Category: Other Natural Resources

Apart from water and energy resources (given in separate “Categories”) there are many other types of essential resources of natural origin, e.g. land, peat-lands, forests, mineral deposits, wildlife and biological flora and fauna, geological formation both on earth’s surface and the beneath. Major parts of these resources form our natural global biodiversity and needs protection measures through both formal and non-formal instruments.

COVID-19 – Inconvenient Truth About Health Care.

Statistics from around the world regarding the COVID-19 pandemic, including the most developed countries in Europe and the USA, show considerable gaps in our health care systems in particular for the risk groups of world population. According existing data most infections and deaths do take place in hospitals (https://www.bbc.com/news/health-52196978). It is an unprecedented truth in the 2020 that our modern health care systems, even in most advanced countries, are unable to provide safe and secure medical treatments for the most needed when it is needed. It is a scary reality for all of us, even for professionals in the health care sectors. The working conditions in hospitals and in health care systems are suffer from several uncertainties with clear associated risks to die among doctors and nurses in COVID-19 is also unacceptably high (https://www.aa.com.tr/en/asia-pacific/asia-pacific-health-workers-risk-all-to-fight-covid-19/1791014; https://www.aa.com.tr/en/europe/90-000-healthcare-workers-infected-with-covid-19-icn/1831765). The pitfalls and other shortcomings in global health care systems and the related health consequence are being analyzed, assessed and compiled by WHO (e.g. 20200411-sitrep-82-covid-19.pdf). The figure given here shows people died with confirmed COVID-19 in England and Wales by week ending 27 March 2020 according to data from Office for National Statistics (https://www.bbc.com/news/health-52196978). In this figure about 93% of the people infected by COVID-19 died in hospitals, i.e. a total of 501 persons out of a total of 538).

This situation and chaos didn’t take place overnight, though according to the UN-SDGs of 2017, Goal 3 calls is about: Ensure healthy lives and promote well-being for all at all ages (https://www.un.org/sustainabledevelopment/health/). Naturally the global health care system is very much dependent of other major factors: education; life on land; life under water; clean water and sanitation; poverty; hunger; energy; economic growth; industry and innovation; inequalities; sustainable cities and communities; responsible production and consumption; climate action; peace and strong institutions; partnership in goals and gender equality, all of which are goals in the UN-SDGs-package. According to New York Times, we knew the coronavirus is coming, yet we failed “the vulnerabilities that COVID-19 has revealed were a predictable outgrowth of our market-based health care system”. Also, in Europe, the crisis has been systematically developed and evolved during very long periods, e.g. for Sweden (https://mobil.unt.se/ledare/mangarigt-kaos-i-varden-av-de-allra-aldsta-5564852.aspx) as the death of coronavirus in olderly health care is above 45%. There are several reports of COVID-19 outbreaks in nursing homes across Europe, e.g. strains on health and social care systems and healthcare workers have been reported with shortages in laboratory and testing capacity, personal protective equipment and healthcare capacity (including ICU ventilator and healthcare workforce capacity and staff being absent due to illness, quarantine or isolation (covid-19-rapid-risk-assessment-coronavirus-disease-2019-eighth-update-8-april-2020.pdf). These highlight vulnerability of the elderly in long-term care settings and the importance of infection control measures to protect the vulnerable population in nursing homes. However, this is the situation of the reality as we know it today and more unknown data and facts will be unfolded gradually as the COVID-19 pandemic will still remain with us for some time. There is no definite answer how long it will keep circulating and how the future will be. Let us hope that we will not have the same fate as the dinosaurs, it was probably a virus that caused them to disappear. When science and technology has no solution it is only the natural laws of the survival of the fittest as described by Darwin.

Indeed, the pandemic is far from bring over and several counties, e.g. in Europe are hesitating in opening their economies or rather have considerable difficulties and uncertainties to do so. At the same time the rates of infections and death are still rapidly growing in many countries around the world, e.g. Russia, Brazil, India, Mexico,
Pakistan, Saudi Arabia, Chile, Bangladesh, Colombia, South Africa, Egypt, Kuwait, Algeria, Nigeria, Iraq and Bolivia (https://www.worldometers.info/coronavirus/).

We are back to Darwins time of the 19th century which strongly motivated him to do research on biological evolution rather than studying medicine. Ironically, he didn’t realize the strong links between medicine and biological evolution which we are facing today because of our tight interaction with ecosphere to secure our food. In his research he answered many questions as how species of organisms arise and develop through the natural selection of small, inherited variations that increase the individual’s ability to compete, survive, and reproduce (https://en.m.wikipedia.org/wiki/Darwinism).

Announcement – New Ph.D. Course “Sustainability in Science and Technology”.

REGISTRATION is opened for participation in a new Ph.D. faculty (Science and Technology) COURSE at Uppsala University “Sustainability in Science & Technology”. As far as possible and if places are available Ph.D. researchers from the Swedish University of Agricultural Sciences are also welcome to register.

Deadline of registration is the 10 of October 2019. Please register as early as possible. 
“Sustainability in Science and Technology” treats strategic worldwide questions for scaling up science and technology to achieve sustainable  societies. WHAT is sustainability? WHY it is needed? and HOW to achieve sustainability.
Water, energy and natural resources are imperative for our living on planet earth, yet they are not INFINITE. The ongoing transformation to sustainable societies is both urgent and necessary. Water and energy systems require natural resources in their lifecycles.
Increasing global pressures on yet declining water, energy and natural resources come with a heavy price of severe impacts on environment, biodiversity and life quality. Sustainability in science and technology is the only means to cure and heal this paradox, however this can not be achieved overnight. 
“Sustainability in Science and Technology” is planned in lectures, study-visits and group discussions with “lecture-based” assignments. Group discussion are designed to benefit from the IT-based “Laborative Lärosalen” of UU. Target groups are PhD students in all domains of Science and Technology. Participant will not only gain knowledge on how to structure their own future “Career Development Plans” but also to shape and reshape ongoing global transformation to sustainable societies. Also,  in shaping what is meant by Sustainability.
The Course will be given during November and is schedules in two parts: the first two weeks (4/11 – 15/11) we will have 12 Invited Talks of 24 hours followed by two weeks (21/11 – 3/12) of Seminar and Assignments of 27 hours. 
The Ph.D. researchers at Uppsala University who completed the course in 2018 have very positive, yet critical, feedbacks with an overall rating of 4.4 out of 5. Following their evaluation and recommendations, it gives us much pleasure to invite you to sign up, join and follow this interesting and innovative journey of sustainability. I am convinced that your contributions will allow us to penetrate deep in real life questions/issues for generations to come.
Scaling up science and technology to meet the UN-SDGs is not only a major challenge for politicians and professionals but more importantly for universities around the world. For young academics the question is how to create career-development-plans to cope with uncertain market and future? Would the Paris agreement achieve its goal? If not why? and if yes what are the supporting measures needed so as the Paris agreement can fulfill its mission? 

