Our well-being on planet Earth depends on three main essential drivers, i.e. Water, Energy and Natural Resources (fossil minerals and renewables including biosphere and its eco-systems) ‘WENR’. To achieve sustainability and resilience in our societies and to promote prosperity requires using and sharing our common 'WENR' capital with consideration to the complex and multi-layered NEXUS, i.e. the interactions and processes within and between these three drivers 'WENR’. Currently, Earth is facing existential threats caused by us collectively. Scaling-Up and Scaling-Out 'Science, Technology and Innovation' of the WENR-systems and coupling them to the 'Socio-Economic-Environment' pillars of our societies as defined by the UN-SDGs are one of the very few means to mitigate existing and future threats and bring full vitality in the functioning and metabolism of all life forms and processes on Earth. Sustain-earth.com is an open access online platform that allows active contributions and feeback.
Category: Politics & Infrastructure
Politics and basic infrastructures for society services are basic components that can promote regional security, democracy, socio-economic developments and global stability with feedback impacts on each other and on world trade, international agreements and treaties for promoting large-scale and long-term sustainable policies, e.g. green-house gas emissions, peaceful use of chemicals and nuclear energy, navigation and aviation, immigration policies, world trade, trans-boundary agreements, catastrophe and disaster aid, human rights, …… etc. Politics and basic infrastructures have also impacts on global economy, peace, security and democracy through complex global interactions of major military, religious, economic, government and democratic institutions, e.g. UN-organizations.
The green ideology is a philosophy practiced and advocated for by a coalition of political leaders and activists, whose goal is to advocate for peace, security, unity, preservation of the environment and ecosystem for socio-economic development, all over the world. These political leaders and activists are called “The Greens”. The Green ideology rests on solidarity that can be expressed in three parts: Solidarity with all the people of the world; Solidarity with animals, nature and the ecological system; Solidarity with future generations. For more information on this Political Platform, please, visit:
The fact that the green ideology puts environmental responsibility at the same level like other development sectors, means that it provides the necessary political will to curb environmental degradation, which is more often lacking with conventional governments.
ABOUT the author: ROBINAH K. NANYUNJA, is the President General, Ecological Party of Uganda, which is Uganda’s Green Party. She is a Green MP Candidate for Kawempe North Constituency 2016 in Kampala Uganda. Full BIO: http://www.robinahknanyunja.com/robk/?page_id=38
UNEP along FAO, ICRAF and a number of Sudanese NGOs and institutes describe how and why the agricultural sectors in Sudan were gradually degraded and moved rapidly towards more or less total collapse because of environment over-taxation. Since the introduction of mechanization of rain-fed agriculture by the British in 1944 several negative impacts, due to lack of control and planning, were piled up during the last half of the 20th century. This has caused large-scale destruction of environment and triggered severe negative impacts in other sectors as well. The traditional and mechanized agriculture account for 55 and 45 percent respectively of the rain-fed cultivated area. The importance of the irrigated sub-sector is reflected in the fact that while it makes up only 7 percent of the cultivated area, it accounts for more than half of the crop yields. However, irrigated land has own problems. Rapid, uncontrolled privatization, random investment and failure to couple education and research to market and society needs are major causes.
Management of land-water resources in Africa is IMPERATIVE. However, past experiences show not only major failure but the great threats of the blind and random implementation of imported technologies, e.g. Sudan where its cultivable land is about 42 percent with frequent claims that it is the potential ‘breadbasket’ of Africa and Middle East. Agriculture, the largest economic sector in Sudan, became the heart of some of the country’s most serious environmental problems: wide-range of land degradation, riverbank erosion, invasive species, pesticide mismanagement, water pollution and canal sedimentation. Also rangeland’s vulnerability to overgrazing is high and its overlap with cultivation is a major source of potential conflict. The significance of these threats cannot be underestimated: not only are 15 percent of the population partly or wholly dependent on imported food aid, but the population is growing, per hectare crop yields are declining and the enhanced competition over scarce agricultural resources.
The agricultural sector in Sudan is the main source of sustained growth and backbone of Sudan’s economy. Unfortunately, the sector’s economic stake is declining more and more with the emergence of the oil industry. Sudan continues to depend heavily on agriculture, whose share fluctuates around 40 percent of the GDP. The crop and livestock sub-sectors together contribute 80 to 90 percent of non-oil export earnings. With these trends the country will face more unemployment and famine as fifty-eight percent of the active workforce is employed in agriculture and 83 percent of the population depends on farming for its livelihood.
Global warming adds new threats as the agricultural sector in Sudan is highly vulnerable to shortages in rainfall and there has been substantial decline in precipitation and climate change models predict that this trend will continue. Without major action to stop the wave of de-gradation and restore land productivity, the natural resource base will continue to shrink, even as demand grows. Resolving this issue is thus central to achieving lasting peace and food security.
The needs, drivers and tools to make life accessible, affordable and sustainable on earth are explained and described at “Sustain-Earth”. Take a cop of coffee or tea and explore what “Sustain-Earth” is ABOUT.
There many examples of businesses in the public sector that went over to private owners, and visa-versa, with major political transformations/reforms. Such major shifts from private-to-public or public-to-private were not always performed on sustainable long-term policies with solid assessment analysis of the socio-economic consequences. Sustainable economic management requires taking in considerations how the lifecycle of companies may look like in a turbulent and dynamic world.
