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Chinese researchers develop new type of high-yielding rapeseed
Source: Xinhua| 2019-08-12 20:41:43|Editor: Li Xia

BEIJING, Aug. 12 (Xinhua) -- Chinese researchers have used gene-editing technology to develop a new type of high-yielding rapeseed, according to the Chinese Academy of Agricultural Sciences (CAAS).

Plant height and branch number are essential components of rapeseed plant architecture and are directly correlated with its yield. Improvement of plant architecture is a major challenge in rapeseed breeding.

Researchers from the Oil Crops Research Institute of CAAS used CRISPR/Cas9 gene-editing tool to knock out the gene called BnaMAX1s in rapeseed, which resulted in a rapeseed variety with reduced height, increased branch number and more siliques. The yield per plant increased by about 30 percent.

The research provides germplasm resources for the cultivation of high-yield varieties of rapeseed. The research was published online in the Plant Biotechnology Journal.
 
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Chinese scientists complete high-resolution 3D genome map of rice
Source: Xinhua| 2019-08-15 19:32:25|Editor: Li Xia

WUHAN, Aug. 15 (Xinhua) -- Chinese scientists completed a high-resolution three-dimensional genome map of rice, which is a breakthrough in the crop's genetic improvement, according to the research team.

The team from Huazhong Agricultural University in central China's Hubei Province aimed to investigate the genome architecture and its effects on the growth of rice through the map.

The study will help reveal the genome architecture of rice and promote research on the genetic improvement of rice and other crops, according to the research team.

The study has been published in the international academic journal Nature Communications.
 
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China makes big step to control fall armyworm crop pest
By Chen Xi Source:Global Times Published: 2019/6/19 22:21:00

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Fall armyworm. Photo: IC

China's research team has made a breakthrough in dealing with the crop-destroying pest fall armyworm (FAW), which has seriously threatened the safety of China's agriculture and food production.

The team sequenced and assembled the pest's gene and put the assembled gene fragments to the pest's corresponding chromosomal locations, according to a document of the BGI group, a genome sequencing company in China, sent to the Global Times on Wednesday.

"The research of gene sequencing and assembly of the FAW is crucial to further studying the pest's pesticide resistance and long-term prevention and control," the document said.

The research team spent 25 days on the project.

FAW poses a serious threat to the safety of agricultural and food production in China because it is resistant to pesticides, and no registered pesticide has proven effective in killing the pest in China, the Beijing News reported on Wednesday.

The pest has been discovered in 18 provinces and regions, including South China's Hainan Province, Central China's Hubei Province and Hunan Province, and continues to move northward, according to the website of China's Ministry of Agriculture and Rural Affairs on June 13.

The pest has also damaged crops in nearly 100 countries and regions, reports said.

There was difficulty in trying to transform the research results to actual prevention and control measures. We will continue to study the insect's resistance to different pesticides,the BGI group said.

It said that they are planning to study the migration route of the FAW from southeast Asian countries to China, and help predict and prevent it from invading more important agricultural areas in China, including Northeast China's Heilongjiang Province and Central China's Henan Province.

The genomic data has been uploaded to the data platform of China's National Gene Bank and can be used by researchers all over the world.

The FAW was first spotted in Yunnan Province in January, and China's Ministry of Agriculture and Rural Affairs issued a notice in December 2018 to intensely monitor the pest, and instructed Yunnan and other provinces to draw up preventive and control measures.
“Debug the Fall Armyworm” – XAG Combats Alien Pests with Crop Spraying Drones

August 30, GUANGZHOU – Facing dreaded pest disease caused by fall armyworm, XAG is among the first to introduce fully autonomous drones in some of the most affected countries, such as Zambia, South Africa, Vietnam and China, to improve the control efficacy that has originally been limited to manual spraying. XAG has discovered that in the worst hit Africa and Asia, the absence of smart devices, the unique natural habits of fall armyworm and farmers’ lack of professional expertise have resulted in a rapid large-scale infestation.