The European Paradox of Climate Change – Life Standard? or Life Quality?

The conflicting uncertainties regarding global warming and climate change is getting more and more real. It is not only a Chinese Hoax as described by the President of the United States (https://www.google.se/amp/s/time.com/5622374/donald-trump-climate-change-hoax-event/%3famp=true), it is also an European paradox causing social trauma (https://youtu.be/vGPU5SWV1DE) of two contrasting realities. A growing conflict and fear fueling collective social frustration about what we want in our life – Life Quality? or Life Standard? The Paris Agreement is now suffering from a new Hoax, a competition between two contrasting European (also global) interests, a comedian theatre 🎭 by the European Commission and the European Citizens. A blaming and shaming that is dividing Europe into two blocks. Whether you believe or not in global warming and climate change it is shame on you. Shame on you if you believe, though you want to protect and preserve the natural resources, as you are participating in the degradation of European standard of living. Shame on you if you do not, though you are concerned about promoting high economic living standard, you are not caring about the European life quality (also quality of life on planet Earth) by protecting and preserving our common natural resources and capital.

One example illustrating the European paradox and trauma what regards the Paris Agreement is the transport and air aviation sector. This also, applies globally. The transport and air aviation has huge emissions of greenhouse gases and contribute intensively in global warming and climate change. Still there are many other sectors that have more severe contributions (https://www.epa.gov/ghgemissions/global-greenhouse-gas-emissions-data). The standpoint of the European Commission what regards transport and air aviation is a comedian theatre 🎭 over global warming. On the one hand it supports the business-as-usual in transport and air aviation sectors (http://sorenandersson.com/aviation-a-climate-change-villain/; https://ec.europa.eu/clima/policies/transport_en; https://ec.europa.eu/transport/modes/air_en; https://ec.europa.eu/growth/sectors/aeronautics_en). The European Commission says “The Aviation Strategy is a milestone initiative to generate growth for European business, foster innovation and let passengers profit from safe, cleaner and cheaper flights, while offering more connections. This Strategy contributes directly to the Commission priorities of jobs and growth, digital single market, energy union and EU as a global actor. The Aviation Strategy of the Commisson will enable European aviation to flourish globally. So, despite the current economic crisis, global air transport over the long term is expected to grow by around 5% annually until 2030. While on the other hand the European Commisson supports the ongoing protests against business-as-usual in transport and air aviation (https://youtu.be/szdgJi2VKW8). The European Commission says, an air-flight from London to New York and back is producing carbon dioxide emission equivalent to the same emission that an average European citizen does by heating a home for an entire year.

Another important issue what regards carbon dioxide emission, is virtual emission. According to reports published by Our World Data Organization (https://ourworlddata.org) trusted by most reputed international Research and Media sources and institutions on “Carbon Dioxide and Greenhouse Gas Emissions” by Emissions” by Hannah Ritchie and Max Rose (https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions). The report clearly indicate that the global emissions in greenhouse gases are still increasing and “if we switched to a consumption-based reporting system (which corrects for this trade), in 2014 the annual CO emissions of many European economies would increase by more than 30% (the UK by 38%; Sweden by 66%; and Belgium’s emissions would nearly double); and the USA’s emissions would increase by 7%. On the other hand, China’s emissions would decrease by 13%; India’s by 9%; Russia’s by 14% and South Africa by 29%”. This indicates Europe, and in particular Sweden, are doing very little for the rest of the world to decrease the global carbon dioxide emissions and to actively participate in the global mitigation of the impacts of climate change. It is indeed an inconvenient truth about the European paradox and trauma what regards following the Paris Agreement and taking international agreements seriously instead of blaming and shaming their citizens and the rest of the world.

We are just listening to ourselves debating what are the reasons? Is it the older generation that destroyed the planet? Is it the fossil fuel that polluted the air and caused climate change? Is it the piling-up of waste, where plastics became daily food for other species on planet earth? Is is the irresponsible production of industry and agriculture that degraded the land-water systems? Is it the accelerating population growth that is causing pressure on water, energy and natural resources? Is the younger generation that is protesting against a world that they are still trying to understand? Is it about managing science and technology developed by the older generation to bring about sustainable societies for future generations? Is it the growing gaps of inequalities between the rich and the poor? or the disparities between the developed and developing countries? The debate is about whether to kill ourselves or not and why by the end decide not to (https://youtu.be/fnyljp3X4jU). A modern Hamlet ‘to be or not to be’ in real time, a comparison between the pain of life and the fear of the uncertainty of death. As for the Hamlet’s dilemma, although dissatisfied with life, was unsure what death may bring. Climate change is an undiscover’d landscape from which what is gone doesn’t return (https://www.weforum.org/agenda/2019/06/david-attenborough-s-worried-about-this-ocean-threat-and-it-s-not-plastic). Only living species discover death for themselves but don’t return from it to describe it, it is a one-way ticket. So, if life with global warming is bad, the death from it might be worse.

Sailing on a luxurious boat as means of traveling is absolutely not a sustainable solution with astronomic costs and it is extremely unlikely to be a practical solution for public transport (https://www.google.se/amp/s/beta.washingtonpost.com/world/2019/08/15/swedish-climate-activist-greta-thunberg-is-sailing-america-amid-storm-criticism/%3foutputType=amp). However, it is an illustration of a disparate and a long-time human challenge to solve the complex issues of achieving sustainable living on planet Earth. To be united behind the science, as is given on Malizia, is to find affordable and sustainable solutions for the world population. If science is allowed to be defined by irresponsible consumption, the earth will be irreversibly and completely drained from its natural resources. We will gradually and definitely end up with an unhealthy planet over-populated and managed by an illiterate and poor majority. The history is repeating itself, challenges and adventures motivated to find better life on planet Earth, took place before, as in the time of Christopher Columbus during 1492-1504 (https://youtu.be/3fvXZzcrEcc). It has been always about finding better and prosperous alternatives of life. However, though the science and technology that we have today is far much advanced than at Columbus time the challenges facing humanity are much more severe for the majority of the world population.

Is Activism a Democratic Tool to Solve the Existing Enormous Disparities in the World? Or is it a beginning of a Global Civil War?

