The Nobel Prize for Peace (https://www.nobelprize.org/prizes/lists/all-nobel-peace-prizes/) has been awarded 100 times to 134 Nobel Laureates between 1901 and 2019, 107 individuals and 27 organizations. Among the International organizaions: Red Cross that got the Prize three times (in 1917, 1944 and 1963), the United Nations High Commissioner for Refugees got it two times (in 1954 and 1981), the Intergovernmental Panel on Climate Change (IPCC) and Albert Arnold (Al) Gore Jr. (2007), International Atomic Energy Agency (IAEA) and Mohamed ElBatadei (2005). These are some examples, in the same manner, we can argue that BBC and Sir David Attenborough would also be excellent candidates that deserve the Nobel Prize for Peace.

The world was just waiting for this incredible event of Sir David Attenborough to join the Instagram. It is just to use Instagram as amplifier for lifting-up biodiversity as an important part of ‘Life on Our Planet’. In just few days his Intagram Account went viral (https://instagram.com/davidattenborough?igshid=11ay0osmkukkp) with millions of followers and more to come. It is as he has an important message to us. The power of social media can hardly be ignored anymore even by highly educated professionals and politicians. What is more important is the content of social media channels that keep improving as more and more are becoming dependent on them and critical voices continue to add new dimensions as ‘survival of the fit’ is becoming an evolution and the norm for progress on the Internet. With the rise of the Internet (https://en.m.wikipedia.org/wiki/Internet) and the boom 🤯 of social media (https://en.m.wikipedia.org/wiki/Social_media) it is crucial to underline that quality of the content is being recognised more and more by the users. For a great portion of us, that can’t afford regular schooling and/or the expensive higher education, the social media channels are becoming an important source, if not the only source, of knowledge. Classical, conventional and international broadcasting channels (https://en.m.wikipedia.org/wiki/International_broadcasting) aren’t the only standard source of information and knowledge for many of us as they used to be. Though these trends, the global education systems, including higher education, are still closed systems as they don’t necessarily serve, i.e. the needs, the majority of the world population but rather an elite minority, as in football and other sports. Education, knowledge and knowledge transfer are imperative also as tools for public awareness, to share the responsibility, and not necessarily as a passport to the labor market that still support growth/linear economy. Universities and higher education institutes still lack efficient tools to reach out to the normal citizens, mediate knowledge and come near the society through tight engagement and active interactions. This is also the case for public education funded by taxes. Though the extreme importance of education institutes, in particular higher education, they still use ‘business-as-usual’ strategies without enough outreach policies to mediate and advocate knowledge to the public for protection and preservation of our common natural resources. This is the third duty of the universities and not only to perform pure ‘Research and Education’ that still can’t cope to solve existential problems as climate and environment changes, and the collapse in biodiversity, also to offer the necessary services to the citizens in major health disasters and pandemics as COVID-19. This is partly because universities and higher education continue to fail in creating partnership for goals neither with the citizens nor with the politicians as these are also part of their responsibilities, i.e. not to be isolated from the society and live on their own.

Sir David Attenborough and BBC achieved what the world universities failed to do, i.e. communicate science and technology in pedagogic and simple way, to inspire and motivate people, specially the young ones. To raise biodiversity as equally important, as climate change what regards our survival on planet Earth, is without hesitation an outcome of the work of Sir David Attenborough and through the systematic and continuous support of BBC (https://www.google.se/search?q=david+attenborough+nobel+prize&ie=UTF-8&oe=UTF-8&hl=sv-se&client=safari). This is why they are very well placed to be nominated for the Nobel Prize.

Professor Anders Wörman is the Head of division for Resources, Energy and Infrastructure, The Royal Institute of Technology, Stockholm (https://www.kth.se/profile/worman).

His research interest spans over wide-range of trans-disciplinary and trans-sectorial areas in engineering sciences and technology within water resources, hydrology and environmental hydraulics. Ongoing research are due to water and energy availability in terrestrial hydrology, effects of climate fluctuations and landscape changes on runoff, hydropower regulation, extreme flows in rivers and safety of embankment dams. His skill and expertise include: environmental impact assessment; water quality; water resources management; engineering, applied and computational mathematics; hydrological modeling; rivers; civil engineering, hydrologic and water resource modelling and simulation; water balance; waterfall runoff modelling; aquatic eco-systems; surface water geo-statistics; contaminant transport; groundwater penetration; radar and climate change impacts.