Fall armyworm, a highly destructive pest species native to tropics and sub-tropics of the Americas, has aggressively invaded more than 100 countries and devastated million hectares of croplands since 2016. It is the ‘crop-devouring monster’ that attacks over 80 crop varieties but has high preference for maize. At its larval stage, it can cause great damage to leaf, stem and cob of the maize plant and munch the entire cornfield almost overnight.

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Fall armyworm feeding on maize plant at night

When grown into a moth, this pest can fly up to 100km in one night and lay as many as 1,000 eggs during the lifetime. With strong migration and reproductive ability, fall armyworm crossed the Atlantics for the first time and landed on Africa in early 2016, then quickly spreading to most Asian countries since July 2018. As for Africa alone, the annual yield loss of the 12 maize-producing countries is estimated to reach up to USD 4.6 billion in 2018.

Fixing the ‘Crop-devouring Bug’ with Drone
Chemical control remains one of the most widely deployed methods to contain the spread of fall armyworm. However, most farmers usually resort to traditional sprayers and, in many cases, find the effect disappointing while exposing themselves to the hazard of pesticide poisoning. Manual spraying not only fails to meet the demand for a quick, emergent control over the ravenous, fast-moving fall armyworm, but also makes it difficult for pesticides to contact the hidden caterpillars because of uneven hand sprays.

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Recommendations on when to conduct chemical control

Given the situation, XAG’s precision UAS spraying solution can suppress the encroachment of fall armyworm in time, through effective large-scale emergency action involving minimal physical labour. Drone swarm operation can besiege the infested croplands and kill the pests en masse within a large area to reduce moth migration. And the drone can safely operate after sunset to crash down the nocturnal pests whose feeding is most active at night.

A special atomisation spraying mechanism, featured micron-level droplets and powerful downdraft, is designed to achieve uniform applications of ultralow-volume pesticides. Both sides of the leaves and the central part of crops, where the pests conceal themselves, can be more precisely targeted. This not only increases fall armyworm’s exposure to chemicals but also cuts down 30% pesticide use and 90% agricultural water.

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XAG P Series Plant Protection UAS spraying over cornfield

XAG has released an insight article about how drone application can help against the spread of fall armyworm. Link: https://www.xa.com/en/news/application/54

Going Global to Halt the Fall Armyworm Attack
In Zambia, Sunagri Investment Zambia Limited, a local crop-protection service provider, has utilised XAG’s P Series Plant Protection UAS for aerial spraying against fall armyworm during the last maize growing season. A series of field experiments and practical operations was conducted on three commercial farms, covering approximately 200 hectares of infested croplands where yield loss was avoided after chemical treatments.

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Night operation in Zambia

Later in China, where fall armyworm has rapidly made its way to over 21 provinces and infested nearly 600,000 hectares of farmlands, XAG has consistently worked with international agrochemical company, local distributors and government to provide well-validated chemical control based on precision UAS spraying technology.

For instance, in Guangxi Province, XAG and Bayer Crop Science initiated their first-ever emergency control this April to help local smallholders ward off fall armyworm on maize and sugarcane fields. Result showed that drones, loaded with low-toxicity synthetic insecticide, effectively killed the pests and achieved a larval mortality as high as 98%.

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Emergency control initiated by XAG and Bayer

This July, in Yunnan Province, XAG’s local distributor, Qiushi Aviation Technology Company, assembled a team of professional drone operators and participated in the government-led operation with seven P Series UASs. The team has successfully managed pest damage to its minimum on nearly 270 hectares of croplands.

Visit XAG’s website for more information of application case against fall armyworm. Link: https://www.xa.com/en/news/application/55

Founded in 2007, XAG is the world’s leading agriculture technology company and industrial UAS manufacturer who developed drones, internet-of-things (IoT), artificial intelligence (AI) and other digital farming tools for precision seeding, fertilising and spraying.
 