Is Climate Change issue turning the world into an increasingly organized activism that can trigger global waves of new fanaticism. After the case of the Swedish 16-years climate activist ‘Greta Thunberg’ waves of mass global protests took and are taking place. Yet, new preparation of massive school protests against politics and politicians are on the way and more are likely to take place. In The Guardian we can read the following: What we want is more learning in schools and less activism in schools’, prime minister Scott Morrison yells after being asked a question about school students participating in a climate change strike. Greens MP Adam Bandt asked if the PM would ‘listen to these kids, who are demanding your government to keep coal in the ground?’ Morrison’s response was that they should stay in school and leave politics to those ‘outside of school’ (https://www.theguardian.com/global/video/2018/nov/27/scott-morrison-tells-kids-going-on-climate-strike-to-get-back-to-school-video). Then the question to Morrison is why do you ask the citizens to vote? Would Morrison encourage people in the U.K. to stay at home and not participate in political elections or be engaged in political decisions and policies?

Scientistswarning.org, as is given on their home-page, is a Union of Concerned Citizens with a mission for protection and preservation of life on Earth. This organization is giving their total support for school protests (https://youtu.be/R6s8YgRH5T0). The essence of their mission is a protest against Consumerism, with its cast of advertising executives, bankers and economists, corporate CEOs, politicians, etc. It is all about the evolving of defective ‘operating system’ that insists on infinite, accelerating economic growth despite the ecological costs – namely the destruction of Nature.  Many scientists have signed or endorsed what is displayed on the home-page of Scientistswarning.org to avoid the worst of ecological destabilization that we have inflicted on Mother Earth.  We are all, as is said on their home-page “therefore de facto members of what we are calling the Union of Concerned Citizens of Earth”.

The ongoing school protests triggered by activists supported by international and national organizations are likely to expand to uncontrolled protests on diverse and global wider scales as there are million if not billions of less-privileged-people. Climate Change action is only one goal of the seventeen UN-SDGs. If our focus will continue to be focused on only one goal we are likely to run in huge trouble in the future. We can expect some sort of global civil wars that may include avalanches and waves of brutal activities around the world. That if things grow out of control. The Climate Change issue, though is certainly of global importance, is only a small part of the UN-SDGs (https://www.un.org/sustainabledevelopment/sustainable-development-goals/) with 17 goals and 169 targets that summarize the global defects in the socio-economic-environment systems around the world. The UN-SDGs is global comprehensive agreement that are designed by all world countries, they are shaped to mitigate and solve multi-layered disparities ranging from poverty, hunger, education, clean water and sanitation, affordable and clean energy, decent work and economic growth for all, reduced inequalities, responsible production and consumption, acceptable global quality of life on land and under water, peace/justice/strong institutions and partnership for goals. By being signed by all countries around the world give the global citizens the right to protest and to be activist.

The ongoing school protests in the developed countries are primarily focused on solving the energy issue “the so-called Paris Agreement (https://unfccc.int/process-and-meetings/the-paris-agreement/what-is-the-paris-agreement), i.e. moving away from fossil fuel and turning over to renewables. The withdrawal of USA “Trump Administration” from the Paris agreement (https://en.wikipedia.org/wiki/United_States_withdrawal_from_the_Paris_Agreement) and the silent/passive acceptance of the world community of the USA action has indeed caused massive latent anger of the world citizens. The same scenario that caused enormous tragedies in the MENA region because of the Iraqi war (https://en.wikipedia.org/wiki/Iraq_War).

The school protests initiated by climate activists, initially by Greta Thunberg’s family are not taking in their consideration the whole web of the UN-SDG thus are likely to trigger new series of violent protests around the world such as those took place in the MENA region in 2011, the Arab Spring.

Education Versus Politics – Our collective Suicide

There are no questions or doubts that we have serious conflicts and misconceptions around the world between Education and Politics. These conflicts are deeply rooted in the perception of the role of science and technology as essential and imperative drivers for sustainable developments and promotion of sustainable societies.

On the one side, politicians use (misuse) the outcome of science and technology to achieve, in best cases, short-term benefits not in favor of future generations. Also, politics is imposing restrictions on the mission of science and technology for the sake of improving the life quality of the global citizens. This has been the case for generations as it is evident from the great degradation in life quality on Earth in terms of air and water qualities as well as the accelerating abuse and decline of natural resources. These issues have severe impacts on future generations but also on current populations as well. Meanwhile, politics continue to contribute in the growing failure in education systems, in particular the higher education at universities (https://youtu.be/OReAF9qwMkY; www.linkedin.com/feed/update/urn:li:activity:6447626326525513728), including the associated mistrust in education to lead to successful long-term careers and real jobs. On the other side, it is also clear from how the citizens trusted, and still do so, that science and technology can bring better future for them, as they still go to schools and struggle day and night to join higher education. Of course, not all but the wealthy and lucky ones who have inherited advantages to support their education and to scape modern slavery of the imperatives of a failing growth economy. The citizens have also no other choice other than to follow political policies and growth economies that fail to meet their needs in particular to deliver security and safety for the future generations worldwide (https://youtu.be/Xwnqy51BJNM; https://youtu.be/GiD04TRwebQ). The perception of science and technology is dependent on what they bring to humanity and the society in terms of socio-economic opportunities with reference to the boundary conditions of life on planet earth, i.e. the environment and climate conditions on local, regional and global levels.

The political controversy on whether or not we need science and technology to run our societies is taking the same route as the classical conflict between the Church and science in the sixteenth’s century that resulted in a trial against Galileo Galilei and led eventually to his house arrest under the rest of his life. At that time, this was considered a generous punishment for his scientific work by being not along the mainstream catholic belief, i.e. that the earth was the center of the universe. The Church at that time was the political power that controlled the society, directed the track of science and even decided its outcome. The popular narrative would say that the Catholic Church feared Galileo’s truth and silenced him. Though all these restrictions, Galileo Galilei continued his scientific work which laid down the foundation for the successful work of Isaac Newton and his findings of a theoretical force (gravity) and a mathematical system (calculus) that when used together allowed astronomers to accurately predict the movements of our solar system. This all together gave us the hope that all natural occurrences are explainable in mathematics. Both Galileo Galilei and Isaac Newton contributed in diverting the track of science in hybrid direction orchestrated by Albert Einstein.

These summaries illustrate the powerful role of conservative politics that restricts the scientific endeavors by being the collective outcome of the individual scientific works to the search for truth. But science always wins inspite of all political obstacles and restrictions. For the church to admit Galileo was right was to also say every other scholar for the past 1,500 years was wrong. This is the same for our politicians to admit that all life forms on planet earth are under huge threat. It is to also say that the current growth economy and the associated trends forced by business as usual in production and consumption are all wrong. Politicians even do more serious attacks on science as an excuse to go on with the same failing economic policies. If politicians continue to ignore science, as is currently the case, the mistrust in global education systems will face an increasing spiral of degradation. Also, politicians will force science and technology to proceed in supporting growth economies and halt many efforts to promote and implement circular economies as a consequence of an increasing mistrust in the role of higher education to support rapid transformation to a circular economy based societies.

