Tridge summary
Chinese scientists have successfully cloned three 'super cows' that can produce an unusually high amount of milk, potentially revolutionizing China's dairy industry and reducing its reliance on imported breeds. Cloned from highly productive Holstein Friesian cows, these clones are capable of producing 18 tons of milk per year, nearly double the average U.S. cow. This breakthrough could allow China to economically preserve valuable, highly productive cows. The team plans to build a herd of over 1,000 supercows in the next two to three years to address the country's reliance on imported dairy cows and to mitigate supply chain risks.
Disclaimer:The above summary was generated by Tridge's proprietary AI model for informational purposes.
Original content
Chinese scientists have successfully cloned three "super cows" that can produce an unusually high amount of milk, state media reported, hailing it as a breakthrough for China's dairy industry to reduce its reliance on imported breeds. They were cloned from highly productive cows of the Holstein Friesian breed, originally from the Netherlands. The chosen animals are capable of producing 18 tons of milk per year, or 100 tons of milk in their lifetime. That's nearly 1.7 times the amount of milk produced by the average cow in the United States in 2021, according to the US Department of Agriculture. The first of the cloned calves was born on December 30 by caesarean section due to its relatively large size of 56.7 kilograms (120 pounds), an official from the city of Wulin in Ningxia told the state-run Technology Daily. The scientists created 120 cloned embryos from the ear cells of highly productive cows and placed them in surrogate cows, according to Technology Daily. Jin Yaping, the ...
Source: ActualidadGanadera
Would you like more in-depth insights?
Gain access to detailed market analysis tailored to your business needs.
Related market data
What to read next
Read more relevant content
By clicking “Accept Cookies,” I agree to provide cookies for statistical and personalized preference purposes. To learn more about our cookies, please read our Privacy Policy.