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'Giant rice' explodes expected crop yields
By LI LEI | chinadaily.com.cn | Updated: 2017-10-12 15:24
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The yield of rice is expected to surpass 15,000 kg per hectare as "giant rice" ripens in the experimental field in Hunan province, according to Changsha Evening News.

Xia Xinjie, chief researcher at the Chinese Academy of Sciences, was gratified as he stood in the experimental field in Changsha county, near the capital of Hunan, Changsha.

The 1.75-meter-tall researcher was glad to see the "giant rice" outgrew him by 40 centimeters. The grain giants and the aquatic products in their shade made for a perfectly harmonious ecosystem, he said.

"Compared with common rice, 'giant rice' enjoys a 15 to 20 percent yield increase," the researcher was quoted by Changsha Evening News as saying.

According to Xia, the "giant rice" — 1 centimeter in diameter — developed a strong capacity to resist disease. The shade created by the giants also provides a welcome habitat for aquatic products.

"Frogs feed upon the parasites on the rice. The excrements of fish, mud fish and frogs provide perfect fertilizer. The life cycle of the aquatic products coincide with the rice, so they can be managed together and reduce human labor," Xia said to Changsha Evening News.

Xia predicted that the rice output alone could bring in an economic gain of 300,000 yuan per hectare, and the frogs and mud fish could generate around 750,000 yuan per hectare.

The "giant rice" has been planted in Shaoyang, Changde, Zhuzhou and Changsha in Hunan.

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China set to see another bumper year for grain output
Source: Xinhua| 2017-10-16 20:30:58|Editor: Yang Yi



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A farmer harvests rice in Mudian Village of Huai'an, east China's Jiangsu Province, Oct. 16, 2017. China's Ministry of Agriculture (MOA) Monday estimated that the country's grain output will surpass 600 million tonnes in 2017, indicating another year of bumper harvest. (Xinhua/Zhou Haijun)

BEIJING, Oct. 16 (Xinhua) -- China's Ministry of Agriculture (MOA) Monday estimated that the country's grain output will surpass 600 million tonnes in 2017, indicating another year of bumper harvest.

Earlier official data showed China's grain output dipped in 2016 as its planting area shrank and per unit yield edged down. National grain output stood at about 616 million tonnes last year, down 0.8 percent, compared with a year earlier.

On the back of supply-side structural reform, China has made progress in improving its industrial structure and promoting green development in the agricultural sector, an unnamed official with the MOA said.

Land for growing quality wheat, which has been in short supply, has been increased to 27.5 percent, 2.8 percentage points higher than the previous year, according to the official.

To work towards green development, China has further reduced the use of chemical fertilizers and pesticides.

After years of bumper harvests, China no longer struggles with food shortages, but structural problems remain: some agricultural products are in oversupply and some still rely heavily on imports, while homegrown produce struggles to compete with foreign rivals.

Last month, China's State Council released a guideline on accelerating supply-side structural reform in agriculture, specifying major tasks and targets for the sector's development in the coming years.

By 2020, China plans to foster a modern system for the grain industry and raise the ratio of high-quality grain by around 10 percentage points, according to the guideline.

China is also eyeing an annual average expansion of around 7 percent in the added value of the industry, with the increase of the grain processing rate to 88 percent.
 
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China introduces 2-meter high 'giant rice'

China's "Father of Hybrid Rice" Yuan Longping receives an interview at an experimental field of "giant" rice in Jinjing Township of Changsha County, central China's Hunan Province, Oct. 16, 2017. A new kind of rice that can grow to a height of 2.2 meters has been introduced to China, the Institute of Subtropical Agriculture (ISA) of the Chinese Academy of Sciences announced Monday. With the average height of more than 1.8 meters, the yield of the "giant" rice is expected to surpass 11.5 tonnes per ha, 15 to 20 percent more than ordinary rice, said the ISA. (Xinhua/Li Ga)


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Photo taken on Oct. 16, 2017 shows an experimental field of "giant" rice in Jinjing Township of Changsha County, central China's Hunan Province. A new kind of rice that can grow to a height of 2.2 meters has been introduced to China, the Institute of Subtropical Agriculture (ISA) of the Chinese Academy of Sciences announced Monday. With the average height of more than 1.8 meters, the yield of the "giant" rice is expected to surpass 11.5 tonnes per ha, 15 to 20 percent more than ordinary rice, said the ISA. (Xinhua/Li Ga)


A staff worker checks "giant" rice at an experimental field in Jinjing Township of Changsha County, central China's Hunan Province, Oct. 16, 2017. A new kind of rice that can grow to a height of 2.2 meters has been introduced to China, the Institute of Subtropical Agriculture (ISA) of the Chinese Academy of Sciences announced Monday. (Xinhua/Li Ga)


Xia Xinjie, a researcher of the Chinese Academy of Sciences institute of subtropical agriculture (ISA), checks rice growth in Jinjing Township of Changsha County, central China's Hunan Province, Oct. 16, 2017. A new kind of rice that can grow to a height of 2.2 meters has been introduced to China, the Institute of Subtropical Agriculture (ISA) of the Chinese Academy of Sciences announced Monday. With the average height of more than 1.8 meters, the yield of the "giant" rice is expected to surpass 11.5 tonnes per ha, 15 to 20 percent more than ordinary rice, said the ISA. (Xinhua/Li Ga)


A staff worker feeds mud fish at an experimental field of "giant" rice in Jinjing Township of Changsha County, central China's Hunan Province, Oct. 16, 2017. A new kind of rice that can grow to a height of 2.2 meters has been introduced to China, the Institute of Subtropical Agriculture (ISA) of the Chinese Academy of Sciences announced Monday. (Xinhua/Li Ga)

http://china.org.cn/photos/2017-10/17/content_41743636_6.htm
 
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China grows oil palms on trial plantation
Source: Xinhua Published: 2017/11/19

Chinese agricultural scientists have created a trial plantation of oil-producing palm trees in the country's southernmost island province of Hainan.