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Politics and Management of Planet Earth – Enslaving OR Empowering the Planet

A very basic phenomena in many elections around the world 🌍 is the struggle between the left, the right politics and anything in between, on political power and the associated manipulations with arguments to get the votes 🗳. The economic issues are always of central importance in all global elections. On the other-side it is interesting to know how the political, and thereby socio-economic-environment, ideologies of different parties are being perceived by “WE THE PEOPLE”, especially in the short time window where all the competing parties are actively engaged in a common public debate, i.e. just before the end of the voting period. Another very strategic question, not yet central in many elections or even absent, is the impacts of political systems and debates therein on the public what regards Planet Earth itself. Indeed, Planet Earth 🌏 and its subunits have no possibilities (tools or means to empower it legal rights) to vote and the only means is to actively illuminate all the critical and central issues, about the natural functioning and metabolism on Planet Earth, to the citizens. In principle, such possibilities/rights are delegated to someone else, but is it delegated to the politicians? or to “WE THE PEOPLE”?, this is not clear or even unknown. Another issue is the quality, transparency, the will and knowledge of the politicians on the one hand and the political maturity and the socio-economic-environment awareness of “WE THE PEOPLE” on the other.

In any case, in political elections someone else is taking decision or has the VETO, on behalf of the Earth. As we are in the geological era of the Anthropocene we have to re-consider the role of politics on Planet Earth and its performance in this regard as this on the long-run will have serious impact on all future generations. This is logic as we are getting more and more dependent on a Planet Earth and not the reverse. A degenerating Planet with declining resources in terms of quantity and quality. Let us analyse these issues.

The functioning and metabolism of Planet Earth, or the Earth’s system, as a unique organism in the solar system, can be understood (on its own merits or alternatively with consideration of the interference of humans) in several ways depending on how it is divided into subunits, subsystems or sub-spheres (all of these involve climatic zones with geographical boundaries and thereby counties). Before doing this, we must appreciate the imperative importance of the solar radiation 🌞, in particular the “sunshine”, i.e. the light 🌈 and the heat 🔥from the sun, for planet Earth.

From the biodiversity point of view, The Earth, as it is, is mainly composed of living things with essential biological processes. Without living things our planet could be anything else, of an empty physical space (as other planets), other than a home 🏡 for living things. We would even not have realized its and our existence, as we wouldn’t be here in the first place. Yet, we wouldn’t exist if there were no living things other than us. So, the diversity of living things is a pre-request for our survival. As our survival is dependent on other living things then we can at least appreciate that other living things need each other for their survival as well. Now let us examine the other needs of living things, i.e. the biosphere. First of all our biosphere is ruled by several boundary conditions that are primarily driven by what we have around us in terms of quantity and quality as well as the processes regulating, or being involved, in their functioning, metabolism and ecology. The living things, as they breath, need air but not any air, it must be of the certain suitable composition and quality that can support the life of the living things on planet Earth. That is what we know as the atmosphere and it has really what is needed for all living things (in particular oxygen, nitrogen and carbon dioxide) providing that its composition and quality are kept within the requirements to support and sustain the life of the living things. As the atmosphere has active interactions with other sub-spheres, subunits or subsystems of the Earth, therefore, there are no guarantees that its composition will remain optimal for living things in particular with consideration to the enormous interference of humans through manipulating all the existing natural resources on planet Earth and beyond (think about colonisation of space and intensive use of airplanes). This however, has contributed in changing the atmospheric composition is such away that the temperature of the Earth is increasing and started to surpass what can be considered for safe living on the planet. Also, the air quality available for world population is not any longer as good as before and for some parts of the world, in particular cities, it is getting worse and unacceptable.

The living things on Earth need water 💦(hydrosphere) as it is the essence of the generation, regeneration and the diversity of living things. The underlying process for life on planet Earth is photosynthesis (whether on land or in the aquatic systems of surface and marine waters). Water and carbon dioxide are the basic components for the generation and regeneration of living things on planet Earth through photosynthesis and by being fueled by the sun ☀️ . Yet, other elements/compounds must be available in water in particular nutrients but with appropriate amounts, not too little and not too much. Fortunately, water is a perfect carrier for such elements “trace elements” and the balance between the atmosphere and the hydrosphere (including global exchange processes of carbon dioxide) was so far appropriate for healthy photosynthesis on land and in aquatic systems. However, water is also a solvent for other harmful elements/compounds, so water through its journey in global environmental systems can be also a source of threat as well. Water like air, in this sense, needs to have certain content of life promoters, i.e. nutrients, to support and sustain life. The hydrosphere (including surface water, groundwater and the ocean 🌊) as the atmosphere has been exposed to serious degradation in quality because of the severe interference of humans with both the atmosphere and the hydrosphere through the three main revolutions, i.e. agricultural, industrial and rechnological. This has loaded, and for some regions overloaded, both the atmosphere and the hydrosphere with several pollutants and waste remains. The water cycle, in variable degrees and scales, has also started to deviate from what can be considered safe for our living.

For several reasons we need land (lithosphere) for our living, where else can we live? The survival of living things, in particular humans, need healthy ecosystems with suitable and appropriate living environments on the first hand. Modern urbanization including the vast expansion of cities that have developed very rapid on the expense of natural ecosystems such as forests, river and lake catchments, islands, oceans and marine coasts. Though cities are important form of living yet they generally need to be up-graded to fulfill modern sustainability requirements in terms of supporting the economic, environment and social needs of the citizens. In many parts of the world cities are either over-aged or mainly built (modern cities) to serve mostly (and in best cases) working and economic needs of the citizens with little consideration to the environmental and social needs of well-balanced mix of people of different ages, interests, origin and requirements, and in particular to support the diverse needs of families. This however, evolved with heavy price of mental instabilities, stress, segregation, social isolation, limited mobility, insecurity, loneliness, lack of transparency, ……….. etc. Most seriously is the growing lack of multi-layered integration of rural (villages, desert 🐫 and agricultural communities) and urbanized areas (cities and industrial centres) though the considerable advance of technology in particular transportation and ICT. The land, also, provide several other basic services, i.e. the same way ecosystems provide services, for humans. Mining, for example, of natural resources is among these services which also developed in such a way that it can produce enormous amounts of diverse waste and pollution. This is of course, in addition to draining the Earth in unsustainable manner, from its natural resources. In several parts of the world, the living conditions of the communities that are dependent on mining for their living are indeed not acceptable. Agriculture and land-use consume over 70% of our freshwater resources, yet food is becoming insufficient for the growing world population, also climate change and global warming can hit hard and further worsen the situation.

