Trends Identified

Food and Water

By 2040, the global population is likely to increase to 8.8 billion requiring concomitant increases in the supply of food and water. Given that agriculture accounts for over 70% of global freshwater usage, the availability of food and water will be intimately related.181 Over 900 million people were undernourished in 2007. This represents a declining proportion of the global population, but in absolute terms is 80 million more than in 1990– 92, with the largest increases in Asia and in sub-Saharan Africa.182 Similarly, it is estimated that around 2.5 billion people live in regions suffering from water scarcity, predominantly in Africa, the Middle East, as well as Central and East Asia. Of these almost 900 million lack access to safe drinking water causing more than 5 million deaths per year. Fertiliser production is an energy intensive process, and the challenge, with a heavy reliance on science and technology, will be to produce more food on less land with less water, fertiliser and pesticides, while using less energy.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Minerals

Out to 2040, a range of new factors influencing availability and supplies of certain critical minerals will remain vulnerable to disruption. Demand for minerals is likely to continue to increase in response to population growth, continuing industrialisation and higher material prosperity. New discoveries allied to technological advances will provide sufficient reserves, such that accessibility, rather than availability, is the primary concern.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Global Economic Recession

The International Monetary Fund (IMF) considers there have been 5 global recessions in the last 30 years. Further global economic recessions will happen over the next 30 years, and governments are likely to respond to them with protectionist policies designed to shield their own economies and workforces. However, they are likely to temper the extent of such policies, to maintain the integrity of the international system for global trade and capital movements. In extremis, protectionist measures that cause the reversal of economic globalisation are possible.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

The Resurgence of Ideology

Religious belief will retain a significant influence on the vast majority of the global populace especially in the Americas, Africa and increasingly throughout Asia. Tension is likely between religious and secular groups. Strategic drivers such as economic recession, resource scarcity, social change and conflict are likely to contribute to the increasing significance of belief-based groups. Single issues may also emerge that divide opinion and forge identities, such as attitudes toward abortion, gender, the environment, religious law and the teaching of evolution.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Cyberspace

From a national defence perspective, a number of underlying themes emerge. Offensive cyberspace capabilities will be used to penetrate and attack electronic-rich systems, networks and infrastructure. Recognition of malign intent and attribution will often be difficult. As civilian and military environments become increasingly dependent on integrated networks, and with space-based assets exclusively relying on the electromagnetic spectrum to receive or transmit data, the impact of cyber-attacks is likely to range from incremental to catastrophic.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Space

Space divides into 3 communities of users: civil space, commercial space and security space. Much of the hardware is shared and the space launch industry supports all sectors, often simultaneously. Civil space encompasses pure science, such as astronomy, scientific applications, such as climate monitoring, and most manned space flight. The majority of commercial users provide services to terrestrial consumers through Satellite Communications (SATCOM), including broadcasting and satellite-based information systems, predominantly Position, Navigation and Timing (PNT) information. Security space incorporates military uses of PNT and SATCOM, state surveillance capabilities and uniquely military applications, such as nuclear detonation detection and missile launch warning. Space Situational Awareness (SSA), once principally the concern of security space users, is gaining importance in commercial space, as orbits become crowded and debris threat levels increase.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Ballistic Missile Defence

Over 5,000 missiles with ranges from tens of kilometres to several thousand kilometres are now distributed across more than 20 countries. Concerns regarding missile proliferation have prompted a re-evaluation of treaty constraints. Ballistic missile proliferation is likely to continue through indigenous development of missile technology by technically adept emerging powers, and the import and local adaptation of systems procured through international markets.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Novel Weapons

Out to 2040, the development and deployment of novel weapons is likely to become widespread. There is likely to be continuing demand for weapon systems to be tailored and adaptable, offering variable yields, detonation characteristics, degrees of precision coverage and reduced logistic burden. They will need the ability to defeat national strategic assets, infrastructure and forces in well-prepared defensive positions. This will often be in difficult terrain, such as the urban environment.

2010

Global strategic trends - out to 2040

UK, Ministry of Defence

Bio-technology

Biotechnology, genomics, and proteomics 1 are now major driving forces in the biological sciences and are increasingly being applied in the study of environmental issues, medicine and pharmaceuticals, infectious diseases, and modifications of food crops. Bio-technology has the potential to lead to sustainable solutions for a range of sustainable development issues. 2 or example, genetically modified organisms could help address food insecurity in developing countries, but their impact on ecosystems, human health and community values may need to be better understood to be considered a truly sustainable solution. 3 Experience has shown that deployment of such technologies needs to consider the local situations and possible trade-offs. 4 Synthetic biology is a field of great promise and possible dangers. Tailor-made medical solutions, gene therapy, technology disruption in the food industry, bio-engineered medicines, and precise bio-inspired drug delivery systems that target specific infected cells - together with stem cells - give many promises. However, if inappropriately used, it could cause irreversible changes to human health and environment. 5, 6, 7 Synthetic biology requires effective policies and frameworks to manage all stages of their life- time, including manufacturing, distribution and use, as well as safe disposal or where possible effective recycling. 8, 9, 10 New and emerging gene-editing technologies and their implications, benefits, and potential ethical problems for biotechnology and medicine have generated international scientific debate, with recommendations to establish norms concerning acceptable uses of human germline editing and harmonize regulations. 10 Genuine “human engineering” may not be far off in the future, when technologies related to gene-editing, stem cells and computational models of the human brain will be combined.