The Hainan-based Chinese Academy of Tropical Agricultural Sciences said on Friday it has taken two years to grow the exotic tropical plant. So far, it is thriving on a 5-hectare trial plantation area.

Zeng Xianhai, the program's chief scientist, said China tried to introduce the plant in the 1980s, but failed. The first successful transplantation of oil palm seedlings was made in 2011.

Since 2015, scientists have tried to carry out large-scale transplanting and growing of oil palm trees in fields.

"These two years have proved the seedling can grow well in fields. We plan to expand cultivation to Yunnan and Guangdong provinces," said Zeng.

Palm oil can be widely used for cooking, making cosmetics and rubber products. China is the world's third-biggest palm oil market with annual imports of 6 million tonnes. However, palm tree varieties in China cannot be used for producing palm oil.

http://www.globaltimes.cn
 
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China Focus: From lab to farmland, technology revolutionizes agriculture in China

Source: Xinhua| 2017-11-30


XI'AN, Nov. 30 (Xinhua) -- Zhang Pan used to think of agriculture as farmers wearing straw hats, carrying reaping hooks while laboring on the land despite strong winds or scorching heat.

However, when he was accepted into a graduate program two years ago he realized that the natural environment can be controlled to prevent plants from harmful weather and improve productivity.

In the lab at Northwest Agriculture and Forestry University, where Zhang studies, a piece of equipment emits a purple light onto several lettuce plants sitting in water. The temperature, humidity and light intensity are monitored by a control terminal.

Zhang and three other students from the university jointly developed the technology. "The equipment can control the root temperature of the crops and supplement sunlight at any time based on their needs," he said. "It is one of the techniques of protected cultivation."

Protected cultivation involves a series of techniques modifying the natural environment of plants to improve their quality and yield.

Tests showed that the yield, levels of Vitamin C and amino acids in eggplants grown with help of Zhang's equipment saw an increase of 30 percent, 20 percent and 30 percent respectively, compared with those grown in open fields.

With the world's population projected to reach 9 billion by 2050, experts expect food resources will need to increase by 60 percent. In addition, extreme weather events are on the rise, creating additional obstacles to productivity.

"With protected cultivation, we can shield crops from extreme temperature, wind, rain, hail and snow, creating a microclimate that improves their productivity and quality, and allowing better use of land resources," said Zhang.

Developing protected cultivation is among the agricultural technology the government has been working on to help rural residents in the arid and semi-arid regions.

Yangling in northwest China's Shaanxi Province, where Zhang's university is located, has had a hi-tech agricultural industrial demonstration zone since 1997.

Covering an area of 135 square kilometers, the zone has more than 7,000 researchers. Much of China's agricultural technology, crop varieties and agricultural management modes have been developed there.

According to Liu Tianxiong, deputy director with the administrative committee of Yangling Demonstration Zone, Yangling has set up 302 demonstration bases across 18 provincial-level regions during the past 20 years, bringing more than 1,000 new crop varieties and agricultural technologies to farmers' fields.

Chinese companies are also using technology to revolutionize traditional agriculture.

At the China Yangling Agricultural Hi-Tech Fair held in early November, Chinese drone manufacturer DJI-Innovations presented its MG-1S drone which is water-resistent and can spray pesticides and liquid chemical fertilizers.

"Drones can help farmers improve the efficiency of spraying, save costs, and increase the use ratio of chemicals, which is more environmental-friendly," said Chen Jinqiuye, an agent for DJI.

A Shanghai mechanical and electrical company has invented a field mower, which stands 60 centimeters tall and is able to operate on hillsides and in forests.

According to An Zhihui, the company's general manager, the machine is controlled remotely. It can mow 0.3 hectares of grass in an hour, equivalent to ten workers.

A Beijing company has invented soil testing equipment which ascertains the nutritional makeup of soil and provides a scientific fertilization program, from just a small soil sample.

Based on market research, Zhang and his classmates found that their invention can be used in balcony gardening, flower and herb planting, however, consumers thought it was too expensive.

"It depends on how much equipment needs to be installed in the greenhouse. Basically it costs 450,000 yuan (68,000 U.S. dollars) per hectare," Zhang said. "We are trying to lower the cost."

He imagines a future farming landscape with many automated machines shuttling back and forth on the land, while farmers drink tea in the shade of a tree, using smart phones or tablets to control the machines.

"Agricultural technology must leave the labs to serve the farmers in the farmlands, pastures and orchards," he said.

http://news.xinhuanet.com/english/2017-11/30/c_136790744.htm
 
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Innovation makes poor land green

2017-12-08 09:06 China Daily Editor: Wang Zihao

'Father of hybrid rice' grows crops in barren saline-alkaline areas

A new technological breakthrough proposed by China's "father of hybrid rice" Yuan Longping has increased rice yields by nearly 20 percent on land considered too saline and alkaline to be useful for crops.

The techniques are expected to be used domestically and abroad, officials said on Thursday.

The aim is to improve saline-alkaline land so that it can be used to grow more rice, said Zhang Guodong, executive director of Qingdao Saline-Alkali Tolerant Rice Research and Development Center in Shandong province.

The center has started building four demonstration centers, in the north and south of the Xinjiang Uygur autonomous region, in Daqing in Heilongjiang province and in Qingdao, each with over 66 hectares of experimental paddies. They would be used to determine the best ways to cultivate saline-alkali land, increase yields and reduce planting costs.

In September, the Qingdao demonstration center harvested four types saline-alkali resistant rice, with the highest yield reaching 9.3 metric tons per hectare, much higher than expected.

"One of the key steps to make it commercially viable is to cultivate highly resistant rice adapted to the environments of different saline-alkaline wastelands," Zhang said.

Zhang said the research center is likely to build five to 10 more demonstration bases over the next two to three years across China to develop the best way to promote the technology.

"The Qingdao R&D center also plans to use the new technology in countries of Southeast Asia and the Middle East," said Zhang, who added he could not provide details because negotiations are underway.

Yuan's new breakthrough, called the Four-Dimensional Optimizing Method, is designed to tailor-make different solutions for different soils, according to the 87-year-old scientist.