With this said, the political debates around the world are very much similar in one sense. In terms of sustainability they show how politics failed to manage Planet Earth and the needs of its future inhabitants. The situation as we have it today on Planet Earth, on any level from individuals to countries is to forget about the future generations, live now and take a “selfie”. To avoid to take responsibility for what went wrong or can be a threat for future generations and just blame it on others: it is simply not our failure; it is someone’s else. The same story we hear everywhere and at anytime. The politics now is about putting our world, including the global population, in competition (for more consumption) to see who is the best to make himself, a group of people, a piece of land, a culture, an ideology or ……. or …….. Great Again and for some populations it is to re-invent a future that brings back the Great distant past Again. This is done, unfortunately, with little consideration to the consequences to the rest of the world. “FIFA” did it good, again and again, and made our world happy, let us have politics a la FIFA’s model. Nature played it good according to Darwin, so if FIFA’s model would not work, let us do nothing and let the “natural selection” fix it all and for ever. In the world of politics, it would not work these ways, would it? It is getting confusing and the world politicians are in despair what to do, or precisely what not to do, as the problems we created for Planet Earth are by far much complex, larger and deeper than we can ever imagine.

The arguments of the coming politicians, or on their way to enter politics and take over, are the ones that say “those before us were not good and we can do it better”. It is all about new experiments of the same old versions but with different facade, who knows. We can only judge by the outcome after they leave the political theater and by that time it is late or even too late, this is how the state of Planet Earth as we have today developed.

What politicians did so far is to Take power over the citizens for the purpose to represent them. To represent them for whom? and for what? Is Planet Earth existing in the political equation of affairs? Take over our fate, Take over the management of all the natural resources on Planet Earth that were the result of billions of years of evolution with arguments to create jobs and multiply the economic gains. But this has resulted in an accelerating deterioration and degradation of Planet Earth. Has Planet Earth ever existed in any political managent model? , i.e. including Taking control over national capital and wealth and Taking decisions to shape the future of all coming generations, to form new pathway of competition for more consumption (https://www.theguardian.com/books/2016/apr/15/neoliberalism-ideology-problem-george-monbiot). All of these created more and more barriers, frustrations, caused degeneration of planet Earth and stripped it out of its natural resources. At the same time degraded the quality of all life forms on Planet Earth. Humans on planet earth are reproducing themselves and generating new copies of the same old ones with politics that support and promote these trends. More of the same with increasing numbers where the typical route of success is to do like others, be part of a main stream culture to consume more and carry on to produce more and more waste and pollution.

The collective global results and the overall sum of all political transformations over the past generation, regardless how, where and when they were originated, developed and performed have definitely resulted in a major trend towards complete consumption of all the natural resources on planet Earth including enslaving its population.

We need a political well to empower Planet Earth against deteriorating the living conditions and the quality of life on Earth. Yes, it is probably late but definitely not too late as much of the human achievements on Planet Earth are indeed reversible with the help of innovation. It is all about one goal and one mission that can be summarized in one word “Sustainability” no more no less.

The final question to politicians (including capital based policy-makers, is: would the management of planet Earth empower OR enslave it? Is current and future politics and associated economic policies, are still tuned for an ever increasing unconditional consumption. If so who would promote and implement the UN-SDGs, if not how would the UN-SDGs be promoted and implemented? The UN-SDGs are currently looking like a huge vessel in a stormy ocean with little fuel and unorganized staff with no pilot on charge. It is hoped that the passengers on the vessel “WE THE PEOPLE” will anyhow and by any means navigate it peacefully to its final destination. May be or may be not who knows, those who constructed the vessel “THE POLITICIANS and CAPITAL OWNERS” are not actively and promptly prepared to revise and restore whatever goes wrong which unfortunately resulted in what we have today.

Is Death on Planet Earth our Common future?

Many media sources are reporting severe and serious disasters around the world because of the emerging and ongoing threats of extreme weather events in the summers of the Northern Hemisphere, e.g. heat waves, forest fires, hurricanes, sandstorms, floodings, intensive haze and humidity events. If we still do not believe in what global research and predictions that are bring made during several decades by international climate expertise there are no other means to be convinced than experiencing the harsh and deadly consequences that we can not run away from them. Welcome to a planet heading to a definitive death. Photos @CNN

Why our weather is getting wild?

The consequence of the global cancer that mother earth got because of the global warming (increase in the global average temperature) is growing rapidly in the earth’s body and the impacts of the such fever is causing the global weather to be wild as can be observed and felt everywhere and anywhere around the globe.

Follow us on Instagram @sustain.earth where we will share with you the situation and observations in the Gulf region where the temperature is expected to increase to above 60 degrees Celsius in the future. How would life looks like at such extreme temperature?

The Marina of Dubai, UAE, with its haze in the background. The temperatures now, in summer 2018, is still just above 40 degrees Celsius which is more or less within the range of affordable living.

SWAS 16th International Annual Conference, Genève 12-16 April 2018.

The World Association for Sustainable Development “WASD” will organize its 16th International Annual Conference in 12-16 April 2018, Palais de Nations, Genève, Zwitzerland. To be co-organized and hosted by the United Nations Joint Inspection Unit (JIU).

The Theme is “Public private partnerships for the implementation of the 2030 Agenda  for sustainable development”. 

See more at: http://www.wasd.org.uk/books/palgrave-studies-of-sustainable-business-in-africa/tt-sudan/

Drone Plans to Plant 100,000 Trees a Day

A system of drones has been developed to help quick rehabilitation of Earth’s lungs, forest trees. The system is supposed to help plant almost 100,000 trees per day.

The Earth is rapidly losing its forests at a rate much faster than humans can manage to replant with the same speed. How much is the degradation of world forest is, is not really known and figures vary. According to Scientific American “most analysts show up to 15 percent [of global carbon emissions] is due to deforestation.” This means that by clearing or burning the Earth’s forests, we are directly contributing to huge increase in climate change rates. One Australian engineer is enlisting technology to fight the battle against the ongoing deforestation. Dr. Susan Graham has helped to develop a pair of drones that can slow down some of such damage by planting trees at a rate that far outpaces what is possible to do by hand.

Read the complete story with the original video here: https://futurism.com/new-drone-plans-on-ambitious-mission-to-plant-100000-trees-a-day/

3R-Culture for Saving Planet Earth from Waste and Pollution. 

The 3R-culture “Reduce, Reuse, Recycle” is establishing itself with key concepts in the ever expanding ideology and awareness of the fight against the accelerating pile-up of waste and pollution. Waste and pollution is not only a threat for endangering the whole life on planet Earth but it is also one of the main core reasons for global contrains and malfunctioning in industry and technology. Furthermore, it has also huge impacts on micro socio-economic developments and stability of rural and coastal environments in particular the livelihood of the poor and local communities that are dependent on the natural resources of their land-water systems.

