Around 200 milk farmers from Indapur village, some 140km southeast of Pune in Maharashtra, and surrounding areas are sitting under a pink-and-white shamiana on a sunny afternoon in November. It is an awareness workshop on what data tracking and genomics can do for milk farming, but the buzz is more around when dairies will raise milk procurement prices.
As veterinarian Abdul Samad strides to the stage to address the gathering, some in the crowd are expecting a political speech. Samad starts by talking about stagnant milk prices but quickly segues into something else. “Stop agitating about milk prices and start focusing on improving productivity and profits. Have you ever cared for where the bull semen is coming from when you do artificial insemination for your cattle?”
The switch from politics to bull semen quality is a hard swerve and there are amused murmurs in the audience.
But reality is staring them in the face.
Milk prices in India rose three times in the decade to 2015 but have plateaued since. This has led to Indian dairies and the farmers they procure milk from looking for solutions to rein in costs and at the same time raise milk output. For a country that produces some 155 million tonnes of milk a year, the big question is how to increase the productivity of Indian cow from the current average of 1,200 litres a year to the average in countries such as the US and Israel: around 3,500 litres annually.
“Even a small shop owner keeps all the records, data. Where is your cattle data?” Samad, who retired as dean of Bombay Veterinary College in 2010, asks the farmers of Indapur.
With more than four decades of work behind him, the vet knows what he’s talking about.
In 2002, Samad, along with software engineer Prashant Murdeshwar, co-founded a company called Vetware Pvt. Ltd. It now offers a mobile-based and easy-to-use app, called Herdman, for farmers to capture cattle data using QR (quick response) codes on the front end.
That data is used to produce insights about cattle health, matching bulls to bring about genetic improvement, and even milk production forecasting. These insights are delivered in the local language to milk farmers and the vets looking after their herds.
The potential of using software and genomics is immense in India’s fragmented milk farming sector, where some 120 million farming families are engaged in cow and buffalo rearing, according to the Indian Agricultural Census. If they can double milk yield, it will have large implications for nutrition in India, milk and milk product exports, and generation of new national income that is better distributed among the country’s 700 million farmers.
The repository of information that Herdman covers includes feed data, days to puberty and calving, weight, health and disease tracking, milk yields, and quality of milk for each of some 240,000 cows and buffaloes on the software across India. Chitale Dairy from Sangli and Hatsun Agro Products in Chennai are the pioneers of adopting techniques wrapped into Herdman.
Hatsun wants to deploy the solution to over 1 million cattle in two years. Larger dairy operations such as Amul have their own tagging and data collection solutions.
Many in the crowd at Indapur are clueless but curious about how tracking cattle data using mobile phones can help them double milk productivity. “How long can we remain cry babies hoping the politicians will help address the pricing issue?” asks Sudhakar Mane, who has a dozen cows in Indapur. “This doctor is saying we can even correct the problems in our current cattle by getting semen from bulls who can ensure the next generations are far more productive.”
“But how? Hope this isn’t some kind of a gimmick?” asks Ganesh who is from a nearby village. He goes only by his first name.
The answer, according to Samad, 64, lies in genomics apart from using software tools to ensure farmers do not make blind decisions and err in managing the health of their herds.
“If you look at right from 1952 till today, we have hardly made any difference as far as the national average is concerned. We must talk of national average, not some isolated examples of animals giving 20-30 litres of milk everyday,” says Samad.
Herdman combines intelligent tracking of animals with genomics big data to help milk farmers make informed decisions about breeding their cattle with the right bull.
“Breeding is about selecting good animals and leaving out bad animals. Unless you have records and the data, how would you know where the good animals are?” asks Samad.
ABS Global Inc., a US cattle genomics company, is tapping cattle big data by relying on Herdman, apart from its own software algorithms that do intelligent matchmaking between cows and buffaloes with bulls to give birth to high milk-producing female calves.
“Software such as Herdman help keep the data accessible. For instance, when a farmer is evaluating a cow to buy, he can scan the QR code tag and read all the historic data to make a more informed buying decision,” says Arvind Gautam, the head of ABS Global’s India operations. ABS is not the only entity in this space—its rival Sexing Technologies is also active in India.
Hatsun is designing a breeding programme for its over 300,000 cows and buffaloes by figuring out dry periods (when cows don’t produce milk) for each of them. This information, too, comes from Herdman.
“If for instance, Hatsun gets to know that March is when most of its cattle will be in dry period, it can redesign the breeding programme in a way that there’s a healthy mix between lactation periods to ensure milk productivity doesn’t suffer,” says Gautam.
Experts such as Marcia I. Endres, a professor at the University of Minnesota’s animal science department, say the key is to ensure that smaller farms in India get data at a low cost, which can then be used to improve operations. Endres has studied Samad’s software.
“An old adage says ‘you can’t manage what you can’t measure’ and the software collects information that the farmers and their veterinarians did not have before,” says Endres.