"One of difficulties is to get rid of salinity in the soil," Yuan said at the second session of International Saline-Alkali Tolerant Rice Forum in Qingdao on Thursday.

The forum attracted more than 300 experts, scholars and entrepreneurs from home and abroad to discuss saline-alkali tolerant rice.

Yuan said the only two solutions for boosting productivity are increasing the yield and expanding the planting area.

"Now it seems the latter is a more effective way because there are hundreds of millions of hectares of saline-alkali land in the world," he said.

"China alone has about 100 million hectares of saline-alkali soil, and that area is still increasing year by year. Rice is the first choice of crop for improving the soil," Yuan said.

He said he hopes global crop security issues can be effectively dealt with through further development of salinealkali tolerant rice.

"Rice itself has the biological function of reducing salt and is the preferred food crop for improving saline-alkali soil," said Ai Jichang, a government relations officer with the World Food Programme China Office.

"At present, more than half of the world's population lives on rice as a staple food. The comprehensive improvement technology for saline-alkali soil proposed by Yuan Longping's team is of great strategic significance for promoting integrated research and the commercial extension of rice improvement in saline-alkali soil, ensuring national food security," Ai said.

http://www.ecns.cn/2017/12-08/283649.shtml
 
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Sand-to-soil conversion test successful in Chinese desert

2017-12-15 08:45 Xinhua Editor: Gu Liping

A sand-to-soil conversion method developed by Chinese scientists has proven effective in a large section of desert in northern China, local authorities said.

Led by Professor Yi Zhijian, the research team from Chongqing Jiaotong University invented a paste made of plant cellulose that helps sand retain water, nutrients and air.

The method has been used to turn 266 hectares of the Ulan Buh Desert in Inner Mongolia Autonomous Region into arable land, the science and technology bureau of Alxa league said.

Crops, grass, shrubs and herbs have all grown well on the land, the bureau said.

Yi's research team will expand their tests and explore which types of plant are most suitable for the method.

Since 2013, the team of experts have been experimenting with the conversion method in southwest China's Chongqing Municipality, where the climate is warm and humid.

They began a test on a 1.6-hectare sandy plot in Ulan Buh Desert in March 2016, which proved to be successful.

The cost of sand conversion is between 22,500 yuan and 40,500 yuan (3,373-6,071 U.S. dollars) per hectare. The paste is non-toxic, environmentally friendly, cheap and suitable for mass production, according to Yi.

http://www.ecns.cn/2017/12-15/284545.shtml
 
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NEWS | 07 MARCH 2018
Millions of Chinese farmers reap benefits of huge crop experiment
Decade-long study involving 21 million smallholders shows how evidence-based approaches could improve food security.

David Cyranoski

d41586-018-02792-7_15512486.jpg
Rice farmers in China increased their crop yields when they adopted new evidence-based farming practices.Credit: KeystoneUSA-ZUMA/REX/Shutterstock

A landmark project to make agriculture more sustainable in China has significantly cut fertilizer use while boosting crop yields on millions of small farms across the country, researchers report in Nature1.

As part of a decade-long study, scientists analysed vast amounts of agricultural data to develop improved practices, which they then passed on to smallholders. Through a national campaign, about 20.9 million farmers adopted the recommendations, which increased productivity and reduced environmental impacts. As a result of the intervention, farmers were together US$12.2 billion better off.

The scale of the project has stunned international scientists. With the global demand for food expected to double between 2005 and 2050, they hope that the study’s lessons can be applied to other countries. “This is an astonishing project of a scale way beyond anything I am familiar with,” says Leslie Firbank, who studies sustainable intensification of agriculture at the University of Leeds, UK.

Charles Godfray, a population biologist at the University of Oxford, UK, says that, over the past 30 years, China has achieved an agricultural miracle by producing enough food to feed the vast majority of its 1.4 billion people. But this feat has come at a tremendous cost to the environment, he says. Fertilizers, such as nitrogen, have increased crop production but have also acidified soil, polluted water and contributed to global warming. Godfray says the latest study demonstrates that it is possible to reduce fertilizer use while increasing economic returns on a large scale.

Tailored advice

Chinese farmers use about 305 kilograms of nitrogen per hectare a year, which is more than four times the global average. Project leader Cui Zhenling at the China Agricultural University in Beijing and his collaborators took up the challenge to cut that use without lessening farmers’ yields.

From 2005 to 2015, the project team conducted 13,123 field studies at maize (corn), rice and wheat farms across the country, from the subtropical south to the frigid north. The researchers tested how yields varied with different crop varieties, planting times, planting densities, fertilizer and water use. They also measured sunlight and the effect of the climate on farm production.

d41586-018-02792-7_15512156.jpg
Source: Z. Cui et al. Nature http://dx.doi.org/10.1038/nature25785 (2018)

With data from the field trials, Cui and his colleagues developed evidence-based advice that was given to farmers on the basis of their local conditions. For example, the team recommended that rice farmers in northeast China reduce their overall nitrogen use by 20% on average, while increasing the nitrogen applied late in the growing season and planting the seeds closer together.

Almost 21 million farmers adopted the group’s recommendations between 2006 and 2015. In that period, crop production for each grain increased by an average of around 11%. The study’s collaborators also recorded a surprising drop in fertilizer use — about 15% per crop — saving 1.2 million tonnes of nitrogen. “The demonstration that reducing inputs can actually boost agricultural, environmental and economic performance at scale is very important,” says Godfray.

Management success

A combination of outreach programmes and workshops — about 14,000 over 10 years — helped to convince the farmers to adopt the recommendations. “The [farmers] were sceptical, but we gained their trust, and then they depended on us — that was our greatest reward,” says Cui. The project, which also provided on-site demonstrations and high-quality seeds and fertilizers at some sites, cost around $54 million.

To enrol and educate the farmers, more than 1,000 researchers across China worked with 65,000 bureaucrats and technicians at provincial or county agricultural agencies and with 140,000 representatives from agriculture businesses. The project’s success highlights the importance of the vast social networks, says Jules Pretty, who researches the environment and society at the University of Essex in Colchester, UK.

