controversial method of growing rice that is spreading quickly in Asia. System of Rice Intensification (SRI) uses fewer seeds and less water, but seeks to stimulate the roots of young plants, mainly with organic manures. It can work with all kinds of seeds, including GM, and has the effect of getting plants to grow larger, healthier root systems.
Many scientists initially doubted whether yields of this magnitude were possible, but peer-reviewed papers have shown consistent improvements over conventional rice farming methods.
Yuan told the Chinese press after seeing the Observer Food Monthlyarticle: "I introduced the intensification method to China myself. It could increase yields by 10-15% in low-yield fields, but it's not possible for fields that are already producing relatively high yields."
However, Norman Uphoff, professor of agriculture at Cornell University in the US, defended Kumar and the Indian authorities. "The yield measurements for Kumar and other farmers in the Nalanda district of Bihar, which matched or exceeded the previous record, were at first rejected by Indian scientists, who did not believe such results were possible.
"The measurements were made by staking out 10 by 5 metre plots in the centre of one-acre fields, not sampled crop-cuts from small areas. The 50 square metre plots were harvested with hundreds of people watching the cutting, threshing and weighing because everyone anticipated unprecedented yields," he said.
"These results were achieved with hybrid varieties which derive from Yuan's own innovation of hybridising rice, considered for decades by most rice scientists to be impossible."
The measurements were later acknowledged as valid by both the Indian Council for Agricultural Research and the Ministry of Agriculture.
Last week the government of Bihar, where nearly half the population of 100 million live below the poverty line and 93% depend on growing rice and potatoes, endorsed SRI, saying its rice production increased to a record 8.2m tonnes last year, against 3.1m tonnes in 2010-11. "The quantum jump is due to the use of the new SRI technique of rice production," said the finance minister, Sushil Kumar Modi.
SRI, which was developed by a Jesuit priest working in Madagascar in the 1980s, divided scientists when it was first introduced. However, it is now being shown to work with many crops, often in conjunction with organic farming.
Last week a farmer from the village of Sohdih, also in the Nalanda district, claimed to have set a world record for potato-growing using organic/SRI farming. Rakesh Kumar was said by district magistrate Sanjay Kumar Agrawa to have harvested 108.8 tonnes of potatoes per hectare. The harvest, yet to be confirmed by the Indian central authorities, was said to have been verified by experts, scientists and officials.
Amir Kassam, former director of the Consultative Group on International Agricultural Research's Science Council at the UN's food and agriculture organisation, said that many people still doubt the success of SRI. "I would say to them, 'go to the fields and see the evidence'. There are now close to a million hectares under SRI and that cannot be regarded as a delusion. It is real."
Professor Robert Chambers of the Institute of Development Studies at Sussex University said. "SRI is an astonishing win-win for farmers and the environment. Some scientists have been slow to recognise it, and have even rubbished it in peer-reviewed journals, but its success and spread have been phenomenal."


Friday, February 22, 2013

Trace elements and Yield on farm


Trace elements contribute towards yield increases significantly. Indian soils lack trace elements and they need to be supplemented with zinc too. Please promote this to farmers.


From Hindu 20 Feb 2013

Boron foliar spray increases crop yield

S. C. KOTUR


Foliar application of boron is also known to enhance crop growth, number of fruits, fruit size and yield of many crops.
This technology was tested in some farmers fields in Bangalore on ash gourd, Pumpkin, and bitter gourd.
In addition to boric acid, urea was dissolved in the spray solution at 0.5 per cent to enhance absorption of applied boron.

BETTER YIELD

A progressive farmer Mr. Umesh of Gopalpur, Hessaraghatta obtained 28-36 per cent increased production at an expense of Rs. 50/ha on boric acid and urea in each crop.
Another farmer Mr. Bhadradev Kumar of Muthkur region also adopted foliar application of 25 ppm boric acid along with one per cent urea 25 days after planting to flowering (45 days).
He obtained an average increase of two fruits per vine from one and five ashgourds from three in a vine.
Against an estimated yield of 56 tonnes from a hectare Mr. Kumar got 49 tonnes per hectare by adopting this technology.
In ‘Arka Baharl bottle gourd variety grown at the Indian Institute of Horticulture farm (IIHR) farm, the number of fruits increased from two to three per vine.
The weight of the fruit increased to 950gms from 880gms leading to an increase of 50 per cent of bottle gourd fruits.

IMPROVED HEALTH

This substantial increase in production is attributed to an increased fruit set caused by improved health of the pollen. A favourable boron status of the cucurbit vine caused:
(i) proper growth of pollen tube after fertilization leading to an enhanced of fertilization of eggs in the ovary leading ultimately to enhanced the fruit set in each vine; and (ii) substantial growth or enlargement of the fruit since every fertilized egg in the ovary releases growth hormones responsible for fruit enlargement leading to a significant increase if its weight.
Owing to these twin factors, the farmers were able to get a better yield.
The farmers Mr. Umesh of Gopalapura can be reached at -9739261883 and Mr. Bhadradev Kumar of Muthkur at 09482307788.

