A matching grant enabled the Brazilian cooperative Coopervoltapinho to build a rice silo. All photos by Romeu Scirea.
Imagine driving along a rural road and seeing many small farms, all growing flourishing crops. Would you know how the farmers obtained the funds to plant these crops, enhance their productivity, and deliver them to market?
Last year, we showcased how Vietnamese farmers in the Mekong Delta are adapting to climate change. You met two shrimp farmers: Nguyen Van Khuyen, who lost his shrimp production due to an exceptionally dry season that made his pond too salty for raising shrimp, and To Hoai Thuong, who managed to maintain normal production levels by diluting his shrimp pond with fresh water. Now, let’s suppose Nguyen diluted his shrimp pond this year, another year with an extremely dry season. That would be a good start, but there would be other issues to contend with related to practical application. For example, when should he release fresh water and how much? How often should he check the water salinity? And what if he’s out of town?
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.
The corporate world is at the forefront of the tech-led transformation of the economy. The democratization of technology, whereby exponential cost reductions have allowed almost anyone to produce tech-based innovations, is disrupting core sectors of the economy.
Technology disruption is not confined anymore to the digital world. Data analytics, artificial intelligence, 3-D printing, robotics, sensorization, and an ever-evolving list of technology platforms have blurred the boundaries that once-protected physical ("brick and mortar") sectors, such as the hospitality, automobile, construction and manufacturing sectors.
Business as usual has not served companies in these sectors well. Traditional innovation models to create products and services do not match the pace and agility of competitive disruption from tech actors (e.g., large technology platforms with unbeatable access to data access and capital, such as Google or Amazon, and small and agile local startups). Thus, a new corporate innovation model, “Corporate Innovation 2.0,” is emerging.
The main characteristic of this new model is that it’s open by nature, as opposed to having a closed R&D process. Established companies tend to offer good structures for marketing, distribution, processes, scaling up products, etc., but, compared to start-ups, they often have a weakness in generating and rapidly applying creativity to develop new products and services.
Using open innovation techniques, corporations are trying to address this weakness by absorbing start-up innovation. We have seen three main types of mechanisms in this emerging model: corporate accelerators, competitions to generate new ideas, and co-creation with startups of new products and services.
World Bank Sri Lanka launched an online campaign titled #StoriesfromLKA during the month of June celebrating World Environment day “Connecting People to Nature”. The campaign included online interactions to learn about World Bank operations related to the environment and a photo competition to appreciate the natural beauty of Sri Lanka that needs to be preserved while Sri Lanka pursues a development drive.
This competition began on the 21st of June and aimed at showcasing the many talented photographers from Sri Lanka as well as celebrating the rich flora and fauna of the country. After the contest ended on June 30th, 167 entries were shortlisted. We asked you which photos were your favorites and you voted on your selections through social media. Your votes helped us narrow down the top three winners, here they are:
Infrastructure is expensive, important and difficult to get right. For both the members of the Organisation for Economic Co-operation and Development (OECD) as well as other countries, infrastructure exposes shortcomings in country systems that may undermine our ability to identify, develop and procure good projects that are sustainable, affordable and legitimate. But there is no alternative—businesses rely on modern infrastructure to remain competitive, and society depends on good infrastructure to ensure equal opportunity and access to services for citizens.
In response to this challenge, investors, regulators, members of the public and private sectors, and decision makers from across levels of government, expertise, and regions, gathered at the 2ndOECD Forum on the Governance of Infrastructure in Paris in March to discuss the impact of infrastructure governance on productivity, jobs and wellbeing.
As financial intermediaries tracking benchmarks grow in importance around the world, the issue of which countries belong to relevant international benchmark indexes (such as the MSCI Emerging Markets) has generated significant attention in the financial world (Financial Times, 2015). The reason is that the inclusion/exclusion of countries from widely followed benchmarks has implications for the allocation of capital across countries.
As institutional investors become more passive, they follow benchmark indexes more closely. These benchmark indexes change over time, as index providers reclassify countries, implying that investment funds have to re-allocate their portfolio among the countries they target. The capital flows generated by these portfolio re-allocations are important because worldwide open-end funds that follow a few well-known stock and bond market indexes manage around 37 trillion U.S. dollars in assets (ICI, 2016).
When it comes to education and human development, the Palestinian territories have traditionally outperformed countries with similar GNI per capita as well as its neighbors in the Middle East and North Africa region (figures 1 and 2). Despite facing one of the highest unemployment rates in the world and a severe lack of employment opportunities in the private sector, until 2010, Palestinian youth continued to invest in education.
Equipped with more education than any previous generation, young Palestinians are now moving into adulthood with uncertainty about what their futures might hold amidst a protracted risk of conflict and an economy with steadily rising unemployment.
For several decades, manufacturing in the automotive sector has made a strong contribution to spurring national growth, to promoting technology acquisition, and to raising incomes for workers across skill levels in developing economies as well as in developed nations. In India – the world’s sixth-largest producer of cars, where the automotive sector has been growing but at well below its tremendous potential – productivity levels would need to increase rapidly. A wave of autonomous functionality in vehicles and other technology-driven disruptions are not far away with the involvement of tech giants like Google, Tesla, and Uber. This makes the need to improve productivity in order to respond quickly to changing environments even more critical for traditional automakers.
Some long-awaited reforms in India to improve automotive manufacturing performance came through this year. In July, the Government of India implemented a unified Goods and Services Tax (GST) regime to replace the multiple taxes that had been levied, in the past, by the state and central governments. This makes for a more integrated market, with uniformity in tax rates where automakers will be helped by easier compliance, the removal of cascading effect of taxes and the reduction of the costs of doing business. Reinforcing this, the union budget allocation in February allows for more investments in roads and highways, farm-friendly policies and income-tax reform for the middle class. Those steps will increase demand for small passenger vehicles and for the farm-equipment segment. This is all good news for the automakers in India.
Still, much more needs to be done to increase overall productivity in this job-creating and technology-rich sector. According to a recently published report by the World Bank Group, entitled “Automotive in South Asia: From Fringe to Global,” productivity (measured by value added per worker) in India’s auto sector remains less than one-third the level of China. From 1993 to 2004, the growth rate of Total Factor Productivity in China’s automotive sector was 6.1 percent per year, compared to only 1.1 percent in India. The growth rate of labor productivity was 9.8 percent per year in China, compared to 3.1 percent in India. Even though India has been increasing production of units at 11 percent to 15 percent per year (from 2005 through 2015) , it could do much better on improving productivity levels.
Many of the world’s populations are vulnerable to climate shocks – to drought, flooding, irregular rainfall and natural disasters. For these countries, cities and communities, index-based insurance is a critical risk-management tool which allows victims of such shocks to continue to have access to finance and to build resilience against future risks.
Index, or parametric, insurance pays out benefits based on a pre-determined index for the loss of assets and investments as a result of weather or other catastrophic events. In contrast, traditional insurance relies on assessments of the actual damage.