David Tilman, an ecologist at the University of Minnesota in St Paul, says the study is a rare example of scientific knowledge being properly implemented in farming. “The greatest barrier to sustainable agricultural is getting farmers to adopt more efficient practices,” he says, adding that the project offers a path for other nations to follow.

But some researchers think the project’s lessons may be difficult to translate to other regions. China’s improved yields resulted from reducing fertilizer overuse, but many farmers in low- and middle-income countries don’t have access to enough fertilizer, says Godfray. He says that China’s centrally controlled government is uniquely capable of implementing policies across the country, which is not the case in other regions. “It would clearly have benefits across sub-Saharan Africa, but an approach is needed that crosses borders, organizations and funders,” says Firbank.

These challenges shouldn’t stop other countries from trialling a similar experiment, says Tilman, but improving farm productivity is not enough. “The China study proves that nations do not have to pollute lakes, rivers and the ocean in order to feed themselves,” he says. “A great remaining challenge that all nations face is adopting healthier, low-meat diets that prevent disease and preserve the environment.”


Millions of Chinese farmers reap benefits of huge crop experiment | Nature

Zhenling Cui, Hongyan Zhang, Xinping Chen, Chaochun Zhang, Wenqi Ma, Chengdong Huang, Weifeng Zhang, Guohua Mi, Yuxin Miao, Xiaolin Li, Qiang Gao, Jianchang Yang, Zhaohui Wang, Youliang Ye, Shiwei Guo, Jianwei Lu, Jianliang Huang, Shihua Lv, Yixiang Sun, Yuanying Liu, Xianlong Peng, Jun Ren, Shiqing Li, Xiping Deng, Xiaojun Shi, Qiang Zhang, Zhiping Yang, Li Tang, Changzhou Wei, Liangliang Jia, Jiwang Zhang, Mingrong He, Yanan Tong, Qiyuan Tang, Xuhua Zhong, Zhaohui Liu, Ning Cao, Changlin Kou, Hao Ying, Yulong Yin, Xiaoqiang Jiao, Qingsong Zhang, Mingsheng Fan, Rongfeng Jiang, Fusuo Zhang & Zhengxia Dou. Pursuing sustainable productivity with millions of smallholder farmers, Nature (2018). DOI: 10.1038/nature25785


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EDITORIAL | 07 MARCH 2018
Chinese project offers a brighter farming future
A massive, decade-long experiment involving millions of Chinese farmers demonstrates an evidence-based approach to sustainability.

d41586-018-02742-3_15515408.jpg
A giant experiment with 21 million farmers in China points the way to sustainable agriculture.Credit: Feng Xiaomin/Xinhua/eyevine

In 1958, China under Mao Zedong embarked on a nationwide political project to increase agricultural productivity by collectivizing small farms across the country and forcing them to share agricultural tools. It was a disaster and contributed to a famine in which tens of millions died.

Now science has succeeded where ideology failed. A huge, decade-long experiment involving millions of farmers reports its results this week. Writing in Nature, scientists in China describe how they identified and passed on evidence-based techniques to make smallholder farming in the country more efficient (Z. Cui et al. Naturehttp://dx.doi.org/10.1038/nature25785; 2018). No sharing of agricultural tools was required; just the gathering and pooling of scientific data on local conditions and agricultural needs.

Running from 2005 to 2015, the project first assessed how factors including irrigation, plant density and sowing depth affected agricultural productivity. It used the information to guide and spread best practice across several regions: for example, recommending that rice in southern China be sown in 20 holes densely packed in a square metre, rather than the much lower densities farmers were accustomed to using.

The results speak for themselves: maize (corn), rice and wheat output grew by some 11% over that decade, whereas the use of damaging and expensive fertilizers decreased by between 15% and 18%, depending on the crop. Farmers spent less money on their land and earned more from it — and they continue to do so.

The results offer hope in the search for a more sustainable future on a crowded planet. After all, some 2.5 billion smallholders together farm 60% of the world’s arable land. Beyond that, the project provides many lessons. First, that a scientific approach can increase agricultural productivity and cut damage to the environment. Second, that such success requires investment in what economists call the intangibles — the creation of networks to spread information and give scientists access to essential data. The scale of the research network created is impressive: 1,200 scientists, 65,000 local officials, 140,000 industry representatives and 21 million farmers across 37.7 million hectares.

Maintaining the people in those networks — in this case, the technicians and bureaucrats in local government offices — is a must. The study shows how these posts can produce benefit, both economic and environmental, far beyond what they cost. Unfortunately, in many countries, such jobs and the networks that depend on them are being cut back, often, paradoxically, in the name of efficiency.

The third lesson is that the same methods could, in principle, be used to boost agricultural efficiency elsewhere. But that will not be easy. China has well-developed regional infrastructure and relatively efficient central control, both of which allowed this project to operate on such a large scale. India and Africa — two regions that could benefit from a similar approach — do not. That makes it difficult, although not impossible, to translate the study and the results beyond China.

Fourth, the programme must be monitored and updated. Its recommendations were fine-tuned to the needs of farmers in specific regions, but these can change, especially as the climate alters. To consolidate their success, the farmers and scientists involved should continue to adapt the recommended methods.

China must now build on this project. Some 200 million smallholdings are not yet plugged into the information networks set up and so are not applying the recommendations. There is scope for easy wins here. For example, researchers could piggyback on existing but separate networks. One is the Science and Technology Backyard platforms, which operate in 21 provinces and cover a wide range of crops. They bring agricultural scientists to live in villages, and use demonstrations to show farmers better techniques. Such projects could ensure that farmers continue to learn. They could also be expanded to investigate the best use of other agricultural options, such as pest management and the use of legumes as alternatives to fertilizers.

Perhaps the most important lesson is that better use of existing technology can help to produce more food in a sustainable way. None of the recommendations given to China’s farmers would have surprised agronomists. Still, the scientists involved deserve great credit for having the vision and the wherewithal to make the project happen.