These multi-layered and multi-scale threats taking place in the Anthropocene and are caused by an ever expanding cycles of “production-consumption-waste” with increasing rates that we have not seen its peak yet, the “Peak Waste” (https://www.slideshare.net/mobile/ReciclajeInclusivo/esquemas-inclusivos-de-responsabilidad-extendida-del-productor-aprendizajes-desafos-y-oportunidades-por-derek-stephenson, http://www.smithsonianmag.com/science-nature/when-will-we-hit-peak-garbage-7074398/, http://environment-review.yale.edu/tags/industrial-ecology-urban-planning).

In low income countries with increaing transformation towards industrialisation and urbanization but yet with poor public infrastructures and almost non-existing policies for environmental protection and preservation, waste and pollution threats are enormous. However, a new 3R-culture is emerging from grassroot rural communities to save their livelihood which, unlike big national/international industries and production/urban facilities, is very much dependent on their living land-water resources where they live, work and develop roots that can last for decades or even generations.

In the photo is the WORLD’S FIRST: THE PLASTIC-ONLY BOAT TO FIGHT POLLUTION that was created by the people of Kenya of the East Coast of Africa. This dohow in over 30 tonnes of recycled plastic waste, a waste which is indeed Kenya has lots of it. Such waste became the raw materials making a 60-foot dhow that is set to sail from the Kenyan coast to South Africa, in an initiative meant to raise awareness on the growing menace of plastics to marine ecosystem and spur a plastic revolution.

See more at https://www.fairplanet.org/story/worlds-first-the-plastic-only-boat-to-fight-pollution/?utm_campaign=Echobox&utm_medium=Social&utm_source=Facebook#link_time=1501838864

Korean’s Sustainability Concept for Water Resourse Management – Smart Water Grids 

The increasing pressures and competition on water resources on different spatio-temporal scales require developing more friendly and sustainable approaches to meet the increasing constrains from population growth, uncertain energy production and accelerating threats from global warming. 

Among newly emerging solutions is Grid-concept “water production-distribution-consumption” which is described in the attached Link that describes “Sustainable Water Distribution Strategy with Smart Water Grid” (http://www.mdpi.com/2071-1050/7/4/4240/htm).

Does the Nobel Prize Support Sustainable Developments on Planet Earth? If, Yes How & If No Why?

With the ongoing efforts to promote and implement the UN-SDGs including the EU vote to ratify the Paris Agreement (http://bit.ly/2dpyVoa) there are emerging key strategic issues. Countries around the world are called upon to act quickly to fulfill all the promises for the protection and preservation of the Earth’s natural resources. All society sectors (private and public), knowledge disciplines and human activities on planet Earth, both vertically and horizontally, have direct responsibilities in the ongoing process of transformation. There should be tools and instruments to assess the role and involvements on several levels, i.e. through coordinated webs of Key Performance Indicators. Among such instruments is the Nobel Prize which indeed played, and still playing, important role in promoting essential knowledge disciplines. However, knowledge in itself has to be promptly and effectively utilized by all sectors and on all levels to promote and implement the Paris agreement through effective coupling of diverse and wide spectra of knowledge to society, population and the market needs. It is interesting to see how far the Nobel Prize contributed in the past in developing the UN-SDGs, and also how much it will contribute in promoting and implementing these goals in future.

By founding the Nobel Prize in 1901 Alfred Nobel made the name Nobel famous worldwide. But Alfred’s prize was not the first Nobel Prize. As early as 1889 the Ludvig Nobel Award was founded. Ludvig was Alfred Nobel’s older brother and worked as a scientist, inventor and businessman in Russia during the second half of the 19th century. Alfred was most likely inspired by his brother Ludvig when founding his Nobel Prize, one of the most prestigious scientific awards of all times. Ludvig and his other bother, Robert Nobel, had an oil company in Baku, a manufacturing site for diesel engines in St. Petersburg and many other industrial sites throughout Russia during the late 19th century. Ludvig, however, strived to improve the conditions for the workers at the industrial sites by the introduction of shorter working hours, schools, healthcare, recreational facilities and also cooperative banking system for the employees. This was the 1st global initiative towards the implementation of Applied Sustainability but still lacked the environmental issues. In this context Sustainability and Social commitment was the trademark of the Nobel industries as visioned by Ludvig and Robert Nobel. The Russian revolution in 1917 changed the scene dramatically. Ludvig Nobel’s prize in science and research never became much more than a dream due to the revolution. 

Thanks to the global trends of human thinking and the recognition of R&D as an integrated part in socio-economic developments, i.e. in the framework of the UN-SDGs, today the efforts of Ludvig Nobel and his brother have not been forgotten specially in Russia and Azerbaijan.

Recently, the Nobel family has taken the initiative to honor the memory of Ludvig. The Nobel Sustainability Trust was founded with the purpose of encouraging research and/or practice of sustainable and renewable energy, through an award. Not to be confused with the Nobel prize of Alfred Nobel and will be given to worthy individuals or organizations that during the year have carried out significant accomplishments in the field of renewable/sustainable energy (http://nobelsustainability.org/history/). 

However, there are other wider initiatives to realize the importance of UN-SDG as they involve coupling many other sectors and disciplines in particular those related to Water – Energy – Natural Resources Nexuses. Still water, sanitation and hygiene in developing countries are taken much smaller proportion in relation to the R&D done within energy-related sectors and disciplines. In this context, additional steps are being taken by the United Planet Faith and Science Initiative by launching a website that attempts to win a Nobel Peace Prize for Sustainable Development (NP4SD.org) with a shared nomination of an organization and two individuals. As explained by “NP4SD.org” it is not a new Nobel Prize, it is a Peace Prize to be shared by nominees whose work is foundational and seminal in the field of sustainable development (http://www.upfsi.org/). Among cases in the past where sustainability issues were taken in consideration is 2004-Peace Prize (http://www.nobelprize.org/nobel_prizes/peace/laureates/2004/press.html).

Among other strategic efforts to support UN-SDGs, is to give Ecological Economics greater worldwide exposure and to create more widespread understanding of other strategic fields of importance for our well-being, survival and life-quality on planet earth and its growing population (http://www.isecoeco.org/nobel-peace-prize-for-sustainable-development/). Yet, much more is still needed to be done to promote and implement better policies for education, R&D and Transfer-of-Knowledge in the developing countries. If the Nobel Prize is used as indicator for these strategic activities it is very easy to conclude that the major parts of planet earth suffer from huge knowledge poverty. Then we can simply ask how the UN-SDGs be effectively implemented to achieve global sustainable socio-economic developments? Would the UN-SDGs be only a day-night dream for generations to come?