2016

Global sustainable development report 2016

United Nations

Digital Technology

Digital information and communications technologies (ICTs) have continued to rapidly advance. All parts of the world are now major users. Mobile phone ownership in Africa is now comparable to that in the USA, with about one connection per capita. Yet, while some digital gaps have closed, others continually open with the introduction of new technologies. In the context of implementing SDGs in Africa, information and communications technologies may play a role comparable to that of machines in the replacement of labour in the industrial age. 11 However, whereas the machines of the industrial era functioned as isolated and individual artefacts in one local environment, ICTs and knowledge creation exist as a hierarchy of networks that bring about innovations. 12, 13 Great technology potential has been accompanied by equally great concerns about social, political, economic and environmental impacts . The new fifth generation (5G) mobile phones enable vastly faster data connections than traditional phones. The “Internet of Things” is emerging and it interconnects physical objects to internet infrastructure. 3D printing enables the making of three-dimensional objects from a digital file, and together with robotics it has the potential to significantly alter the geographical distribution of manufacturing with important impacts on global labour markets and imbalances. “Big data” technologies transform the way governments, citizens, and companies do business, but they have led to concerns about erosion of privacy and freedom of expression. Similarly, wireless sensor networks have great efficiency potentials in many areas, but there are concerns about their impact on privacy, freedom and development. Big Data and the Internet of Things through the use of huge datasets and Internet-connected sensors potentially adds to the existing toolkit for sustainable development (e.g., in health, agriculture, food security, sustainable urbanization, etc.), but can also introduce risks related to data privacy and security. Because of cloud computing platforms that provide low-cost access to compute and storage capabilities as well as Free and Open Source Big Data and Internet of Things technologies, such technologies can serve as platforms for locally-relevant, pro-poor innovation without significant capital investments. However, this requires the requisite local talent to tailor solutions to local needs. National governments must also consider the limits of big data analysis (especially for causal inference and policy analysis), how such technologies can serve existing national development planning, regulatory frameworks for securing the rights of citizens with respect to privacy and security, and strengthening human capital and the larger ecosystem to effectively use such tools. 14 “Big data” has transformed the volume, velocity, and character of the information that we are able to procure regarding virtually every aspect of human life. 15 Online participatory tools increasing transparency and accountability in global sustainable development governance allow greater access to sharing of substantive information on the issues addressed by the civil society, international organisations and member states for realization of agenda 2030. 16 At the same time, the scientific community highlighted the idea that the most sustainable way to bring the deepest results of the digital revolution to developing communities is to enable them to participate in creating their own technological tools for finding solutions to their own problems. 17 120 | Global Sustainable Development Report 2016 3D Printing (3DP) can cost-effectively lower manufacturing inputs and outputs in markets with low volume, customized and high-value production chains. It could potentially help countries and regions that did not participate in the industrial revolution develop new manufacturing capabilities, especially for low volume, highly complex parts. Applications range from automobile and aerospace manufacturing to rapid-prototyping, healthcare, and education. Low cost consumer 3DP printers can help local people in developing and developed countries to produce a range of useful products, from basic assistive technologies to educational aids. For example, the projects of the Rapid Foundation in India and Uganda have shown that low cost printers are easy to build, use, fix or modify and are robust in remote locations. With expert training, anybody can become comfortable with using these printers in a few hours. 18 Further low-cost applications in science, education and sustainable development are detailed in a recent ICTP open book. 19 3D printing presents a number of challenges, including possibly disrupting existing manufacturing global value chains, decreasing labour demand for housing and construction, and potentially enabling the physical production of illegal 3D models that could pose both economic and security threats. There are potential environmental benefits (lower energy use, resource demands and CO 2 ), if 3D printing displaces existing transportation and logistics routes for shipping of goods and products. A recent study concluded: “ If 3DP was applicable to larger production volumes in consumer products or automotive manufacturing, it contains the (theoretical) potential to absolutely decouple energy and CO 2 .” 20 However, as 3DP is expected to remain a niche technology by 2025 reductions in energy and CO 2 emission intensities of industrial manufacturing could only be reduced by a small factor through 3DP by that date. Massive Open Online Courses potentially provide resource- poor regions and individuals more equitable access to world-class education content. Widespread global Internet access is impacting how we learn, as seen in the availability of various online learning platforms such as massive open online courses (MOOCs). 21 With low-cost replication of recognized content and education, personalized, self- paced learning, and interactive data-driven user interfaces, students potentially have access to material that previously would have been out of reach. However, MOOCs may not provide locally-relevant content tailored to a specific national context. Furthermore, MOOCs could replace the jobs of existing teachers and widen existing educational divides (i.e., providing a disproportionate advantage to individuals with access to the Internet and education). One nonprofit university based in Rwanda combines online learning content with in-person seminars to deliver degree programs that are locally-relevant, appropriately priced, and stimulate local employment. At this point, the potential impact of MOOCs requires more study, both globally in terms of existing platforms as well as of users in specific national contexts, along with implications for educational systems and employment. Optimal system use of radio, mobile phone, GIS and remote sensing technologies is considered vital for transforming rural populations. 22 The use of GIS to monitor an ever wider array of parameters at ever higher spatio-temporal resolutions allows us to consistently and constantly measure and monitor a huge array of environmental factors, allowing the enforcement of regulations, which would otherwise be impossible. 23, 24 Yet, data management remains a challenge for many countries, as they lack both skilled staff and technologies for effectively collecting or reporting reliable data. Many of the commonly used spatial database platforms are proprietary and are too expensive for many organizations in developing countries. 25

2016

Global sustainable development report 2016

United Nations