There is a thrill in finding that expectations hold up over so grand a scale. And, ultimately, it was that scale that made the difference. It allowed the project to go where even the best smaller studies (and Mao Zedong) could not: persuading often intractable rural farmers to change their practices, and so improve efficiency and productivity.

Nature 555, 141 (2018)

doi: 10.1038/d41586-018-02742-3

Chinese project offers a brighter farming future | Nature
 
.
NEWS | 07 MARCH 2018
Millions of Chinese farmers reap benefits of huge crop experiment
Decade-long study involving 21 million smallholders shows how evidence-based approaches could improve food security.

David Cyranoski

d41586-018-02792-7_15512486.jpg
Rice farmers in China increased their crop yields when they adopted new evidence-based farming practices.Credit: KeystoneUSA-ZUMA/REX/Shutterstock

A landmark project to make agriculture more sustainable in China has significantly cut fertilizer use while boosting crop yields on millions of small farms across the country, researchers report in Nature1.

As part of a decade-long study, scientists analysed vast amounts of agricultural data to develop improved practices, which they then passed on to smallholders. Through a national campaign, about 20.9 million farmers adopted the recommendations, which increased productivity and reduced environmental impacts. As a result of the intervention, farmers were together US$12.2 billion better off.

The scale of the project has stunned international scientists. With the global demand for food expected to double between 2005 and 2050, they hope that the study’s lessons can be applied to other countries. “This is an astonishing project of a scale way beyond anything I am familiar with,” says Leslie Firbank, who studies sustainable intensification of agriculture at the University of Leeds, UK.

Charles Godfray, a population biologist at the University of Oxford, UK, says that, over the past 30 years, China has achieved an agricultural miracle by producing enough food to feed the vast majority of its 1.4 billion people. But this feat has come at a tremendous cost to the environment, he says. Fertilizers, such as nitrogen, have increased crop production but have also acidified soil, polluted water and contributed to global warming. Godfray says the latest study demonstrates that it is possible to reduce fertilizer use while increasing economic returns on a large scale.

Tailored advice

Chinese farmers use about 305 kilograms of nitrogen per hectare a year, which is more than four times the global average. Project leader Cui Zhenling at the China Agricultural University in Beijing and his collaborators took up the challenge to cut that use without lessening farmers’ yields.

From 2005 to 2015, the project team conducted 13,123 field studies at maize (corn), rice and wheat farms across the country, from the subtropical south to the frigid north. The researchers tested how yields varied with different crop varieties, planting times, planting densities, fertilizer and water use. They also measured sunlight and the effect of the climate on farm production.

d41586-018-02792-7_15512156.jpg
Source: Z. Cui et al. Nature http://dx.doi.org/10.1038/nature25785 (2018)

With data from the field trials, Cui and his colleagues developed evidence-based advice that was given to farmers on the basis of their local conditions. For example, the team recommended that rice farmers in northeast China reduce their overall nitrogen use by 20% on average, while increasing the nitrogen applied late in the growing season and planting the seeds closer together.

Almost 21 million farmers adopted the group’s recommendations between 2006 and 2015. In that period, crop production for each grain increased by an average of around 11%. The study’s collaborators also recorded a surprising drop in fertilizer use — about 15% per crop — saving 1.2 million tonnes of nitrogen. “The demonstration that reducing inputs can actually boost agricultural, environmental and economic performance at scale is very important,” says Godfray.

Management success

A combination of outreach programmes and workshops — about 14,000 over 10 years — helped to convince the farmers to adopt the recommendations. “The [farmers] were sceptical, but we gained their trust, and then they depended on us — that was our greatest reward,” says Cui. The project, which also provided on-site demonstrations and high-quality seeds and fertilizers at some sites, cost around $54 million.

To enrol and educate the farmers, more than 1,000 researchers across China worked with 65,000 bureaucrats and technicians at provincial or county agricultural agencies and with 140,000 representatives from agriculture businesses. The project’s success highlights the importance of the vast social networks, says Jules Pretty, who researches the environment and society at the University of Essex in Colchester, UK.

David Tilman, an ecologist at the University of Minnesota in St Paul, says the study is a rare example of scientific knowledge being properly implemented in farming. “The greatest barrier to sustainable agricultural is getting farmers to adopt more efficient practices,” he says, adding that the project offers a path for other nations to follow.

But some researchers think the project’s lessons may be difficult to translate to other regions. China’s improved yields resulted from reducing fertilizer overuse, but many farmers in low- and middle-income countries don’t have access to enough fertilizer, says Godfray. He says that China’s centrally controlled government is uniquely capable of implementing policies across the country, which is not the case in other regions. “It would clearly have benefits across sub-Saharan Africa, but an approach is needed that crosses borders, organizations and funders,” says Firbank.

These challenges shouldn’t stop other countries from trialling a similar experiment, says Tilman, but improving farm productivity is not enough. “The China study proves that nations do not have to pollute lakes, rivers and the ocean in order to feed themselves,” he says. “A great remaining challenge that all nations face is adopting healthier, low-meat diets that prevent disease and preserve the environment.”


Millions of Chinese farmers reap benefits of huge crop experiment | Nature

Zhenling Cui, Hongyan Zhang, Xinping Chen, Chaochun Zhang, Wenqi Ma, Chengdong Huang, Weifeng Zhang, Guohua Mi, Yuxin Miao, Xiaolin Li, Qiang Gao, Jianchang Yang, Zhaohui Wang, Youliang Ye, Shiwei Guo, Jianwei Lu, Jianliang Huang, Shihua Lv, Yixiang Sun, Yuanying Liu, Xianlong Peng, Jun Ren, Shiqing Li, Xiping Deng, Xiaojun Shi, Qiang Zhang, Zhiping Yang, Li Tang, Changzhou Wei, Liangliang Jia, Jiwang Zhang, Mingrong He, Yanan Tong, Qiyuan Tang, Xuhua Zhong, Zhaohui Liu, Ning Cao, Changlin Kou, Hao Ying, Yulong Yin, Xiaoqiang Jiao, Qingsong Zhang, Mingsheng Fan, Rongfeng Jiang, Fusuo Zhang & Zhengxia Dou. Pursuing sustainable productivity with millions of smallholder farmers, Nature (2018). DOI: 10.1038/nature25785