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China's super hybrid rice may yield 18,000 kg per ha by October
2019-09-06 15:29:17 Ecns.cn

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Special: 70th birthday of PRChina

(ECNS) -- Yuan Longping, China's "father of hybrid rice", said on Thursday his team may achieve an average yield of 18,000 kilograms of rice per hectare next month.

After China’s Ministry of Agriculture launched a super-hybrid rice breeding project in 1996, the team has continued to set new records in yields, meeting five targets of 10,500 kg, 12,000 kg, 13,500 kg, 15,000 kg and 16,500 kg per hectare.

Currently, four test fields in China are trying to break the new target of 18,000 kg per hectare.

Yuan said the rice is growing well in his test field in Changsha, Hunan Province, and that he might achieve the yield target in October.

The scientist said he still has two dreams ahead – improving average yield of hybrid rice and sharing the rice variety with the world.

"If 50 percent of the world's rice paddies were planted with hybrids, rice production could increase by another 2 tons per hectare, so some 500 million more people could be fed," said Yuan.
 
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How can China feed its 1.4 billion people?
Published on Sep 15, 2019
New China TV

China has just 7 pct of the world's arable land but is home to 20 pct of the world's population. How does it feed its 1.4 bln people?
 
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China's 'Father of Hybrid Rice' Sets Up China's First Sea Rice Cold Breeding Station
XU WEI
DATE : SEP 19 2019/SOURCE : YICAI
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China's 'Father of Hybrid Rice' Sets Up China's First Sea Rice Cold Breeding Station

(Yicai Global) Sept. 19 -- Qingdao Sea Rice R&D Center and a team under famous Chinese hybrid rice expert Yuan Longping set up China's first cold zone sea rice breeding station in Tieli in Northeast China's Heilongjiang province yesterday, Chinese broadcast media CCTV reported.

Sea rice is a strain of long-grained hybrid wild and cultivated rice normally grown along beaches and marshes that tolerates brine, has stronger survival ability than ordinary rice, and is resistant to water-logging, saltwater, alkali, diseases and insects.

Tieli lies in the third and fourth accumulated temperate zones in the alpine region. It is also one of the world's three major soda saline-alkali soils, so it has obvious advantages for frigid zone rice breeding.

Cold region breeding in Tieli will meet the demand of rice farming areas in Northeast China and the eastern Inner Mongolia Autonomous Region and is quite regionally representative for the research and development of alkali and cold tolerant rice, said an employee from the center.

Yuan's sea rice team has established eight experimental planting bases in five major saline-alkaline areas in the country to date. About 1,333 hectares of the variety has been planted. The sea rice cultivated in the Daqing area of Heilongjiang province last year may have yielded over 7,500 kilograms per hectare.

The hardy hybrid has thus far been grown in fewer than 13.3 hectares in the Northeast. The plan is to extend this to 1 million hectares in the region In the next three years, per the report.

As much as half of China's paddies grow Yuan's hybrid rice species and these yield 60 percent of China's production. Yuan's efforts have lifted China's rice output to 195 million tons in 2017 from 57 million tons in 1950. About 300 billion kg of rice has been produced over the last 20 years, as against the estimated production without the hybrid rice. This increase is enough to feed 60 million people.
 
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China's 'Father of Hybrid Rice' Sets Up China's First Sea Rice Cold Breeding Station
XU WEI
DATE : SEP 19 2019/SOURCE : YICAI
top.jpg

China's 'Father of Hybrid Rice' Sets Up China's First Sea Rice Cold Breeding Station

(Yicai Global) Sept. 19 -- Qingdao Sea Rice R&D Center and a team under famous Chinese hybrid rice expert Yuan Longping set up China's first cold zone sea rice breeding station in Tieli in Northeast China's Heilongjiang province yesterday, Chinese broadcast media CCTV reported.