Wednesday, February 20, 2013

Farmers, a part of agricultural innovation with scientists

Collaborative innovation- Farmers & Scientists not Farmers vs Scientists

This article below clearly illustrates the capacity farmers have for innovation. Many farmers have local knowledge and historic knowledge which often gets ignored by scientists who have a view such knowledge is irrelevant. Although this knowledge may be anecdotal and at times unreplicated as they say where there is smoke there is a potential for fire. Young agricultural scientists should take note of this knowledge base and work with the farmers by overlapping the scientific methodology to enable testing of the knowledge. Although some organizations are practising what is called a participatory breeding, I believe it has limited applicability as one need three Rs in research Repeatability, Reproducibility and Replication. However caution should be exercised while using such knowledge and understand the cause and effect and separate the two aspects rather than blindly follow it. 



Fermented castor solution traps pests of sugarcane, groundnut

From The Hindu

M. J. PRABU
 
Insects like rhinocerous beetle shown dead after falling in the pot.
Special ArrangementInsects like rhinocerous beetle shown dead after falling in the pot.
Green revolution led to serious issues like insect resistance
Andiyur village in Erode district is well known for groundnut and sugarcane cultivation.
But the farmers there face a recurring pest problem called white grub that makes it difficult for them to harvest a good yield. Managing the pest proves difficult for the groundnut cultivators as the grub lives under the soil and its lifecycle takes a year to complete.
It feeds on the root system of the crops and the plants wither and die. Annually nearly 41 per cent of crop loss is being reported from this region.
No effect
“Chemical control measures did not prove to be a long-standing solution for this and the pest keeps recurring,” says Dr. K. Alagesan, Program Co-ordinator, Myrada (Mysore Resettlement and Development Agency), Gobichettipalayam, Tamil Nadu.
A progressive farmer G.R. Sakthivel, who grows sugarcane and groundnut, repeatedly faced losses due to this pest.
“I used almost all the pest preventive measures available in the market for this but the problem continued. No amount of specialist intervention could offer a long standing solution to this.
Accidental discovery
“One day I casually happened to see a large number of the grubs moving on a heap of de-oiled castor cake I had left near my cow shed. This made me think of using this as an effective trap for the insects. I tried it first in a small mud pot in my sugarcane field and found that it had the desired result. I started increasing it for my entire crops,” he says.
Detailing the method on how it should be done, the farmer says:
“Select some five litre mud pots and bury them till the neck at different places in the field. Pulverise about 5kg of castor seed and mix it in five litres of water. Keep this solution undisturbed in a plastic drum for 10 days.
Foul smell
On the 11th day pour two litres of this liquid in all the buried pots and fill it with water till the neck portion. The odour that comes out from the pot attracts the pest towards it.
“In addition to white grub this solution is also found effective to control the notorious rhinoceros beetle that infests coconut trees,” explains the farmer.
In fact, coconut growers are well aware about the rhino beetle and its damage to fronds and small nuts. This method is a good way of controlling it and does not require a big investment.
The mud pot with the solution needs to be buried near the trunk of the tree and attracted by the odour from the pot the insects come towards it and fall into the pot and die.
Collect the dead insects found floating in the pot once every 2 days and keep filling the pot with solution whenever the quantity gets reduced. The solution can be kept for a period of three months, according to Mr. Sakthivel.
Myrada did an extensive study on this indigenous technology over a period of four years and found that about five pots suffice for an acre. This method is found to reduce the plant protection expense to 20 per cent since the cost of the entire process comes to Rs.200-250.
Expense
If farmers use the conventional methods they need to spend anything from Rs.450 to 600 for buying chemicals.
Though the farmer developed this concept some 10 years back, today nearly 300 farmers in the region follow this for their groundnut, sugarcane and cotton crops.
“We found that there is an 80 per cent reduction in white grub and rhinoceros beetle pest population and 35-40 per cent yield increase in sugarcane and groundnut crops when this castor trap is used.
Problems galore
“Though, during the start of the green revolution fertilizers and pesticides led to high yields in hybrid crops, later on it led to serious issues like development of insect resistant, resurgence and residual problems.
“Natural and non pesticidal methods for controlling pests have been in place since time immemorial. But sadly the present generation of farmers has either forgotten their efficiency or are not prepared to accept them,” says Dr. Alagesan.
To know more, interested readers can contact Mr. G.R.Sakthivel at No. 149, Ganeshapuram, Gettavadi (P.o), Talavadi (Via), Sathyamangalam(T.K), Erode District-638461, Mobile: 94863 16041 and Dr. P. Alagesan, Programme Co-ordinator, Myrada Krishi Vigyan Kendra, No.272, Perumal Nagar, Puduvalliyampalayam Road, Kalingiyam – Post, Gobichettipalayam – 638453, Erode District, Tamil Nadu, e-mail: myradakvk@gmail.com, website: www.myradakvk.org, Phone : 04285 241626, 241627.