Professor Wörman was co-founder and the first manager of the undergraduate educational programme for Environmental and Aquatic Engineering at Uppsala Univ. before being chair prof. at KTH. KTH has dedicated research programmes in Applied Sustainability. One of such programmes is oriented towards finding customized solutions to develope sustainable and resilient technical applications that are climatically and environmentally suited for Africa (https://www.kth.se/en/om/internationellt/projekt/kth-in-africa/africa-1.619441). It is interesting to mention that the world longest river, the Nile, spans over large catchment areas that are located in different climatic/weather (spatio-temporal variability in temperature and precipitation) zones (http://atlas.nilebasin.org/treatise/nile-basin-climate-zones/). These special features of the Nile call for technologies that can cope with climate-environment changes of both natural and man-made origins. Combination of natural and man-made climate changes will certainly induce severe constraints and limitations on what, why and how ‘Water, Energy and Natural Resources (fossil and mineral deposits, eco-systems and biodiversity)’ Nexus need to be carefully accessed on long-term and large-scale bases. In this context, Prof. Wörman has trans-disciplinary and trans-sectorial knowledge suited to handle the complex, inextricable and multi-layered interactions within and between Water, Energy and Natural Resource Systems. These interactions are imperative to understand of coherent and resilient coupling with the Socio-Economic-Environment ‘SEE’ aspects in communities living in river-catchment systems in Africa. These issues are of special interest as river-systems are the dominant landscape units with huge importance for preservation and protection of renewable and fossil resources.

We are delighted to have Professor Bengt, Carlsson at Department of Information Technology, Division of Systems and Control, Uppsala Univesity, on the Editorial Board of sustain-earth.com. As Prof. Bengt Carlsson put it in his words “Treating wastewater is great, but making the treatment resource-efficient is even greater”. Among the expertise of Professor Bengt Carlsson: energy efficiency; automatic control system identification; sustainable development; and wastewater engineering.

Sweden has been been a pioneer in water quality and water cleaning both what regards natural and urban waters. However, the digitalisation is now part of production, use and consumption of water worldwide as the pressure on water resources increased enormously and still accelerate. Here, we give an example on The UK Digital Water Utility Experience (https://youtu.be/V8DEAy3o0S8).

What are the greatest challenges for water and wastewater treatment today?
Some of the greatest challenges for water and wastewater treatment today is the contributions of pharmaceuticals that has increased pollution loads on environment. One challenge, is therefore, to effectively separate such residues in treatment plants and another is to cope with achieving climate-neutral wastewater treatment plants.

This post will be further updated and revised very soon.

An international Editorial Board in under construction to empower sustain-earth.com and to scale-up and scale-out Science, Technology and Innovation ‘STI’ for promoting and implementing the UN-SDGs, i.e. Socio-Economic-Environment ‘SEE’ aspects of human life on planet Earth.

It is a great honor to have Dr. Mikael Höök, Associate Professor, Department of Earth Sciences at Uppsala University (https://katalog.uu.se/profile/?id=N5-943) to join the Editorial Board of sustain-earth.com. Being pioneer in global energy systems, Dr. Höök leads the research group ’Global Energy Systems’, Natural Resources and Sustainable Development Programme. He has interests in popularization of science and research in energy systems, and bridging them to socio-economic-environment policy-making.

He has a PhD with specialization in global energy resources. His research deals with availability and production of fossil fuels with focus on oil and coal, but also supply of other natural resouces such as lithium and other raw materials for clean/green energy technologies. His research interests include also quantitative modelling of energy systems, fossil fuel production, field-by-field analysis, and long-term supply of natural resources. He is also very interested in wider issues like energy systems developments, resource depletion, energy security, climate impacts and sustainability. Currently, he leads several research projects focused on global oil supply outlooks and resource supply for energy transitions. He also teaches courses focusing on energy systems, energy security analysis, natural resources and sustainability. He is a lifetime member of International Association of Mathematical Geology and Geosciences (IAMG) and HP Lovecraft Historical Society (HPLHS).

Follow some interesting topics on global energy issues addressed by Dr. Höök in the ’Evolution Show Podcast’ by Johan Landgren (producer and host). The Global Energy Trends, Part II (https://youtu.be/DdmVr4rTUGw): Strait of Hormuz and Iran’s role in the energy market will follow Part I on Global Energy Trends (https://youtu.be/DdmVr4rTUGw) dealing with Oil Addiction and US shale boom; how would we be able to build a sustainable future without fossil fuels?