***#####***​

EDITORIAL | 07 MARCH 2018
Chinese project offers a brighter farming future
A massive, decade-long experiment involving millions of Chinese farmers demonstrates an evidence-based approach to sustainability.

d41586-018-02742-3_15515408.jpg
A giant experiment with 21 million farmers in China points the way to sustainable agriculture.Credit: Feng Xiaomin/Xinhua/eyevine

In 1958, China under Mao Zedong embarked on a nationwide political project to increase agricultural productivity by collectivizing small farms across the country and forcing them to share agricultural tools. It was a disaster and contributed to a famine in which tens of millions died.

Now science has succeeded where ideology failed. A huge, decade-long experiment involving millions of farmers reports its results this week. Writing in Nature, scientists in China describe how they identified and passed on evidence-based techniques to make smallholder farming in the country more efficient (Z. Cui et al. Naturehttp://dx.doi.org/10.1038/nature25785; 2018). No sharing of agricultural tools was required; just the gathering and pooling of scientific data on local conditions and agricultural needs.

Running from 2005 to 2015, the project first assessed how factors including irrigation, plant density and sowing depth affected agricultural productivity. It used the information to guide and spread best practice across several regions: for example, recommending that rice in southern China be sown in 20 holes densely packed in a square metre, rather than the much lower densities farmers were accustomed to using.

The results speak for themselves: maize (corn), rice and wheat output grew by some 11% over that decade, whereas the use of damaging and expensive fertilizers decreased by between 15% and 18%, depending on the crop. Farmers spent less money on their land and earned more from it — and they continue to do so.

The results offer hope in the search for a more sustainable future on a crowded planet. After all, some 2.5 billion smallholders together farm 60% of the world’s arable land. Beyond that, the project provides many lessons. First, that a scientific approach can increase agricultural productivity and cut damage to the environment. Second, that such success requires investment in what economists call the intangibles — the creation of networks to spread information and give scientists access to essential data. The scale of the research network created is impressive: 1,200 scientists, 65,000 local officials, 140,000 industry representatives and 21 million farmers across 37.7 million hectares.

Maintaining the people in those networks — in this case, the technicians and bureaucrats in local government offices — is a must. The study shows how these posts can produce benefit, both economic and environmental, far beyond what they cost. Unfortunately, in many countries, such jobs and the networks that depend on them are being cut back, often, paradoxically, in the name of efficiency.

The third lesson is that the same methods could, in principle, be used to boost agricultural efficiency elsewhere. But that will not be easy. China has well-developed regional infrastructure and relatively efficient central control, both of which allowed this project to operate on such a large scale. India and Africa — two regions that could benefit from a similar approach — do not. That makes it difficult, although not impossible, to translate the study and the results beyond China.

Fourth, the programme must be monitored and updated. Its recommendations were fine-tuned to the needs of farmers in specific regions, but these can change, especially as the climate alters. To consolidate their success, the farmers and scientists involved should continue to adapt the recommended methods.

China must now build on this project. Some 200 million smallholdings are not yet plugged into the information networks set up and so are not applying the recommendations. There is scope for easy wins here. For example, researchers could piggyback on existing but separate networks. One is the Science and Technology Backyard platforms, which operate in 21 provinces and cover a wide range of crops. They bring agricultural scientists to live in villages, and use demonstrations to show farmers better techniques. Such projects could ensure that farmers continue to learn. They could also be expanded to investigate the best use of other agricultural options, such as pest management and the use of legumes as alternatives to fertilizers.

Perhaps the most important lesson is that better use of existing technology can help to produce more food in a sustainable way. None of the recommendations given to China’s farmers would have surprised agronomists. Still, the scientists involved deserve great credit for having the vision and the wherewithal to make the project happen.

There is a thrill in finding that expectations hold up over so grand a scale. And, ultimately, it was that scale that made the difference. It allowed the project to go where even the best smaller studies (and Mao Zedong) could not: persuading often intractable rural farmers to change their practices, and so improve efficiency and productivity.

Nature 555, 141 (2018)

doi: 10.1038/d41586-018-02742-3

Chinese project offers a brighter farming future | Nature

With China's huge population it is essential that China ensures its food security food and the technology can be shared with other countries to expand China's geopolitical reach

China, BRICS to focus on Africa food security
March 7, 2018, 9:36 am



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Many countries in Africa are facing severe drought and water shortages [Xinhua]

As the 10th BRICS Summit in South Africa approaches, member countries are turning their resources to boosting African development.


On Wednesday, Chinese Agriculture Minister Hang Changfu told members of the national legislature that Beijing is ready to share its skills and technologies to enhance food development in Africa.

He said that China could use the experties it applied to producing 600 million tons of grain in 2017 to help Africa boost its food supply.

“China plays an active role in addressing the problem of food security in African countries, and we will continue to strengthen cooperation with them,” he said.

But he also encouraged African countries, particularly the least developed ones, to work toward finding solutions to food scarcity.

Food security in Africa has always been a primary concern for BRICS.

During the past summits, BRICS heads of state have formed common ground to alleviate the impact of climate change on global food security.

“BRICS countries are an important grouping to deal with the global food crisis, promote global economic recovery and play an important role in global initiatives on food security,” their communiques have reiterated.

Africa remains the region with the highest prevalence of undernourishment, according to the Food and Agriculture Organization.

One in eight people around the world is chronically undernourished, said the UN.

http://thebricspost.com/china-brics-to-focus-on-africa-food-security/#.WqQVfR1ubIU
 
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Chinese GM rice approved by US FDA

China Daily, January 23, 2018

A type of genetically modified rice bred in China has passed safety inspections by the United States Food and Drug Administration, paving the way for it to be exported to the country, a university in China said.


