Farming, being highly dependent on rainfall, soil health, and temperature, is most vulnerable to change in climate,” says Raj Paroda, former director-general of the Indian Council of Agricultural Research and a senior adviser of the Asia-Pacific Association of Agricultural Research Institutions (APAARI).
More than 2.2 billion people in Asia rely on agriculture to make a living, according to data from the Asian Development Bank. The region accounts for 90% of the world’s rice production.
Although climate change will improve thermal conditions for agricultural production in some areas, its negative effects on food security and overall agricultural development are more profound, including declining crop quality and yield, decreasing arable land quality, rising prices of water and fertilizers, and more crop pests and diseases.
“The projected climate change is likely to reduce agricultural production by 7% to 10% in the next decade (by 2030) and beyond, if no adaptation and mitigation measures are initiated seriously,” says Paroda, adding that climatic variability affects most of the processes that drive productivity of agricultural systems, including horticulture, livestock, and fisheries.
“Agriculture is not only the cause but also the solution to climate change-related problems,” Paroda says.
He says agriculture is contributing a significant share of the greenhouse gas emissions that are causing climate change – 17% directly through agricultural activities and an additional 7% to 14% through land use changes.
Due to China’s large population, the country’s per capita arable land and fresh water resources are much lower than the global average, according to Lam Hon-ming, a professor at the School of Life Sciences at the Chinese University of Hong Kong (CUHK). Lam is also the director of the State Key Laboratory of Agrobiotechnology, a CUHK partner laboratory.
“First-grade arable lands in China occupy less than half of total arable lands,” says Lam. “To boost and maintain crop yield, China has used a lot of fertilizers and chemicals in the field, posing a challenge to sustainable agriculture.”
The country’s total population is expected to reach 1.5 billion by 2030, and such an increase requires an extra 100 billion kilograms of grain to meet demand, according to China’s State Grain Administration.
Yet climate-related disasters account for the loss of 50 billion kg of grain in China every year, and climate change could further trigger uncertainties in the country’s natural environment, according to the China Meteorological Administration.
A US$313mil (RM52mil) project, funded by the Chinese government and the World Bank, is helping several hundred thousand rural households in six Chinese provinces adopt Climate Smart Agriculture to strengthen their resilience to climate change. As a result, yields of crops like rice and maize have all increased with better irrigation systems and improved soil conditions through technology.
In addition, farmers now enjoy more policy incentives as the country stresses modern agriculture. Financial support and training will be provided to develop a new generation of professional farmers and encourage the growth of a more diverse agriculture business, according to the State Council, China’s Cabinet.
China saw zero growth in chemical fertilizer and pesticide use in 2017. A total of 800,000ha of farmland have been covered by pilot programmes to rotate crops or to leave the land fallow for ecological conservation and sustainable production, with a target to reach two million hectares this year, according to national news agency Xinhua.
Shenzhen-based DJI, the world’s largest commercial drone maker, launched its first farm-specific drone, the MG series, in 2015 to meet the country’s demand for plant protection.
And other products such as its Phantom series high-end consumer drone have been used for agricultural science experiments, mapping, and data analysis, says Xie Tiandi, DJI’s director of communications.
Nearly 10,000 drones had been put into operation in China’s agriculture sector as of September 2017, according to a report by online agriculture magazine Enongzi.
In a test by DJI, an MG-1P agricultural drone could spray about 90 mu (6ha) per hour, 90 times faster than a human.
Compared with ground spraying done manually, using agricultural drones for plant protection can save on pesticides and water usage, by 50% and 90%, respectively, Xie says. Separating humans and pesticides also greatly improves safety for farmers and workers.
Xie says technology companies can play an important role by providing products and services that are both cutting-edge and affordable for the industry.
For example, the MG series has reduced the unit price of a plant protection drone from more than 100,000 yuan (RM62,000) to as low as 29,999 yuan (RM18,000), which is much cheaper than many agricultural automation devices, says Xie.
DJI, through its Unmanned Aerial Systems Training Center, offers training courses for plant protection. The company has also supported training provided by professional service teams for plant protection and even local agricultural materials stations.
“Geospatial technologies like drones, satellite remote sensing and artificial intelligence (AI) play an important role not only in China but everywhere,” says Paroda from APAARI.
“China is much ahead in most of these (geospatial and AI technologies) – other countries need to learn from these initiatives,” says Paroda, suggesting that a regional platform for community-supported agriculture could be formed to help other Asian developing nations to move forward at a faster pace.
But imparting technological advances to aging farmers in Asia can be challenging.
“There is a huge gap between existing technologies and farmers that can apply them,” says Vanessa Teo, founder, and CEO of the Brunei-based startup Agrome IQ, which provides agricultural business intelligence and data analytics.
The company aims to support farmers through the decision-making process to plan for an efficient and profitable farm.
“To ensure food security for nine billion people by 2050, farms will need to be more resilient to climate uncertainty, and data will play a huge role in the process of farm optimization,” says Teo.
Currently, Agrome IQ’s platform collects specific data such as soil, genetics, and weather then provides information to support the farm management process.
“With our platform, farmers will have a step-by-step guide on how to grow their crop instead of relying on general information from a variety of sources, and also we provide a tracking system … to ensure the resources are efficiently allocated to the farm,” Teo says.
The company also offers educational technology programmes to cultivate innovation-based future farmers. The curriculum has been integrated into international schools and agricultural vocational training schools in Brunei, and Teo hopes to expand the platform to other member states inAsean, as well as the Chinese mainland and Hong Kong.
As Asia has a high concentration of smallholder farmers, Paroda says it is important to ensure they have access to new knowledge and technologies.
“Science, technology, and engineering will continue to play a major role,” says Lam at CUHK. “Science will help to pinpoint problems and predict the consequences.”
Source: Star 2 | 29 June 2018