Sea rice is a strain of long-grained hybrid wild and cultivated rice normally grown along beaches and marshes that tolerates brine, has stronger survival ability than ordinary rice, and is resistant to water-logging, saltwater, alkali, diseases and insects.

Tieli lies in the third and fourth accumulated temperate zones in the alpine region. It is also one of the world's three major soda saline-alkali soils, so it has obvious advantages for frigid zone rice breeding.

Cold region breeding in Tieli will meet the demand of rice farming areas in Northeast China and the eastern Inner Mongolia Autonomous Region and is quite regionally representative for the research and development of alkali and cold tolerant rice, said an employee from the center.

Yuan's sea rice team has established eight experimental planting bases in five major saline-alkaline areas in the country to date. About 1,333 hectares of the variety has been planted. The sea rice cultivated in the Daqing area of Heilongjiang province last year may have yielded over 7,500 kilograms per hectare.

The hardy hybrid has thus far been grown in fewer than 13.3 hectares in the Northeast. The plan is to extend this to 1 million hectares in the region In the next three years, per the report.

As much as half of China's paddies grow Yuan's hybrid rice species and these yield 60 percent of China's production. Yuan's efforts have lifted China's rice output to 195 million tons in 2017 from 57 million tons in 1950. About 300 billion kg of rice has been produced over the last 20 years, as against the estimated production without the hybrid rice. This increase is enough to feed 60 million people.
Soon many asian country will face carbohydrate crisis, to many land became fastly over populated and change the fuction from carbo producer to housing
 
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Chinese scientists recognised for water-saving irrigation technology | South China Morning Post
  • It allows farmers in arid areas to cut water use by 25 per cent and boost output for crops like cotton by nearly 20 per cent compared to other systems
  • Mathematical model can simulate and predict movement of salt and water in different types of soil, helping growers to plan better in hot, dry zones
Stephen Chen
Published: 5:00am, 21 Sep, 2019
Updated: 6:51am, 21 Sep, 2019

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One of the team’s experimental stations at a cotton farm in Xinier, in the far western Xinjiang region. Photo: ICID

A new irrigation technology developed by Chinese scientists that can cut farmers’ water use by a quarter in arid areas has won an international conservation award.

Tian Fuqiang, an associate professor who heads the research team at Tsinghua University, was recognised for his contribution to the development and mass application of a water and salt regulation technology for mulching and drip irrigation in China’s far western region of Xinjiang.

He was presented with the WatSave Technology Award in Bali, Indonesia on September 4. The award from the International Commission on Irrigation and Drainage (ICID) is presented to the best new water-saving technology every year.

Gao Lihui, administrative director of the ICID’s Chinese National Committee on Irrigation and Drainage in Beijing, said the award was significant recognition of the research team’s technological achievement in the area of water conservation.

“They faced fierce competition from the candidates from other countries [in the running for the prize],” Gao said on Tuesday. “But the bigger challenge now is to promote this technology around the world.”

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Tian Fuqiang was recognised for his contribution to the development and mass application of a water and salt regulation technology for mulching and drip irrigation. Photo: Thuwater

It was the seventh time Chinese scientists have taken out the award in the past two decades. Australian researchers have won the prize for the last two years.

The Chinese technology has been used to irrigate more than 20,000 hectares (49,400 acres) of cotton farms – a highly water intensive crop – in Xinjiang since 2011. According to the researchers, it has saved more than 500 million tonnes of water on those farms in that time.

It can reduce water use by 25 per cent and increase agricultural output such as cotton by nearly 20 per cent compared to irrigation systems currently used in hot, dry climate zones, according to the ICID.

The technology uses a mathematical model that, according to Tian’s team, can simulate and predict the movement of salt and water in different types of soil – something that has not been well understood by scientists before.

In a dry region like Xinjiang, too much or too little water can lead to salinisation – a major threat to agriculture. Salinisation can be caused by the rapid evaporation of too much water, or an insufficient leaching process and poor plant growth brought on by too little water.