The insect-resistant rice, Huahui 1, passed inspections on safety and nutrition by the FDA, Huazhong Agricultural University in Wuhan, Hubei province, said in a statement on Sunday. The university received the notification on Saturday, it said.


Previously, the rice had passed safety inspections by the US Environmental Protection Agency on pesticide residue levels, the university said.


"Having passed safety inspections by the FDA and EPA, Huahui 1 and its products are able to be exported to the US for consumption," the statement said. "It suggests safety evaluations by Chinese testing institutes of Huahui 1 have been fully recognized by institutes in the US."


Huahui 1 was successfully bred by the university in 1998 and was awarded with a biosafety certificate by China's Ministry of Agriculture in 2009, following safety evaluations that lasted for nearly 10 years, according to the university.


The species can effectively resist insects such as larva, and can greatly reduce the use of pesticides during production, the university said.


The university has been seeking safety evaluations for the rice overseas to make preparations for export of China's insect-resistant GM rice, it said.


GM rice is not likely to win approval from agricultural authorities in China for large-scale production in the next few years, so researchers in the university looked to the US for commercial use of the product, according to a report by the Science and Technology Daily.


Of all major agricultural products in China, only GM cotton has been grown on a large scale in China, according to Wan Jianmin, a member of the Chinese Academy of Engineering.


More than 150 types of insect-resistant GM cotton have been cultivated in China since 2008-planted in 28.6 million hectares-which helped cut the use of pesticides by 60 percent, he told Science and Technology Daily.


China has the world's most strict safety evaluation system for GM products, and all GM products that have passed inspections by the authorities in China are safe, according to the Ministry of Agriculture.


The ministry will further encourage GM research and development, and promote industrial-scale production of major GM agricultural products such as insect-resistant cotton and corn, the ministry said.

http://www.china.org.cn/business/2018-01/23/content_50278607.htm

***

Currently not a single GM product/crop is allowed for consumption in China. But, more open areas like the US are potential markets for exports of GM products.
 
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China's agribusiness giant New Hope expands in Egypt amid growing Sino-Egyptian ties

Xinhua | Updated: 2018-03-19

BEHEIRA - Occupying a vast area of 29,000 square meters in Beheira province north of the Egyptian capital Cairo, the newly-established factory of China's agribusiness giant New Hope Group tells a good story about the growing ties between the two countries.

The sprawling animal feed producing factory, New Hope's third in Egypt, consists of four premises: an administrative building with a residential area, two storehouses for raw materials and final products, and a workshop where animal feed is made.

"Share Success with the Customers. Develop with the Society. Advance with the Society" is a theme painted in large white characters on the blue wall of New Hope's final products storehouse, while "New Hope Brings New Life" is the slogan written under the green-and-red logo of the company.

"We started this branch in August 2016 and reached ideal production rates in October 2017. We invested about 100 million yuan ($15.8 million) in this project," said Wu Qianfeng, general manager of the New Hope Alexandria Co Ltd in the industrial city of Housh Eissa.

The Sino-Egyptian ties have been elevated to the level of comprehensive strategic partnership with growing economic and cultural cooperation in light of China's Belt and Road Initiative proposed by Chinese President Xi Jinping in 2013.

"The rapid development of our firm in Egypt is a result of the development of the trade relations and industrial cooperation between Egypt and China," Wu told Xinhua at the new factory, stressing that New Hope's expansion in Egypt is part of its greater expansion in Africa in general.

Beheira Governor Nadia Abdou recently visited the New Hope factory to inspect the work process and its final products.

Abdou, accompanied by a member of the parliament and local council officials, hailed the growing Sino-Egyptian relations, while vowing to ease all procedures for Chinese investment in the industrial zone in Beheira.

Chinese investment projects are present in nearly all major regions in Egypt, especially the Suez Canal industrial zone, Abdou told Xinhua.

"We as Egyptian people feel friendship and understanding with the Chinese people," she said.

"Egypt has become an investment attractive state because our local currency has become very encouraging for investors, the raw materials are mostly available and cheap, and the new investment law has been approved to facilitate business establishment," she added.

New Hope's expansion in Egypt is just one example of China's growing investment in the most populous Arab state.

Other major Chinese investors in Egypt include the TEDA corporation, one of the oldest and largest industrial developers of the Suez Canal Economic Zone in Ismailia, and China's fiberglass giant Jushi, a tenant company of TEDA.

"It's not the first New Hope factory in Egypt, as the firm has been present in the country for five years. This is the third after the first was built in Sadat city in Minufiya province and the second in Beni Sweif province," said Mahmoud Abdel-Nasser, a deputy administrative manager of New Hope Alexandria.

Abdel-Nasser told Xinhua that a new New Hope factory for fish feed will soon be established in Gamasa city in the coastal province of Damietta in addition to New Hope's increased investment in poultry farming in El Alamein city in Matrouh province.

Like many other Chinese businesses operating in Egypt, New Hope has created hundreds of job opportunities to Egyptian youths.

Rana Sherif, a fresh graduate from a Chinese-learning college in Cairo's Ain Sham University, has been working as an Arabic-Chinese interpreter for New Hope for a few months.

Sherif said she learned punctuality, diligence and the spirit of hard-working during her work and communication with Chinese colleagues at New Hope.

"They work so hard all the time and working hours for them are so sacred. For the Chinese, business is business and leisure is leisure," she told Xinhua.
 
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Quartz: Chinese researchers discovered an agricultural miracle that could feed the planet without destroying it

The study was mammoth. It cost $54 million, and involved some 1,000 researchers and 65,000 local bureaucrats. But academics around the globe are calling the results an agricultural miracle.

The project already saved Chinese farmers more than $12.2 billion over 10 years, and in the process may have unveiled a key to answering one of China’s biggest questions: With the global demand for food expected to double between 2005 and 2050, how will the world’s most populous nation figure out how to feed its people without inflicting serious damage to the environment?

