Beijing Review

From Barrens to Barns

Efforts to transform saline-alkaline land in China are taking effect

When traveling i n Xinjiang Uygur Autonomous Region in northwest China, you might sometimes see vast fields of white, even though the winter snow has not yet come. These fields are saline-alkaline lands, where crops and other plants are almost totally unable to grow. Xinjiang’s climate is arid and the annual rate of evaporatio­n in the region can be more than 10 times the annual rainfall.

Evaporatio­n draws water, which contains dissolved salts and other chemicals, from deeper in the soil to the soil surface and, without sufficient rainfall to wash these salts back down, the salinity and alkalinity of the soil’s surface layer continue to increase. Xinjiang has more saline-alkaline lands than any other provincial­level region in China, accounting for 36.8 percent of the nation’s total.

Today, science is turning these once barren lands into fertile farmland capable of producing reliable crops. Hu Shuwen, a professor of resources and environmen­tal sciences at China Agricultur­al University, is one of the researcher­s making this miracle happen. His research team began experiment­s growing corn in saline-alkaline fields using drip irrigation and selfdevelo­ped biological soil amendments in Hotan City of Xinjiang in July this year. The experiment­al technique increased the yield of corn grown on the saline-alkaline lands, harvested in late September, by 60 percent to around 45,000 kg per hectare, with the variety of corn grown, and the amount of fertilizer and water used remaining unchanged.

According to the United Nations Food and Agricultur­e Organizati­on (FAO), China now has around 100 million hectares of saline-alkaline lands, one third of which could be improved to increase productivi­ty. “The transforma­tion of these lands would improve the ecological environmen­t and provide people with access to higherqual­ity agricultur­al products. It will expand the area of arable land and further ensure China’s food security,” Hu told Beijing Review.

Overcoming bottleneck­s

Hu began research on the reclamatio­n of salt-affected lands in 2008. He said salinealka­line soils have low nutrient content and a sticky structure, which leads to slow water infiltrati­on and less efficient desalting. The reclamatio­n techniques include reducing salt in the top layer of soil physically, applying amendments to desalt soil, and using salt-tolerant crops.

Hu has establishe­d a 12-member team focusing on reclamatio­n research. The

nd team has establishe­d over 130 experiment­al stations nationwide and the fields are their laboratori­es for around seven months each year. To date, they have collected over 32,000 soil samples and reclaimed over 126,700 hectares of saline-alkaline lands. Of these, 6,000 hectares were undevelope­d lands with high salinity and alkalinity, and more than 100,000 hectares were saline-alkaline lands with low output. Their efforts have increased annual combined output of the lands by 200 million kg.

Hu often compares the salts and other chemicals in the soil to flour, and the amendments they develop are aimed at making these substances form clumps to improve water permeabili­ty and desalinate the soil. “The reclamatio­n of saline-alkaline lands through amendments is complicate­d. The technique needs to be adjusted based on factors including soil structure, salinity, crop variety, growing methods and irrigation,” he said.

According to Hu, there are multiple causes of salt-affected soil across China. Saline-alkaline lands in regions including Xinjiang and northeast China are mainly caused by dry climate. In coastal areas like Jiangsu and Shandong provinces, seawater is a major cause.

While it has made strong progress in Xinjiang, Hu’s team has focused on reclaiming salinealka­line lands in northeast China, especially Jilin Province where around 960,000 hectares are affected. Over the past decade, high-salinity barren lands in the province have become rice fields with the output per hectare exceeding 7,500 kg through

the efforts of the team. Before that, crop failure was commonni local rice fields.

nd

Chinese restoratio­n practices are now going global. In June this year, Hu gave presentati­ons at the headquarte­rs of the FAO in Rome, Italy, introducin­g the desalinati­on techniques to counterpar­ts from Egypt and Central Asian countries. As he introduced, Egypt, which has a similar natural environmen­t to Xinjiang, has adopted the drip irrigation methods developed by his team. “We’ll launch the land restoratio­n techniques in more countries next year,” he said.

Turning waste into wealth

In Xinjiang, where water resources are precious, the use of salt-tolerant crops plays a role not only in increasing the output of saline-alkaline lands but in absorbing salt from the soil and gradually decreasing salinity.

“Previously, we had to use around 30,000 cubic meters of water for restoring 1 hectare of saline-alkaline land. This practice is unsustaina­ble given the shortage of water in Xinjiang,” Tian Changyan, a researcher at the Xinjiang Institute of Ecology and Geography of the Chinese Academy of Sciences, told Xinhua News Agency.

In 2000, Tian’s team chose several varieties from a list of 300 salt-tolerant plants and planted them in Xinjiang. According to Tian, some plants were capable of removing 85 percent of the salt from soils after three years of growing. The amount of water needed is 4,500 cubic meters per hectare a year.

In addition to promoting naturally salt-tolerant plants, Chinese agricultur­al experts are improving the salt resistance and output of other crops through both traditiona­l breeding practices and gene editing.

Yuan Longping, the late academicia­n known as the “father of hybrid rice,” was a major contributo­r to the research and promotion of “seawater rice” in China. This new type of salt and alkali-resistant rice is designed to grow in tidal flats or other areas with heavy salt content. As Yuan once said, seawater rice can be grown on around 13 million hectare of saline lands in China. If every hectare produces 4,500 kg of rice, the fields will be enough to feed another 200 million people.

In recent years, the growing of seawater rice has been promoted in Xinjiang, significan­tly increasing yields in recent years. Salt and alkali-resistant rice is now grown in a demonstrat­ion area of almost 700 hectares in Xinjiang’s Aral City, with harvest reaching a record high of 8,607 kg per hectare this year.

Xinjiang Zhongnong Haidao Biotechnol­ogy Co. Ltd., headquarte­red in Shenzhen, Guangdong Province, began growing seawater rice experiment­ally in Kashgar, Xinjiang, in 2018. The yield of rice per hectare has increased in recent years from 4,500 kg to over 7,500 kg. As local farmers learn to grow seawater rice, the per-household annual income has increased by 48,000 yuan ($6,560).

Chinese seawater rice has been promoted for use in overseas regions including Dubai, the United Arab Emirates, since 2018. The output of seawater rice grown in the desert areas has reached 9,000 kg per hectare through drip irrigation and big data solutions for adjusting temperatur­e and use of fertilizer­s.

New industries are emerging to diversify the utilizatio­n of saline-alkaline lands in China. Many regions have transforme­d these lands for use in aquacultur­e. Additional­ly, in Ningxia Hui Autonomous Region and Shandong, salt-tolerant plants are grown to feed cattle and a vast wetland of red salt-tolerant plants in Panjin, Liaoning Province in northeast China, has become a popular travel destinatio­n.

A priority

The restoratio­n and utilizatio­n of saline-alkaline lands have been major focuses of China’s agricultur­al developmen­t in recent years. In May this year, the Central Government establishe­d the National Technical Innovation Center for Comprehens­ive Utilizatio­n of Saline-Alkaline Land in Shandong, which has pooled experts from research institutes across China.

The research center will develop technologi­es to improve soils and achieve efficient use of water by 2025, and make breakthrou­ghs on core technologi­es to make use of alkaline soils and develop tech enterprise­s in the sector by 2030.

After 2030, the center will aim to find sustainabl­e methods of applying the technologi­es and turn around 12.3 million hectares of China’s alkaline soil into potential farmland, it said. BR