This said, the traditional Nobel Prize has on large-scale and long-term perspective an long-standing importance, directly or indirectly, on improving our overall understanding of planet Earth and to some extent the fundamentals of improving life quality on the Earth’s surface. Building on science pyramid on large-scale and long-term perspective is strategic in pushing forward the wheels of technology and development. However, developments in science and technology in the past century along with the weak coupling with global sociey sectors through ineffective policy-making and lack of global coordination have caused the ongoing degradation in life quality on Earth. These negative trends could have be avoided or even limited if the UN-SDGs were realized and founded much earlier.

More information on the traditional Nobel Prize awards for 2016, please see (https://www.nobelprize.org/nobel_prizes/medicine/laureates/2016/press-sv.html).

The Earth System as It Is and as It Should Be

There reasons why the Earth’s system, as it is, is evolving in such a way that life quality is gradually degraded with emergence of new large-scale and long-term irreversible threats, e.g. global warming, decline of natural resources, collapse in bio-divesity and accelerating degradation in life quality. However, understanding the base-line conditions and requirements for the appropriate functioning and metabolism of the Earth’s system calls for instruments and tools to define the Earth system as it should be. This is essential and imperative at least for the survival of life on earth and to bring about sustainable socio-economic developments around the world. 

Earth system science (ESS) is the application of system’s science to the Earth’s system. In particular, the interactions between the Earth’s “spheres”—atmosphere, hydrosphere, cryosphere, geosphere, pedosphere, biosphere, and, also, the magnetosphere – as well as the impact of humans on these components. At its broadest scale, Earth system science brings together researchers across both the natural and social sciences, from diverse fields including ecology, economics, geology, glaciology, meteorology, oceanography, paleontology, sociology, and space science. Like the broader subject of system’s science, Earth system science assumes a holistic view of the dynamic interaction between the Earth’s spheres and their many constituent subsystems, the resulting organization and time evolution of these systems, and their stability or instability. 
 
The Science Education Resource Center, Carleton College, offers the following description: “Earth system science embraces chemistry, physics, biology, mathematics and applied sciences in transcending disciplinary boundaries to treat the Earth as an integrated system. In this context, we can achieve a deeper understanding of the physical, chemical, biological and human interactions that determine the past, current and future states of the Earth. Earth system science provides a physical basis for understanding the world in which we live and upon which humankind seeks to achieve sustainability.

https://en.m.wikipedia.org/wiki/Earth_system_science

The Landscape of ICT – Analytical Communication or Individual Connection

An interesting article published in Asharq al-Awsat, July 7, 2016 by Fahad Shoqiran, a Saudi writer and researcher who also founded the Riyadh philosophers group. He has writings in pan-Arab newspaper Asharq al-Awsat, Alarabiya.net, among others. He also blogs on philosophies, cultures and arts. See the while article (http://english.alarabiya.net/en/views/news/middle-east/2016/07/09/Has-technology-defied-Arab-values-.html).

The article describes how information communication technology ICT, which has managed to create an analytical space that aims to uncover the hidden aspects of several dimensions, is taking another path in some regions of the world. Fahad Shoqiran describes how ICT is shifting from communicating to connecting “At the start, it was promising because it was going to bring everything closer, break borders, defeat intellectuals, end roles, intimidate politicians and mobilize for revolution. They are no longer sites for communicating as much as sites for connecting”. 

In the MENA region as Fahad Shoqiran puts it “The relations between millions of Muslims and Arabs through the modern tools of contact has not created any value worth mentioning, and has not expressed anything about their history that is rich in prestigious debate, serious dialogue and knowledge. Rather, they have dug up racial and sectarian matters that were long forgotten. Political affiliations became in control of approaches, debates and battles”. 

Fahad Shoqiran explains and reflects on existing difficulties hindering sustainable socio-economic developments in all of the MENA region “There is a struggle over leadership among Arabs. This is why it is impossible to create a general space that enables people to freely and equally discuss ideas and visions. This is all due to ignorance. There are modern tools in our hands, but our feet are drowned in the mud of decadence.” Instead “All this shows that Arab societies are drowned in the notion of the self. This is why you see the desire to become a poet, muse or cleric in every Arab. You do not see the desire to become a debater or intellectual who spreads knowledge and philosophy.”

With growing population around world, struggle of political systems for survival; emergence of new micro-, sub-cultures and NGOs; competition on resources; and modern needs for prompt promotion and implementation of the UN-SDG, the ICT is facing shaping and reshaping itself as an analytical space to achieve sustainable socio-economic developments apart from being pure technical instrument only (https://www.linkedin.com/pulse/icts-government-action-plan-mena-region-2015-beyond-nabil-eid).

2050-2100: The Struggle of Humanity against Future Peaks

Any group preparing for a difficult mission such as climbing towards high tops against strong winds and steep heights, e.g. the Himalaya tops, knows that such mission is not free from an enormous number of excepted and unexpected risks. Accounting for such risks and taking all necessary measures and precautions is imperative not only for surviving, a long journey of such dimension, but also for fulfilling the goals of the mission. No one, whatsoever, can take such risks without careful planning and practise as well as having the necessary qualities and resources to withstand the all possible “known” and impossible “unknown” situations that can lead to failure. It is a matter of life or death and a journey where the very survival from the start to the end is a life mission, even after the mission itself is completed. The mission can, also be, understood and experienced as an instrument to learn and gain more merits  “added-value” to cope with other future difficulties beyond the mission itself. It is from the “knowns” we can uncover, solve and cope with many other “unknowns”.

If we have to continue our survival on planet Earth, improve whatever can be improved and sustain the quality of life in the near future of coming generations we need to think the same way. Thinking about 2050-2100 we will be struggling to solve serious problems “peaks” facing us on planet Earth. 

The future in this context requires convergence of our efforts and not divergence, i.e. to see the threats as common obstacles facing the life on earth and its quality.  “sustain-earth.com” is an instrument for transformation of all the threats to challenges and to find solutions and implementations of what, why and how. It is about sustainability (https://en.m.wikipedia.org/wiki/Sustainability).

Have UN-SDG any Impacts on R&D around the World? 

Research and Development “R&D” has direct and indirect feedbacks and impacts on the global implementation, and also the successful achievements, of UN-SDG. One can expect that the UN-SDG can be achieved, and thereby implemented, as an Added-Value components to “R&D” Programs and Projects in cases where  they are clearly specified and defined by funding organisations and institutes. This in turn will generate stronger, active and vital engagement of universities, academies, researchers and education programs in the promotion and implementation of UN-SDG.  In particular shaping higher education, R&D for appropriate and timely promotion and implementation of the UN-SDG on local and regional scales with special focus on society and population needs. Also, with consideration to three pillars of sustainability (economic, social and environment issues) and building on the available natural resources in different regions. These are of course in addition to dedicated programs and projects where “R&D” directly deals with sustainability and sustainable developments in general. 