Researchers have been trying to get the balance right for decades, but the new technology means farmers can plan their water use with unprecedented ease and accuracy. A cotton grower can calculate how many tonnes of water will be needed for a hectare of the crop, whether they need to water their fields in winter, and how many days to wait between watering.

Xinjiang, with the Gobi Desert in the north and the Taklimakan Desert in the south, is heavily dependent on agriculture, especially cotton – the region provides more than 80 per cent of China’s total cotton production. But its dry climate has constrained economic and social development because of water shortages, according to the Chinese government.

Many other regions face similarly harsh conditions, including places involved in Beijing’s controversial Belt and Road Initiative. Agriculture is one of the investment targets for the sprawling infrastructure plan that aims to link China with other parts of Asia, Africa, Europe and beyond.

According to the research team, using the new technology to irrigate the more than 70 million hectares of cotton fields in China and Central Asia alone could generate over US$7 billion in extra income for the farmers every year.

At the same time, they estimate it could reduce annual water consumption by 17.5 billion tonnes – almost the entire groundwater resources of Afghanistan.

Gao said it also had a cost advantage compared to other technologies. For instance, the Chinese technology uses plastic pipes with thin walls that need to be replaced every year, but are recyclable and inexpensive.

Similar technology used in countries such as Israel usually uses pipes with thick walls made from high quality plastic that last for decades, but they require more investment, meaning they might be out of reach for farmers in developing countries.
 
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China develops new high-yield soybean variety
Source: Xinhua| 2019-09-30 14:52:47|Editor: ZX

BEIJING, Sept. 30 (Xinhua) -- China has developed a new variety of high-yield soybean and has tested it in a trial planting area, according to the Chinese Academy of Sciences (CAS).

The new variety of soybean named Henong 71 was planted in the test fields in Shihezi, Xinjiang Uygur Autonomous Region. It achieved an average yield of 447.47 kg of soybean per mu (about 0.07 hectares), reaching a new high of China's soybean output.

The new variety was developed by a team led by the Heilongjiang Academy of Agricultural Sciences. Researchers used molecular design breeding technology, hybridization as well as radiation breeding methods.

The test planting was coordinated by the Heilongjiang Academy of Agricultural Sciences, Northeast Institute of Geography and Agroecology under the CAS and other institutions. The test results showed that the new variety of soybean has high and stable yields, as well as good adaptability.

Experts from the Ministry of Science and Technology said the new soybean variety indicates that soybean breeding technology has been greatly improved in China, according to the CAS.
 
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Study identifies disease-resistant gene in maize
Source: Xinhua| 2019-10-08 13:31:13|Editor: ZD

JINAN, Oct. 8 (Xinhua) -- Banded leaf and sheath blight (BLSB) is a fungal disease leading to low yields in maize. Chinese researchers have identified a gene conferring resistance to BLSB in maize, providing insight into developing disease-resistant crop varieties.

BLSB in maize is caused by Rhizoctonia solani (R. solani), a plant pathogenic fungus with a wide host range. The soil-borne fungi can attack crops like rice and maize, making the plant rot and fall over.

Through a genome-wide association study, researchers from Shandong Agricultural University and Huazhong Agricultural University grew maize affected by R. solani and compared the lesion length after five days.

According to the report published in the journal Nature Genetics, the researchers analyzed 318 maize samples with BLSB and found a gene called ZmFBL41 is linked to the disease.

They also found that two amino acid substitutions in ZmFBL41 can make maize accumulate more lignin and restrict the spread of lesions. Lignin is a complex organic polymer in the cell walls of many plants, making them rigid.

The researchers said their study revealed the mechanism of how R. solani targets plant cell walls for invasion and provides insight into developing R. solani-resistant crop varieties.
 
