The 4th Industrial Revolution is here: driverless cars, 3-D printing, and Artificial Intelligence are the future. These innovations deliver the promise of better and more convenient lives to many. But they also disrupt the way in which we used to do things, including the way we work.
Information and Communication Technologies
Some people think innovation is only about gadgets, high-tech industries, and laboratories. But this is only the tip of the iceberg! The truth is that there are many types of innovation that can have a transformational impact on everyday people’s lives.
Over the last two weeks, we’ve witnessed three hurricanes in the Caribbean and Gulf of Mexico as well as a magnitude 8.1 earthquake in Mexico, killing people and destroying homes. They serve as a reminder that natural hazards pose a greater threat to our lives and livelihoods than we may think.
Libraries Without Borders (BSF), an international organization that expands access to information, education, and cultural resources to vulnerable people around the world, knows that very well.—ones that can help vulnerable people and communities better prepare for, and recover from, disasters.
In 2010, BSF was building libraries in Haiti when the well-known earthquake struck. At the time, local partners asked BSF to help them create information and cultural access points in refugee camps. This experience led to the development of the “Ideas Box," an innovative tool that provides vulnerable communities in disaster-prone areas with access to information, education, and cultural resources.
Last week, on the International Literacy Day, I talked to BSF’s Director of Communications and Advocacy, Katherine Trujillo, about the Ideas Box, as well as how their innovative ideas and actions have helped promote literacy and build resilience in disaster-hit communities.
“I walk through three farm plots of my fellow farmers every day to examine the crop growth and occurrences of pest attacks or crop failure. I send photo alerts via my smart phone to Cropin, which sends an advisory within a few minutes to remedy the problem, said Pratima Devi, a climate smart village resource professional in Manichak village in the Barachatti block of Gaya district in Bihar, India.
Cropin Technology Solutions Pvt. Ltd, a private software and mobile apps company, has developed digital applications to advise farmers on ways to achieve optimal harvests, depending on weather conditions, soil and other indicators. In less than a month, Pratima Devi completes a visit to all the farm plots in her village that are registered to get agro-advisories. “Women farmers appreciate my efforts and have started trusting my advice because they see a positive difference on their farms,” she adds.
Ramchandra Prasad Verma has the status of a master trainer of climate-smart village resource professionals in the same Barachatti block. He succinctly explains how data on weather parameters, such as rainfall, temperature and humidity, provided by the Automatic Weather Station (AWS), which was installed by another private Indian company, Skymet, helps farmers make smarter decisions in the village. “When the AWS shows temperatures of 35-40 degree Centigrade, farmers will wait for cooler temperatures before transplanting paddy mat nurseries into the field. Otherwise, there is a fear of losing crops in high temperatures”, said Verma. Earlier farmers relied on traditional wisdom alone, but now digital information can help them make faster and better decisions on the times of sowing and harvesting.
When Verma was a village resource professional, he had raised the maximum number of alerts in Bihar and received many advisories from Cropin on sowing, soil health, seed treatment, and weather forecasts that benefitted farmers. Over time, he developed skills to interpret technical advisories, train farmers to apply information on their fields, and interact with Cropin and Skymet professionals, which earned him the status of a master trainer.
Developing resilience in agriculture to regular weather shocks in the short-term and to climate change in the medium- to long-term is one of the biggest challenges facing Indian farmers today. Large-scale pilots are being implemented in four districts of Bihar and Madhya Pradesh to test the effectiveness of digital apps to generate climate resilient solutions for farming needs. This was made possible through a public-private partnership between the State Rural Livelihood Missions in Bihar and Madhya Pradesh with Cropin Technology and Skymet. These pioneering digital tools are being developed and utilized as part of the Sustainable Livelihoods and Adaptation to Climate Change (SLACC) Project associated with the Government of India’s National Rural Livelihoods Project (NRLP).
Technology and the internet are probably the first things that come to mind when you think about the future of work for young people; not agriculture or farming. This makes historic sense, as agriculture sheds labor when countries develop. And the traditional ways of producing food do not look particularly sexy. Yet, technology and the internet are also opening up opportunities for agriculture, and urbanization and changing diets are calling for new ways to process, market and consume our foods. So, can agriculture provide job opportunities for youth?
Everyone agrees that conflicts impose huge costs on economies, including massive destruction of infrastructure and housing, disruption of trade, transport and production, not to mention the loss of lives and widespread human suffering. Yet quantitative estimates of these costs are hard to come by.