From 2005 to 2015, researchers working under guidance from the China Agricultural University in Beijing conducted more than 13,000 on-the-ground field studies throughout China, taking note local farming practices. Following those studies, researchers developed geographically-specific advice for farmers growing rice, corn, and wheat. That advice emphasized the idea that a one-size-fits-all farming method isn’t as efficient as methods tailored for specific crops, regions, and weather conditions.


For instance, researchers advised rice growers in northeast China that they could reduce nitrogen-rich fertilizer use by an average of 20% if, rather than spreading it evenly on crops throughout year, they instead focused fertilizing efforts mostly in the late-spring growing season. They also suggested planting their seeds closer together.

“The [farmers] were skeptical, but we gained their trust, and then they depended on us—that was our greatest reward,” project leader Cui Zhenling wrote in the study.

Following researcher advice worked. The study, published this month the journal Nature, reports crop production for rice, corn, and wheat increased by an average of 11%, with a 15% drop in fertilizer use. In all, that stopped about 1.2 million tons of nitrogen from being introduced to the environment.

These are blockbuster findings because they offer hope that we can effectively feed a growing human population while also lowering our impact on climate. Compared to the rest of the world, Chinese farmers use about four times more nitrogen (305 kg per hectare, or nearly 175,000 lbs per square mile). When the land is overloaded with fertilizer, soil microbes then expel high levels of nitrous oxide, a greenhouse gas.

https://qz.com/1228061/chinas-agricultural-miracle-that-could-feed-the-planet-without-destroying-it/
 
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'Seawater rice' may help fill food gap

2018-04-09 09:01China Daily Editor: Li Yan

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Researchers harvest a variety of saltwater-tolerant rice in Qingdao, Shandong Province, in September. (Photo/China Daily)

Chinese agricultural researchers have selected 176 strains of saltwater-tolerant rice out of more than 1,000 candidates from experimental paddies and expect them to be widely planted across the country in further trials this year.

Experts said this marks a major step forward in the development of resistant rice strains in China.

Rice that can thrive in a saline-alkali environment-so-called seawater rice-is designed to grow in tidal flats or other areas with heavy saline-alkaline content.

The selected strains, grown in Hainan Province paddies, will be planted on five different types of saline-alkali land around the country. Researchers aim to find at least one type with nationwide applicability for future use, said Zhang Guodong, executive director of the Qingdao Saline-Alkali Tolerant Rice Research and Development Center in Shandong province.

The center, led by Yuan Longping-China's "father of hybrid rice"-was founded in 2016 to help expand the farming of resistant rice around the country.

"China has a great deal of saline-alkaline soil, but these areas are located in various climatic zones with different sunlight conditions," said Zhang, the center's director, adding that researchers will test the quantity and quality of the selected strains under different climatic and geological conditions.

Previous studies found that about 13 to 20 million hectares of saline-alkali soil can support rice-mainly in five areas, including the Xinjiang Uygur autonomous region, North China and along the mouth of the Yellow River. The Qingdao center has experimental paddies in these areas.

The center uses desalinated seawater to irrigate its experimental paddies, with the highest yield reaching 9.3 metric tons per hectare in 2017.

In addition to working with the 176 selected strains, researchers in Hainan are also making efforts to use hybrid technologies and genetic engineering to breed more strains of saline-alkali-resistant rice for further trials.

"Saline-alkali-resistant rice in China is still in the scientific research and observation stage before full application," Zhang said.

Since 1970, the International Rice Research Institute has verified 10 tolerant strains out of 9,000 strains of the grain, providing a technical basis for breeding tolerant varieties. The institute put forward its verification standards for saline-alkali-tolerant rice in 1979.

Countries including Pakistan, Japan, the United States, the United Kingdom and Australia are also carrying out rice research.

Yuan and his team plan to develop a type of seawater rice that can be planted on 6.7 million hectares of saline-alkali land around China, which they estimate can yield 30 billion kilograms every year, feeding 80 million additional mouths.

Yuan said growing more seawater rice is vital to China's food security.
 
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China’s automatic agricultural machinery system now in use

(People's Daily Online) 15:51, May 24, 2018

China’s self-developed automatic driving system, based on the Beidou navigation system, has been widely put to use across the country, China News reported on May 23.

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The automatic driving system, developed by the Beijing UniStrong Science & Technology Co., Ltd, has been put to work on several million mu of arable land in more than 10 provinces and regions in China, according to the Ninth China Satellite Navigation Conference recently held in northeast China.

Guo Xinping, president of the company, revealed that over the course of an average day an automatically operated machine can do 100 to 200 percent more farm work than a manually operated one. Not only is it efficient, but it can also save costs of up to 3,000 yuan ($470) during the farming season.

Guo believes that the need for precision agriculture will continue to grow with the advancement of land conversion, adding that based on development of the system, the company has accumulated mature technologies, equipment and market experience in the field.

The company also announced that it will launch a new scheme regarding the whole industry chain of precision agriculture, to serve the national rural revitalization strategy and targeted poverty relief strategy.
 
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Chinese vice premier calls for technological innovation in agriculture
Xinhua, May 27, 2018

Chinese Vice Premier Hu Chunhua on Saturday called for more technological innovation to modernize the country's agricultural sector.

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Chinese Vice Premier Hu Chunhua, also a member of the Political Bureau of the Communist Party of China Central Committee, presides over a symposium during an inspection tour to the Chinese Academy of Agricultural Sciences in Beijing, capital of China, May 26, 2018. [Photo / Xinhua]

Hu, also a member of the Political Bureau of the Communist Party of China Central Committee, made the remarks during an inspection tour to the Chinese Academy of Agricultural Sciences.


Agricultural tech innovation should be treated as the core in agricultural and rural development, and favorable policies should be made to support it, Hu said.


The evaluation mechanism for scientific research in the agricultural sector should be improved so that research achievements can be better applied, he said.

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Chinese Vice Premier Hu Chunhua (2nd L), also a member of the Political Bureau of the Communist Party of China Central Committee, inspects the Chinese Academy of Agricultural Sciences in Beijing, capital of China, May 26, 2018. [Photo / Xinhua]
 
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