Currently, there are no exact, detailed and coordinated global assessment policies/strategies on when, how and where the UN-SDG are to be achieved, though there are fragmented data on such issues in limited counties and regions. However, some information can be indirectly extracted from the global view of R&D, so as to examine strengths and weaknesses in following-up and assessing the perfomance by sectors, products, technologies, markets, regions and countries.

Research and development (R&D) is defined as the process of creating new products, processes and technologies that can be used and marketed for mankind’s benefit in the future. What regards sustainability, the interests and needs of future generations have to be taken in considerations. As the R&D processes and their costs vary from industry to industry, from country to country and from year to year, we can expect wide-range of variations in effectiveness, performance and time-scales of relevance for UN-SDG.

R&D investment in Asian countries (e.g. Japan, India and South Korea) including China is currently accounting for more than 40% of all global R&D investments, the North American investments now less than 30% and European R&D only slightly more than 20%. The rest of the world (Russia, Africa, South America and the Middle East countries) account for a combined 8.8% of the global R&D investments with combined average growth of only about 1.5% per year. Much of the R&D growth in any country around the world is driven by that country’s economic growth.

There are substantial changes that are being seen in industrial R&D makeup. Life science R&D, for example, has been the largest sector in the industrial technology arena. However, the automotive arena is expected to grow their R&D programs due to strong technology shifts from internal combustion to electric propulsion systems, manual to automated driving systems and increasingly integrated electronic systems. Other changes include the rapid and mostly unexpected implementation of self-driving cars; the emergence of electric cars, which could supplant a significant portion of fossil fuel-powered vehicles in a relatively short period; and the availability of large amounts of fossil fuels at low prices not experienced in more than 20 years. Fast forward to today, unlike what was known before, there’s an oil glut on the world market, gas prices are where they were 25 years ago and the U.S. has considered exporting crude oil from its shale oil reserves. Saudi Arabia and other traditional oil exporting countries will be faced with serious economic difficulties because of low gas prices.

Solar-powered technologies continue to be a relatively small sector of the overall energy industry that is populated by comparatively smaller technology companies. Most of these small energy companies, with strong future market forecasts, expect to increase their R&D spending in 2016. Solar cells, power converters and associated hardware continue to improve in overall effiencies, while dropping lightly in overall prices. In the Automotive industry, lithium-ion batteries are improving which in combination with computers can bring about new trends in automotive markets. Solar-panel system, also for small industries and other consumer uses, can shape additional new trends. 

Except in the automotive arena, the U.S. industries gained more technological advantage than they lost in many other areas. This includes advanced materials, commercial aerospace, communications, computing/IT, energy, environmental, instrumentation, life science, military/defense, and pharmaceutical/ biotech. 

What regards R&D, academia has become the go-to organization for performing advanced basic research and even applied research when government or industrial organizations are looking for cost-effective ways to perform a development program. For many years now, academia has performed the majority of basic research as industrial organizations have reduced their involvement in basic research. The U.S. university and college systems continue to lead other countries in research, technology and innovation. For example, of the top 10 universities in the world, eight are in the U.S. (Harvard, Stanford, MIT, UC-Berkeley, Princeton, CalTech, Columbia and the Univ. of Chicago) and two are in the U.K. (Cambridge and Oxford). Of the top 20 universities in the world, 16 are in the U.S., with Switzerland’s ETH and Univ. College London being the non-U.S.-based standouts—the other top U.S. universities include Yale, UCLA, Cornell, UC- San Diego, Univ. of Washington, Univ. of Pennsylvania, Johns Hopkins and UC-San Francisco. This ranking system is run by the Center for World Class Universities at Shanghai Jiao Tong Univ., China. However, five of the top 10 in the Economic Intelligence Unit’s 2015 Global Talent Index are in Europe—Denmark, Finland, Norway, Sweden and Switzerland. The same countries as were in the top 10 for the 2011 version of the Index. The U.S. was number one in both versions of the Index. The Nordic region of Europe is noteworthy as it has four of the top countries in the talent index. The Nordic region as a whole has high government spending, as a percentage of GDP which is maintained throughout all stages of education, right through to universities, which explains why it has outperformed so many prominent rivals in the developed world in the overall index. The linguistic and technical skills of the Nordic countries’ working population are also particularly strong.

What concerns R&D staff, the researchers surveyed indicated that money is likely the most important component for maintaining and attracting researchers. Tied closely to creating a strong research staff is the creation of an innovation culture within the R&D organization.

R&D has been, still and will remain imperative for understanding and making the “best” of “our” lives on planet “earth”. Here comes three questions: first, how to assess the outcome and “how best is best”; second, which lives and which are those included in “our”; third, what are the impacts on “earth” and would the earth provide all the necessary ingredients at all times.  The attached file demonstrates that R&D around the world is still driven with less investments towards solving the threats facing the majority of world population. The focus as far as the majority of the world population is concerned is still geared towards one of the three main sustainability pillars which is “Economy”. The “environment” and “social” issues of the majority of the world population have to remain of much less priority.

Click to access 2016GlobalR%26DFundingForecast_2.pdf

Sustainable Energy – Technology, Life-Style and Civilizations on Planet Earth

The history of technology (https://en.m.wikipedia.org/wiki/History_of_technology) involves invention, development and implementation of techniques, skills, methods and solutions with consideration to the best available knowledge and know-how. In the evolution of technology it was shaped and reshape by using different forms of energy: man and animal power (muscle’s energy); energy from plants in (agriculture revolution); energy from simple natural resources (fossil-fuel era); and the advanced use of natural resources (nuclear power). The history of technological evolution thus describe transformations in life-styles and civilizations. Throughout these historical transformations, humans realized not only the importance of energy for life and survival but more importantly the limitations, threats and negative impacts embedded in the different forms of energy and associated interactions in the life-cycles of production and consumption. More recently, we came about the needs to be able to master all problems, threats, negative impacts and possibly even control the future using technology (https://en.m.wikipedia.org/wiki/Technology). This is the birth of sustainability and creation of green technologies with renewable and sustainable energy resources (https://en.m.wikipedia.org/wiki/Sustainable_energy) for the sake of protection and preservation of natural resources in particular aquatic, ecosystem and biodiversity, i.e. life and its quality on earth.

 In ecology, sustainability is the capacity to use our natural and essential resources for benefit of future generations as well (https://en.m.wikipedia.org/wiki/Sustainability). However, from the geological perspective and biological evolution viewpoint, the future of the Earth can be extrapolated based upon the estimated effects of several long-term influences. This is indeed, very complex and can only be predicted without great details (https://en.m.wikipedia.org/wiki/Future_of_the_Earth).