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How AI Is Modernizing Chinese Agriculture
Synced
Oct 12 · 4 min read

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Since ancient times China has been an agricultural country, with both huge demand for and large-scale production of a wide range of agricultural products. China’s per capita arable land area however is far less than the world average, and the quality of superior arable land is relatively small. According to figures from the World Bank and the National Bureau of Statistics, in 2016, China’s cultivated land area was 135 million hectares, accounting for 8% of the world’s total cultivated land; while the total population was 1.38 billion, accounting for 19% of the world population. Also, the farmland quality rate is low, which affects food production and the quality of agricultural products. Moreover, China’s agricultural sector is often seriously affected by natural disasters — causing average annual crop damage of nearly 20,000 hectares and grain production losses of 30–40 billion kilograms. This has motivated China to continuously develop new agricultural technologies.

In recent years frontier technologies such as AI, big data, IoT, and 3S technology (RS remote sensing technology, GIS geographic information systems, and GPS global positioning systems), have been aggressively deployed to accelerate the modernization of Chinese agriculture. These new technologies are being applied mainly in planting, animal husbandry, and agricultural services.

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Comparison of China and World cultivated land area per person

Cloud farming: high-tech assistant for precision agriculture

Modern precision agriculture techniques are applied to both small-scale and large-scale farming in China. The MAP (Modern Agriculture Platform) platform developed by China’s largest agriculture input enterprise Sinochem Agriculture is operational in seven provinces with varied weather and geography for the planting of the wheat, corn, and other crops. The system provides tailored seed suggestions before the planting season, and weather forecasts with a focused accuracy of one square kilometer to help with sowing, spraying, watering, and harvesting. The optimal type and amount of fertilizers and pesticides can also be calculated automatically corresponding to crop varieties and other considerations. Moreover, farmers can check real-time humidity and temperature conditions, and even receive pest and disease warnings on a smartphone via the MAP App.

Technical services for farmers

New technologies can also help by improving technical services. The Agricultural Technology Center of Kailu government in northeastern Neimenggu has developed a smartphone app for end-user technical services that provides local weather forecasts and remote observations, agriculture and animal husbandry E-education, pest and disease diagnosis, and expert video consultations. Farmers can also use the app to remotely observe the state of their crops, and for example to send photos of a discovered pest or disease to get feedback or suggestions. It’s also possible to make an appointment with an expert for a video consultation via the app, saving farmers from visiting a town or city for such services. Overall the app aims to provide farmers with convenient, efficient, and timely solutions.

Remote sensing and drone assisted agricultural insurance

AI technologies are also being applied by many Chinese insurance companies for on-site damage investigation and determination and to improve efficiency and reduce costs. In northwestern Ningxia for example, the Science and Technology Department has deployed a classification and extraction insurance software for local specialty crops Goji, melon, grape, and jujube. The remote sensing information model was developed by studying the relationship between the hyperspectral data of plants and domestic high-grade satellite images. The support vector machine based classification methods use disaster distribution surveys and other data as a basis for risk assessment and premium determination. The technique can reduce insurance investigation costs and streamline the claims process.

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Distribution of specialty crops in Zhongning, Ningxia. Blue: jujube; yellow: melon; red: Goji.

There are still a number of obstacles to the widespread deployment of AI technologies in agriculture. Although AI can bring many improvements and advantages, many farmers have taken a wait-and-see attitude, mainly due to the initial investment costs and doubts regarding the robustness of these new technologies.

The Chinese government has introduced measures to promote smart agriculture, starting with encouraging development of AI, 5G, and IoT to provide better technical solutions. Smart agriculture has been designated part of the national development strategy; new research institutes and databases for smart agriculture have been built; and more and more local governments are cooperating with research institutions and enterprises to provide informative lectures and technical support. The government also provides incentives such as tax breaks, loans and subsidies to encourage farmers to adopt the new agricultural technologies. China believes these policies and technologies can build a bountiful future for the nation’s farmers.