Once an animal is registered on Herdman, current health and any historical data available is captured. From thereon, each event including heat period, artificial insemination date, pregnancy, calving, vaccinations, treatment of any diseases occurred and, finally, the milk yield across different lactation cycles is recorded.
For every animal registered on the system, farmers have to pay Rs50 annually. They may use the app for free, but will have to put up with pop-ups of local ads.
Big data meets cattle genomics
After Samad’s session in Indapur, the farmers move to a hall on the first floor of a building nearby. The room is full and farmers such as Mane are now prepared to get the final tips.
“How can India double milk production by 2026?” ABS’s Gautam asks the audience.
Maintaining records of cattle health and their family history, or parental matching, is only the starting point. It takes years before results from genomics-based breeding start showing .
ABS’s genetic mating software matches cows with bulls using dozens of parameters and based on expectations of a farmer from the next generation calf. Depending on the cow they have and the problems they want to rectify, farmers can demand anything from more fat content in the milk to better rudder placement, or even set a target of 20 or 30 litres milk daily.
After these requirements are captured, the software algorithm runs search queries in its database to find an appropriate set of bulls and displays the result by ranking them according to their effectiveness. This matching process, which involves running hundreds of potential combinations, takes less than 30 seconds.
Gathering all the genetic data on bulls and cows is such a massive effort that Chitale Genus ABS (India) Pvt. Ltd, a joint venture between ABS Global and Chitale Dairy, which started groundwork in 2010 in Bhilwadi, Sangli, has selected only a few breeds to start with: Murrah, the buffalo breed, and Gir and Sahiwal for sire.
“The more data we feed into the system, the better it gets. As data grows, its reliability too will improve,” says Gautam. Companies such as Sexing Technologies and ABS have been described as the Monsantos of the dairy world for the genetic-level potential they hold for the $350 billion global dairy industry.
What Samad’s Herdman software does is solve one tiny piece of the grand puzzle. For India’s milk productivity to double by 2026 for instance, it will need to combine all genetic big data of cattle with a scientific breeding programme.
Like dairy farmers in the US did. “The high productivity per cow in the US has a lot to do with improvements in genetics and management that could only happen because we had records on how the cows are producing every day or at least once a month from testing, allowing producers to select the best animals and improve management practices by being able to measure the results,” says Endres, the US professor.
India lags countries such as Brazil, too.
“Until 1985, they (Brazil) were doing cross-breeding like we are doing mostly today,” says Samad. “Then they realized cross breeding is not the answer for tropical countries like theirs.” Recording data was followed by identifying genetically superior animals.
Slowly, the results started showing. Brazil has two kinds of herd systems: one is where the cows are free-grazed and the other where they are stall-fed. For the grazed ones, the average yield today is 4,000 litres to 4,500 litres of milk annually. The ones that are fed specific nutrients along with feed in stalls, yield 8,000 litres and more, according to Samad.
Not just that. Cows with breeds of Indian origin dominate the Brazilian market. The top nine breeds of bulls, including Ongole from Andhra Pradesh, account for nearly 80% of milk production in Brazil and were taken from India, and improved genetically. A descendant of the Gir breed of cows from Gujarat, has recorded 60 litres of milk a day in Brazil, according to agricultural economist Devinder Sharma.
The US has raced even further ahead—the “connected cow” is enabled by everything from real time sensors to robotic milking.
“More recently we have seen growth in the use of technologies such as individual cow sensors (for rumination, activity, feeding and resting time, temperature, etc) and automation (robotic milking and automated milk feeders) which provide even larger amounts of individual animal data to be used for health, reproduction and performance improvement,” says Endres.
A Bahubali in Bhilwadi
ABS’s efforts has led to creating a league table of India’s top performing bulls. “Bahubali, the bull, is more popular in our community than the movie (of the same name),” Vikas Dandelkar, a farmer in Bhilwadi, said at the local milk collection centre.
The semen of Bahubali, a cross-breed Murrah buffalo bull in Sangli, is much sought after—each of its semen doses costs Rs150 versus Rs30 for a normal bull insemination dose. Placed No. 2 on India’s league table for bulls by semen quality, it has exceptionally high dam yield of 5,586kg per lactation with fat content of more than 7%.
“Since there is no genomics in buffaloes or indigenous cattle breeds, selection of bull is as per mother’s milk data—higher the better,” says Gautam of ABS. There are 96 other bulls on the league table including Holstein breed Stryker and Brute, Jersey breed Preet and Tyson, and two other Murrah buffaloes Redhu and Maharaja. They are all based in a farm in Bhilwadi at Chitale Genus ABS labs.
Chitale Dairy has seen its milk productivity improve since the genomics lab was first set up in 2010. From around 350,000 litres a day three years ago, Chitale now procures over 750,000 litres daily in Bhilwadi, Sangli. And, the improvement has come by keeping number of cows and buffaloes, around 100,000, mostly unchanged.
“To achieve this level of improvement, having big data is a must,” says Vishwas Chitale, director, Chitale Dairy. “(Results with) genomic selection is only possible with recording.”
Date : 04 December 2017