The ‘ICT’ Information Communication Technology has enormous impacts and caused huge changes in our lives and on all levels, this is however specially true in the developed world. Meanwhile, the heterogeneity, what regards accessibility, affordability and diffusion of modem ICT, is still a worldwide issue. The majority of people in the developing world still suffer from serious inequalities which indeed sets major constraints in many life situations. In this context, the UN-SDGs, including targets therein, represent the intertwined relations and the increasing complexity of the socio-economic-environment aspects in modern societies. The UN-SDGs is an inter-connected package of interactive goals all of it have multi-layered dynamics with continuous and tight feedback impacts within and between each other. They have to be promoted and implemented in parallel and coherently, and above all to operate in phase with each other. Delayed effects in the function between and within the goals can have unprecedented consequences for major groups in societies as is presented here.

COVID-19 has clearly demonstrated, for example, how education is being severely affected in many countries (https://www.un.org/development/desa/dspd/wp-content/uploads/sites/22/2020/08/sg_policy_brief_covid-19_and_education_august_2020.pdf) where the teachers and students became incapable of performing their activities as in normal situations. Many indeed were left behind and still. During the course of the COVID-19 pandemic, the UNESCO came with initiative against the COVID-19 “NO TEACHER OR STUDENT SHOULD BE LEFT BEHIND” as proposed by the Chairperson of the Executive Board of UNESCO. As we didn’t have enough room for preparedness on how to meet the pandemic, the UNESCO initiative provided little solutions to promptly help the situation but it paved the way on how to tackle similar situation in the future, specially the second wave of the pandemic which already started in some countries. The impacts of COVID-19 are devastating to the fabrics of life, in general, as we know it, particularly on the education systems in the developing countries. According to UNESCO, some 107 countries implemented nationwide closures of schools by 18 March 2020, in response to the pandemic. This affected over 861.7 million children and youth, i.e. about 45 per cent of the global population of children and youth in schools or according to latest figures up to 78% of global population of school children and youth. Almost a whole generation in the developing world became at risk over night. In the coming second wave if this isn’t dealt with on time, this unprecedented situation could lead to the collapse of school systems in many developing countries as the local governments can’t cope with such enormous consequences of the virus.

The UNESCO initiative focuses specifically on providing a concrete, meaningful and timely response to the unprecedented crisis that the coronavirus is inflicting on the education system in the developing world.
Its objectives were/are: (1) to generate extra-budgetary funds from the World Bank, IMF, regional banks, governments, NGOs, public and private donors, and other voluntary supports; (2) to provide urgently needed funds to schools in developing nations in order to permit the payment of two to three months salaries to teachers; (3) to assist schools to adapt their working methods to enable students to pursue studies under confinement; (4) and to revalue the teaching system/profession in the developing countries (https://en.unesco.org/sites/default/files/no_teacher_or_student_should_be_left_behind.pdf).

As an example, we can see the case of South Africa and how the digital inequalities in e-learning, in their complex education system, has impacted pupils specially those who come from disadvantaged backgrounds, e.g. the rural communities. We can name some different reasons for the complexity, which also apply to many other countries in Africa. Language is one, most pupils don’t speak English, as a mother tongue while the official language dominating many classrooms is English. French, for example, is still a dominant language in other African countries while the population in general may have different mother tongues or dialects. Also, the effects of the virus have kept pupils and teachers at home. While e-learning is the solution, the reality in South Africa, as in most developing countries, is very different. Teachers have varying digital skills and many families and teachers cannot afford the systems necessary to sustain some online learning activities. COVID-19 has shown that technology is not anymore a luxury but rather an important component of the education process. However, we still define poverty in conventional ways ‘business-as-usual’ even in world organizations such as IMF (International Monetary Fund) and the WB (World Bank).

In presenting solutions, a wide range of factors must be considered. These range from access to computers, to teacher training, to the social and economic challenges faced by teachers, pupils and schools in their communities. Though Information and Communications Technology ‘ICT’ is taught as a school subject, the government needs to consider an additional range of issues to solidify its commitment towards e-learning. This includes policies and strategies surrounding connectivity, data costs, skills development, hardware access as well as contextual multilingual digital learning content. Many schools still have little or no technology facilities, e.g. tablets and advanced computing systems. Formal training in applied technical skills needs to be extended to all teachers. Adequate digital skills training should become a mandatory component of all teacher training programmes in universities, universities of technology and colleges. Another obstacle is the cost of data-transfer which is among the highest in Africa.This means that pupils can’t always easily access information on their mobile phones. In fact, when pupils and teachers receive the right support for digital learning, the response is often remarkable. Many teachers can willingly dedicate their weekends and school holidays to digital learning and teaching, with no financial incentives. There is also bright spots of collaboration between computing students from the University of the Western Cape with teachers in a high school in an underprivileged part of Cape Town. Their work together has cultivated computing skills and sparked learners’ interest in other subjects like chemistry and astronomy. To know more about the problems of e-learning under the constraints caused by COVID-19 in South Africa see this reference (https://theconversation.com/how-south-africa-can-address-digital-inequalities-in-e-learning-137086).

