CHANGCHUN — Although 39-year-old Ma Wei is not a physician, he has earned the nickname "Dr Ma" among locals due to his remarkable ability to transform barren land into fertile soil.
Ma's typical day starts in the wee hours of the morning, as he rushes to a paddy field in Zhenlai county of Northeast China's Jilin province. There, he records data and checks the growth of nearly 100 saline-alkali tolerant crop varieties that he and his colleagues have carefully selected and cultivated.
Years ago, the field was nothing but a vast expanse of barren land, covered with a layer of white salt crust on the soil surface.
Soil salinization is an important cause of desertification, known as the "cancer of the Earth", Ma says, adding that his responsibility is to make unproductive land "come alive again".
Farming on saline and alkaline soil is widely recognized as a formidable challenge, resulting in significantly lower crop yields. China has about 100 million hectares of saline-alkali land, of which around 33 million hectares are available for utilization.
As China focuses on promoting agricultural modernization, regions across the country have been making great efforts to utilize saline-alkali land with innovative solutions ranging from the breeding of saline-alkali tolerant crop varieties to soil fertilizing.
Breeding corps
The Jilin Academy of Agricultural Sciences has started sending experts to Zhenlai to treat saline-alkali soils since the 1980s. As an associate researcher with the academy, Ma became involved in this endeavor nine years ago.
The academy has worked with other Chinese research institutes in recent years to screen and nurture a number of salt-tolerant crop varieties, including five corn, nine rice and 14 soybean varieties.
As a result of these innovative efforts, annual grain production in Jilin exceeded 40 billion kilograms in 2021 and 2022. Thanks to high-quality seeds, the rice yield in Zhenlai has ranked first in Jilin for six consecutive years.
"Seeds are the 'chips' of agriculture, and we have made many breakthroughs in this sector," Ma says.
Similar progress has been made in China's Yellow River Delta, where over 80 percent of the land is classified as salinized and alkalinized.
In the Agricultural High-tech Industrial Demonstration Area of the Yellow River Delta, wheat crops labeled "Jimai60" registered a record yield in the summer harvest of 2022, in a field with high salinity and alkalinity.
The achievement was owed to technical breakthroughs in seed breeding and the utilization of saline-alkali tolerant germplasm resources. Several research institutes have collected and stored a total of 21,000 germplasm resources with such properties in the demonstration area.
Fertilized soil
The west of Jilin is home to one of the world's three largest soda saline-alkali soil areas. In Gaojia village, Taishan township of Da'an, villagers made repeated attempts to plant rice in the past but invariably failed due to saline-alkali soil.
Things began to change after Jilin Longteng Bio-fertilizer started introducing agricultural technologies there to improve soil fertility, including applying rotary tillage and organic fertilizers.
"The use of organic fertilizers and other soil fertility boosting agents will help reduce salinity and alkalinity of the soil while raising the content of organic matter," says Li Fuqiang, head of the company, who laid out a plan for the company to transform over 334 hectares of saline-alkali fields surrounding the village into rice paddies.
The company is not alone in this endeavor.
Over the years, a few research institutes as well as other enterprises have dedicated themselves to the control of saline-alkali fields in western Jilin. In nearly a decade, the region has been able to expand its arable land by transforming saline-alkali fields as well as other types of low-yield land.
Merely improving and cultivating an additional 1 percent of the world's total saline-alkali land could increase grain output by 50 million tons, which is enough to satisfy the annual grain needs of 120 million people, according to Wang Mingming, an associate researcher with the Northeast Institute of Geography and Agroecology, of the Chinese Academy of Sciences.
Empowerment through science and technology has been key to China's miracle in reclaiming and managing saline-alkali land, Wang says, adding that China's experience can provide valuable insights for other countries.