China will launch an initiative to comprehensively improve its extreme weather response in the 15th Five-Year Plan period (2026–2030), according to meteorological authorities at a press conference on Tuesday.
The initiative will focus on more precise and sensitive monitoring, more accurate and timely forecasting, and more efficient and smooth warning dissemination.
"By focusing on the 'Four Early' goals - early detection, early decision-making, early preparation, and early prevention, we will strengthen the entire chain from monitoring, forecasting, early warning and calling response to emergency response, joint emergency response and climate adaptation support, so as to comprehensively enhance our capacity to respond to extreme weather. By 2030, China's meteorological technology, forecasting and monitoring capabilities will reach advanced levels in the world, with extreme weather response significantly improved," said Chen Zhenlin, head of the China Meteorological Administration (CMA).
The CMA is also planning to build a global meteorological data platform, according to officials. "We will take the lead in building a meteorology-based Earth data platform, to improve the development of a global, comprehensive, reliable data resource system with unified standards, so as to carry out a census of Earth system data resources," said Cheng Lei, director of the CMA's department of planning and finance.
The CMA has already opened over 100 types of meteorological data products across 12 categories to the public, serving 153 countries and region.
China to enhance extreme weather response in 2026-2030 period
Chinese scientists announced Monday that they have achieved a breakthrough in yak cloning, with 10 cloned calves all naturally delivered in southwest China's Xizang Autonomous Region.
These calves, consisting of three black yaks and seven white ones, were born from March 25 to April 5 at a yak breeding and research base in Xizang's Damxung County, all meeting expected standards and steadily gaining weight.
The mass births came after the first cloned yak was born in July 2025, which has grown healthily and weighs about 183 kg now.
The achievement was made using a domestically developed breeding system that combines whole-genome selection with somatic cell cloning, following three years of research by a Chinese scientific team.
"Whole-genome selection can accurately pinpoint excellent genetic loci associated with large body size, fast growth, strong fecundity and disease resistance, high feed conversion efficiency, and tolerance to high-altitude and low-oxygen conditions (cold resistance). On this basis, somatic cell cloning enables 1:1 precise replication of the genotype through asexual rapid propagation (cloning), thereby compressing the breeding cycle to within five years," said Fang Shengguo, a professor at the College of Life Sciences at Zhejiang University and director of the State Conservation Center for Gene Resources of Endangered Wildlife.
Yak farming is one of the key industries targeted for development in Xizang during the country's 15th Five-Year Plan period (2026-2030). Traditional yak breeding has relied on phenotype selection, a process that can take up to 20 years and often leads to declining genetic quality.
Researchers said the new method can shorten the breeding cycle to less than five years by accurately identifying desirable genetic traits such as faster growth, disease resistance, feed efficiency and adaptation to high-altitude, low-oxygen environments, while enabling rapid replication of elite breeding stock.
Experts added that the technology could also support conservation efforts for rare yak genetic resources, including the endangered golden wild yak, whose population in Xizang is estimated at more than 300.
So far, the research team has developed more than 200 cloned embryos of golden wild yaks and hybrid wild-blood yaks, laying the groundwork for future embryo transfer and species recovery programs.
China achieves large-scale births of cloned yaks