Historical texts from Spain, Italy, the Middle East and Egypt revealed how lustreware, pottery, batteries, steel swords and hair-dyeing were using nano-composites generating metal-glass and metal coatings on surfaces in different ways to produce impressive products of exceptional quality with enhanced material’s properties (https://www.theguardian.com/nanotechnology-world/nanotechnology-is-ancient-history). Damascus steel swords from the Middle East were made between AD300 and AD1700 with impressive strength, shatter resistance and exceptionally sharp cutting edge. The blades contained oriented nanoscale wire-and-tube-like structures with exceptional qualities. Pottery across the Renaissance Mediterranean was often decorated with an iridescent metallic glaze of colour and sheen down to nanoparticles of copper or silver.
Ancient Egyptian hair-dyeing, dating to the Graeco-Roman period, was shown to contain lead-sulphide nanocrystals of 5 nanometre diameter (https://neurophilosophy.wordpress.com/2006/09/06/the-ancient-egyptians-used-nanocosmetics/).

Though craftsmen were highly skilled to produce such materials that by modern definitions falls under nanotechnology they didn’t not know that they were working on the nanoscale. Such amazing inventions from ancient times dated back to thousands of years are numerous examples of ancient technology that leave us awe-struck at the knowledge and wisdom by the people of our past. They were the result of incredible advances in engineering and innovation as new, powerful civilizations emerged and came to dominate the ancient world. Many of such ancient inventions were forgotten, lost to the pages of history, only to be re-invented millennia later. Among the best examples of ancient technology and inventions are: 2000-years-old metal coatings superior to today’s standard; 2000-years-old Bagdad battery; 1600-year-old Roman artisans of impregnated glass with particles of silver and gold; the Assyrian Nimrud lend of the oldest telescope; the steam engine by the Hero of Alexandria and many more (https://www.ancient-origins.net/ancient-technology/ten-amazing-inventions-ancient-times-001539).

In a series of posts we will explore why the 21st century will be prosperous for Africa. Indeed, there are various reasons to predict why Africa will continue to shine more and more though the threats that climate change, including global warming, will hit Africa more than other continents (https://en.m.wikipedia.org/wiki/Climate_change_in_Africa). Naturally there are other threats that so far hindered Africa from faster developments as compared to the rest of the world, specially that the history of Africa is very much different. Here is a list of key factors, among others, about the ongoing tectonic changes and drivers that will bring a lot of positive socio-economic impacts in Africa.

– African identity, slavery and colonialism distorted her identity and disoriented her values. However, Africa was not the only continent that suffered colonization. The concept of African identity has changed are still changing relatively fast specially with the growing restrictions in migration.

– African independence, decolonization and transition to independence characterized the past century and national identities in many parts of Africa are gradually emerging.

– Large-scale infra-structures, there are mega projects taking place in Africa (the case of Egypt participation in partnership for goals, Goal 17 of UN-SDGs) such as developing its transport systems to connect the continent from the very north in e.g. Egypt to its very south, South Africa, also from the west to the east (https://www.egypttoday.com/Article/1/77914/Egypt-launches-32-projects-in-Africa-in-1-year-report). One example is the enormous use of smart phones technology in trade, business and finance.

– Coupling rural to urban regions, this among key and important issues in the development of Africa as 70% of African are living in rural Africa and producing 70-80% of agricultural outputs.,

– African Union, AU is a continental body of the 55 member states that make up the African Continent. It was officially launched in 2002 as a successor to the Organisation of African Unity (OAU, 1963-1999).

– Human resources, population growth and youth, towards 2100 the population of Africa will peak to about 40% of the world population with very high percentage of youth.

– Natural resources Africa is abundant with natural resources including diamonds. gold, oil, natural gas, uranium, copper, platinum, cobalt, iron, bauxite and cocoa beans. This is of course in addition to its amazing biodiversity.