Nguyen’s story illustrates some of the problems global agriculture faces, and how they unfold for farmers on the ground. Rapid population growth, dietary shifts, resource constraints, and climate change are confronting farmers who need to produce more with less. Indeed, the Food and Agriculture Organization (FAO) estimates that global food production will need to rise by 70% to meet the projected demand by 2050. Efficient management and optimized use of farm inputs such as seeds and fertilizer will be essential. However, managing these inputs efficiently is difficult without consistent and precise monitoring. For smallholder farmers, who account for 4/5 of global agricultural production from developing regions, getting the right information would help increase production gains. Unfortunately, many of them still rely on guess work, rather than data, for their farming decisions.
This is where agriculture can get a little help from the Internet of Things (IoT)—or internet-enabled communications between everyday objects. Through the IoT, sensors can be deployed wherever you want–on the ground, in water, or in vehicles–to collect data on target inputs such as soil moisture and crop health. The collected data are stored on a server or cloud system wirelessly, and can be easily accessed by farmers via the Internet with tablets and mobile phones. Depending on the context, farmers can choose to manually control connected devices or fully automate processes for any required actions. For example, to water crops, a farmer can deploy soil moisture sensors to automatically kickstart irrigation when the water-stress level reaches a given threshold.
- Climate-Smart Agriculture
- agricultural risk
- climate risk
- digital innovation
- Disruptive Technologies
- digital connectivity
- digital revolution
- Internet of Things
- food security
- Food Production
- Sustainable Communities
- ICT in Agriculture
- Climate Change
- Information and Communication Technologies
- Agriculture and Rural Development
- East Asia and Pacific
The availability and quality of such agriculture risk information is hugely important for farmers, and the potential impact of bad information can be quite costly, leading the farmer to make wrong decisions and eventually lose revenue. Information systems that have unreliable sources and/or poor data processing protocols, produce unreliable results, no matter how complex the data processing model is. In other words, one can have “garbage in – garbage out.” Information is integral to agriculture risk management, not only in the short term to hedge against large adverse events, but also in the medium and long term to adapt to climate change and adopt climate smart agriculture practices. Climate-smart agriculture programs and agriculture risk management policies are toothless unless farmers have reliable information to implement changes on the ground.
Investing in agriculture risk information systems is a cost-effective way of making sure that farmers--and other actors along the food supply chain-- make the right decisions. But agriculture risk information systems in most countries suffer from lack of capacity and funding. Mexico, a country with an important agriculture sector, does not have information on market prices of agriculture products like maize, which is why a new Bank project aims to strengthen their capacity in this area. Mexico is not alone. Argentina solved this same problem recently with World Bank support, creating a market price information system for basic grains.
The Kingdom of Bhutan is a landlocked country located high in the eastern Himalayan mountain range with its population 760,000. Up until about 20 years ago, the country was isolated from the world; Bhutan’s first ever television broadcast occurred in 1999. Since then, information communications technology (ICT) has made rapid advancement. Mobile subscriptions increased from 0.4 per 100 people in 2003 to 87 in 2015. The proportion of people using the internet have increased from 0.1% in 1999 to 40% in 2015. Today, all 20 districts and 201 (out of 205) sub-districts are connected through fiber optic cables.
The World Bank’s 2016 World Development Report on “Digital Dividends” argues that digital technologies have boosted growth, expanded opportunities, and improved service delivery. Use of ICT for development is especially applicable to small states with populations of less than 1.5 million. Another report, “World Bank Group Engagement with Small States” finds that ICT investments can help reduce economic isolation, lessen barriers to trade, promote tourism, and improve mobility. These messages are highly relevant to Bhutan today.
The Government has enthusiastically adopted the use ICT to improve its services to its citizens as described in Bhutan ICT Roadmap and Bhutan E-Government Masterplan. The Government to Citizen (G2C) program, launched in 2005, provides a one-stop-shop for more than 100 services such as procuring a passport. The national ePayment Gateway Infrastructure, established by the Royal Monetary Authority (RMA), the central bank, has enabled citizens to pay for some public services online. Recently, the National Land Commission (NLC) launched eCitizen Portal - an online one-stop shop for transferring property titles online. This has reduced the number of days to transfer ownership of a property from 90 days to 62 days in the capital, Thimphu. More importantly, the NLC is reaching out to the private sector to seek feedback on how to improve its usability by piloting a feedback survey using an Interactive Voice Response (IVR) tool for the first time in Bhutan. The government has also introduced an electronic government procurement system (e-GP) to make optimal use of resources. Given the size of the budget (exceeding 30 percent of GDP), the adoption of e-GP will contribute to effective use of public resources. The World Bank Group has been supporting these efforts through various instruments such as the second Development Policy Credit: Fiscal Sustainability and Investment Climate, which helped get the eCitizen Portal off the ground.