Author: Shuqing Chen | Editor: Michael Sarazen


How AI Is Modernizing Chinese Agriculture - SyncedReview - Medium
 
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Chinese researchers develop database for rice molecular breeding
Source: Xinhua| 2019-11-02 18:19:21|Editor: Lu Hui

BEIJING, Nov. 2 (Xinhua) -- Chinese researchers have developed a knowledge base for molecular breeding of rice to facilitate the breeding of different rice varieties.

With the development of genome sequencing technology, large amounts of genomic and phenotypic data have been accumulated in the fields of crop genomic research. The integration and deep mining of these data are key for crop breeding.

Researchers from the Institute of Genetics and Developmental Biology under the Chinese Academy of Sciences developed a database which integrates more than 7,000 sets of global rice re-sequencing data, large amount of rice germplasm resources information, as well as annotations of more than 13,000 rice genes, many of which are related to improved rice quality, disease-resistance and high yield.

The database also provides advanced online tools for germplasm screening, individual comparison and variation analysis.

The research also offers a reference for the database on the molecular breeding of other crops such as soybeans, wheat and corn.

The research was published in the journal Nucleic Acids Research.
 
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Harvesting genes to improve watermelons -- ScienceDaily
November 1, 2019
Boyce Thompson Institute

An international team of researchers has taken a comprehensive look at the genomes of all seven species of watermelon, creating a resource that could help plant breeders increase the domestic fruit's quality and ability to thrive during an era of climate change.

When many people think of watermelon, they likely think of Citrullus lanatus, the cultivated watermelon with sweet, juicy red fruit enjoyed around the world as a dessert. Indeed, watermelon is one of the world's most popular fruits, second only to tomato -- which many consider a vegetable. But there are six other wild species of watermelon, all of which have pale, hard and bitter fruits.

Researchers have now taken a comprehensive look at the genomes of all seven species, creating a resource that could help plant breeders find wild watermelon genes that provide resistance to pests, diseases, drought and other hardships, and further improve fruit quality. Introducing these genes into cultivated watermelon could yield high-quality sweet watermelons that are able to grow in more diverse climates, which will be especially important as climate change increasingly challenges farmers.

"As humans domesticated watermelon over the past 4,000 years, they selected fruit that were red, sweet and less bitter," said Zhangjun Fei, a faculty member at Boyce Thompson Institute and co-leader of the international effort.

"Unfortunately, as people made watermelons sweeter and redder, the fruit lost some abilities to resist diseases and other types of stresses," said Fei, who is also an Adjunct Professor in Cornell University's School of Integrative Plant Science.

As described in a paper published in Nature Genetics on November 1, the researchers made these insights using a two-step process. First, they created an improved version of a "reference genome," which is used by plant scientists and breeders to find new and interesting versions of genes from their specimens.

Fei co-led the creation of the first watermelon reference genome using an East Asian cultivated variety called '97103,' which was published in 2013.

"That first reference genome was made using older short-read sequencing technologies," Fei said. "Using current long-read sequencing technologies, we were able to create a much higher quality genome that will be a much better reference for the watermelon community."

The group then sequenced the genomes of 414 different watermelons representing all seven species. By comparing these genomes both to the new reference genome and to each other, the researchers were able to determine the evolutionary relationship of the different watermelon species.

"One major discovery from our analysis is that one wild species that is widely used in current breeding programs, C. amarus, is a sister species and not an ancestor as was widely believed," Fei said.

Indeed, the researchers found that cultivated watermelon was domesticated by breeding out the bitterness and increasing sweetness, fruit size and flesh color. Modern varieties have been further improved in the past few hundred years by increasing sweetness, flavor and crispy texture. The researchers also uncovered regions of the watermelon genome that could be mined to continue improving fruit quality, such as by making them bigger, sweeter and crispier.