– Generation shift, new generations and leaders are currently shaping and reshaping Africa, combating corruption, enhance good governance and transparency and taking advantage of modern technologies, e.g. ICT, IOT, crowdfunding, protection of natural resources, also in the energy, agriculture, farming, tourism and other sectors.

– Security, many African countries are becoming more aware about the improvement of national integrity and internal security and safety of population specially that Africa has a complex diversity of ethnic groups. Remarkable developments in safety in Africa took place and still the focus of the African countries.

– Biggest market in the world, the needs of Africa will make it one of the biggest market in the 21st century. There is diversification and expansion the economy and trade both internally and with the rest of the world including Europe and Asia. This will generate tectonic changes in international trade, business, transport and mobility in labor and services.

– Global investments. Based on data through 2017, France is the largest investor in Africa, although its stock of investment has remained largely unchanged since 2013, followed by the Netherlands, the United States, the United Kingdom and China. Geographically Europe and Asia can be linked through North Africa and the GCC countries.

– UN-SDGs the world has created a global agenda for promoting and implementing sustainability which Africa will benefit considerably from it. UN-SDGs and involved targets for developments are key issues that are shaping policies and strategies to cope with poverty, hunger, gender, inequalities, education quality, health, water and sanitation, energy, strong institutions, life quality, biodiversity, ……. etc.

Though many journeys and expeditions were done to discover the secrets of the Nile, very few of them, if any at all, touched upon the diversity of life, traditions and cultures of the Nile people. The Nile people have deep rooted love and worship for the Nile and its waters for thousand of years. The Nile and its waters meant, still mean and will continue to do so for generations. The life of the Nile people is as complex as evolution and history of the Nile itself. In this context, the socio-economic performance of the people of the Nile is very central and crucial for finding sustainable and peaceful ways to share such magnificent gift of nature. These indeed, are parts of wicked conflicts of how to put such enormous diversity in political agreements for lasting harmony in the Nile Basin as a whole. This is also the case of the rest of Africa as rivers and their catchments are basic landscape units of existential importance for the livelihood of the African population. However, vast regions of Africa don’t enjoy surface water resource or rain and other alternatives are imperative such as groundwater, desalination and water reuse. In most cases we need to think in 3D-solutions that couple surface water with groundwater and also to understand the long-term consequences of water production, use and consumption on the landscape level on longterm and large-scale levels. This can be simple to say if such resources were infinite, however water scarcity in Africa is the highest in the world yet major threats are emerging due to climate change, growing population, increasing diversification in economy, acceleration of urbanisation and industrial activities with all consequences of growing waste and pollution. The search for how such transboundary solutions of the water resources to be shared is a major political issue. All of this come in the time of today’s very rapid and fast growing ’diversification’ of the socio-economic-environment conditions needed for the ongoing transformation to sustainable societies.

Joanna Lumley’s journey, in search for the very source of the Nile, by being the longest river in the world, comes with very interesting introduction on the cultural diversity of the life and livelihood of the population in the Nile Basin. Among the amazing issues is the longstanding socio-economic diversity that shaped the life in the Nile Basin for thousands of years ranging from e.g. evolution of tourism; preparation for marriage; social gathering and social therapy ‘Soffi’; beauty treatment ‘Dukhan دخان’ (form of SPA) of body, skin and smell; sports in rural areas; local food and drinks; coutry-side work and services. Traveling, for example, comes with major challenges because of the unique landscape in the African canyons, river-catchment and forests. Respect and appreciation of cultures is the secret of not only social success but more importantly to bring about harmony and resilience in the complex social mosaic that requires modern understanding of ‘what, how and why’ issues in modern sustainability.

Just to give few examples is how to live and travel in one of Africa’s largest canyons of the Blue Nile, 250 miles long. Also, how to manage the 60 rivers that drain rainwater to Lake Tana in Ethiopia. The country with 4/5 of the african mountains and Africa’s oldest cultures that is most diverse with great influences from ancient Egypt and Arabia.

One of the great future challenge of the 21st century is how to deal with the growing scarcity of Africa’s white gold ‘water’ (https://en.m.wikipedia.org/wiki/Water_scarcity_in_Africa As of 2006). One third of all African nations suffers from clean water scarcity and Sub-Saharan Africa has the largest number of water-stressed countries of any other place on the planet. It is estimated that by 2030 that 75 million to 250 million people in Africa will be living in areas of high water stress, which will likely displace anywhere between 24 million and 700 million people as conditions become increasingly unlivable.