In the past 20 to 30 years, plant breeders have crossed cultivated watermelon with the sister species C. amarus and two other wild relatives, C. mucusospermus and C. colocynthis, to make the dessert watermelon more resistant to nematode pests, drought, and diseases like Fusarium wilt and powdery mildew.

These types of improvements using wild relatives is what excites Amnon Levi, a research geneticist and watermelon breeder at that U.S. Department of Agriculture, Agricultural Research Service, U.S. Vegetable Laboratory in Charleston, South Carolina. Levi is a co-author of the paper and provided the genetic material for many of the watermelons used in the study.

"The sweet watermelon has a very narrow genetic base," says Levi. "But there is wide genetic diversity among the wild species, which gives them great potential to contain genes that provide them tolerance to pests and environmental stresses."

Levi plans to work with BTI to discover some of these wild genes that could be used to improve the dessert watermelon, especially for disease resistance.

"Watermelon is susceptible to many tropical diseases and pests, whose ranges are expected to continue to expand along with climate change," says Levi. "We want to see if we can bring back some of these wild disease resistance genes that were lost during domestication."

Other co-authors included researchers from the Beijing Academy of Agriculture and Forestry Sciences and the Chinese Academy of Agricultural Sciences.

The study was supported in part by funds from the USDA National Institute of Food and Agriculture Specialty Crop Research Initiative (2015-51181-24285), and the US National Science Foundation (IOS-1339287 and IOS-1539831).

In the same issue of Nature Genetics, Fei and colleagues also published a similar paper analyzing 1,175 melons, including cantaloupe and honeydew varieties. The researchers found 208 genomic regions that were associated with fruit mass, quality and morphological characteristics, which could be useful for melon breeding.

Earlier this year, Fei, Levi and colleagues published a reference genome of the 'Charleston Gray' watermelon, the principle U.S. variety of C. lanatus to complement the East Asian '97103' genome.

Story Source:
Materials provided by Boyce Thompson Institute. Note: Content may be edited for style and length.

Journal Reference:
  1. Shaogui Guo, Shengjie Zhao, Honghe Sun, Xin Wang, Shan Wu, Tao Lin, Yi Ren, Lei Gao, Yun Deng, Jie Zhang, Xuqiang Lu, Haiying Zhang, Jianli Shang, Guoyi Gong, Changlong Wen, Nan He, Shouwei Tian, Maoying Li, Junpu Liu, Yanping Wang, Yingchun Zhu, Robert Jarret, Amnon Levi, Xingping Zhang, Sanwen Huang, Zhangjun Fei, Wenge Liu, Yong Xu. Resequencing of 414 cultivated and wild watermelon accessions identifies selection for fruit quality traits. Nature Genetics, 2019; DOI: 10.1038/s41588-019-0518-4
 
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Chrysanthemum successfully planted at record-breaking altitude
chinadaily.com.cn | Updated: 2019-11-07 11:05
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Blooming chrysanthemum at the Beihai Park in Beijing. [Photo/IC]

Chinese researchers have successfully grown chrysanthemum at a record-breaking height of 3,000 meters above sea level in Qaidam Basin on the Qinghai-Tibet Plateau, Xinhua News Agency reported on Wednesday.

Researchers of Nanjing Agricultural University started an experimental plantation of various species of chrysanthemum last year in Ulan county in the east of the Qaidam Basin. The results showed that among the 151 species, 100 of them performed well in adapting to local climate conditions.

According to Wang Haibin, an associate professor at Nanjing Agricultural University and leader of the research team, the extremely cold weather (minus 20 degree Celsius) prevented the chrysanthemum aphid from surviving the harsh winter, which helped minimize the pests and disease challenges to the plants.

Based on the new set of technical standards developed by the researchers, chrysanthemum planting and processing has become an emerging industry promoted in Ulan county to boost local people's income.

The history of chrysanthemum research at Nanjing Agricultural University exceeds 70 years. There are over 5,000 chrysanthemum cultivars preserved in the university, the highest number in the world.
 
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