Air pollution is a worldwide problem especially in many big cities and industrial areas around the world. Emission of fine particulate matter (e.g. aerodynamic diameter ≤ 2.5 µm; PM2.5) , chemicals (e.g. biogenic VOC) and pollutants (e.g. heavy metals), and associated photo-chemical reactions (e.g. production of tropospheric ozone) in the atmosphere as well as in-cloud interactions (e.g. acid rain) experienced dramatic changes since the industrial revolutions. Concentrations of hazardous pollutants in global atmospheric air masses, dry and wet precipitates have been subject to gradual increasing reaching harmful levels for air-quality what regards human health (e.g. lung cancer, mortality) and the environment (e.g. negative impacts for forests and vegetation and quality of life in aquatic eco-systems) in many places around the world.
Climate change influences air quality through several mechanisms, including changes in photochemical reaction rates, biogenic emissions, deposition/re-suspension, and atmospheric circulation. Several techniques/approaches were used in such studies including atmospheric chemistry, climate model inter-comparison, high-resolution satellite observations together with a global atmospheric models and extensive compilation of surface measurements to better represent global air pollution exposure.
It is interesting and even generous that some nations and civilizations were able to maintain something that describe and illustrate the beautiful reality but yet a difficult and critical past of their history. It is part of the nations and civilization’s mindfulness of their cultural heritage where conflicting history is turned to friendship. Granada is a true window for a glamorous past worth visiting instead of reading history books. Granada is an integration of innovative architecture, cultural history in a unique social and environment context.
Climate Change impacts are moving fast towards a global dangerously heat up of the planet over the next 5 decades. Major cities around the world could become uninhabitable because of irreversible man-made climate change within the coming few decades. The changing temperatures could render some nations uninhabitable with uncontrollable migration across borders. Camilo Mora and his team predict that in about a decade, Kingston, Jamaica, will probably be off-the-charts hot — permanently, Singapore in 2028, Mexico City in 2031, Cairo in 2036, Phoenix and Honolulu in 2043 as global warming takes hold.
The study from the University of Hawaii published online Wednesday in the journal Nature predicts that even if we utilized all resources to stop and halt our current carbon emissions, the changes are irrevocable and can only be postponed. Climate Departure maps show the cities that will suffer from irrevocable climate change. Ecosystems across the world would, also, regularly experience never-seen heat environments, such results are based on about 150 years of record-keeping.
The world is experiencing tectonic changes in terms of population, economy, production, services and technology. The world in the year 2050 will not any longer be as it used to be in the past decades.
The world population will grow from 6 billions in the year 2000 (one billion in the developed world and five billions in the developing world) to 9 billions in the 2050. One hundred million out of the three billions of the global increase in population will go to the developed world, while the developing countries will increase by 2.9 billions. This is a dramatic shift in world population in the coming five decades only, i.e. an increase from 6 to 9 billions.
The other consequential change is, by the year 2000, the developed world (one billion people) had 80% of the global economy while the developing world (five billion) had the remaining 20%. But, by the year 2050, the developed world will have only 35% of the world economy, while the developing countries will have 65% of the global economy. So, the 80% vs 20% of global economy of the year 2000 will be change to 35% vs 65% by the year 2050. This is just turning the world on its head in terms of the world that used to be in the past decades. This dramatic change in the structure of world economy is being driven by the development in global population and the fast transfer of modern technology to the developing countries.
You can imagine how such monumental economic shifts mean to the young generation world over. This is a change of enormous importance where India and China by the year 2050 will constitute 50% of the global GPD, this is a monumental switch in terms of economical power.
In the year 2000, one billion middle class people were in the rich countries and half billion people were in the developing countries. By the year 2030, 2 billion middle class people will be in Asia (one billion in China by 2050). Africa will grow from 850 millions people in 2000 to two billions people 2050. By the year 2050, the average income in Africa will be 2000-3000 dollar per capita, for China and India will be between 30 000 and 40 000 dollar per capita, and for the countries in the rich world (US and Europe) will be between 90 000 and 100 000 dollar per capita.
Africa is a continent that is not any longer isolated, it is not a place where people are not well informed as information is passing and moving very quickly. Much trade and business in China and India is geared towards Africa.
These tectonic changes have monumental impacts on the young generation and they have to think very carefully how to face the global transfer in economy, production, services and technology. Education figures for the year 2007, tell us that 110 000 Chinese and over 100 000 Indians were studying in the US, while only 11200 Americans were studying in China and 2800 Americans in India. But, these figures will experience dramatic changes in the future because the mentioned major shifts in economy, production, services and technology.
The western countries were able to stay ahead because of (1) manufacture and that was taken away and moved to Asia; (2) service industries that first moved into the western countries but is moving out again to Asia by their gradual dominance in the service sectors; (3) technology where the west were able to stay ahead, but now the technological advance is being shifted as well to Asia. The challenge is now what is left for the west to do??
Necessity is the mother of invention. Where energy lacks there is much concern about finding it and using it with the most sustainable manner possible. This is why Iceland is among very few countries in the world where Renewable Energy Resources are managed with the best possible sustainable solutions. It is, also, possible that the availability and affordability of renewable energy in Iceland attracted Scandinavians to settle in Iceland sometime around the second half of the 9th century as in ancient cultures people sought living there were good possibilities to secure “WE-resources”. i.e. water and energy resources. The necessity and needs for survival are essential drivers for inventions and advances in science and technology. It is interesting to mention that 100% of the electricity production in Iceland is produced from renewable energy resources, i.e. hydropower and geothermal heat. Furthermore, 85% of total primary energy supply in Iceland is derived from domestically produced renewable energy sources.
So, we have something to learn from this country that in addition of being in the icy part of the world has a very long dark winter season. However, Iceland is not as cold as Minnesota (USA), for example, and not as dark as Tromso (Norway). That doesn’t mean that Island is some tropical paradise though.
The dream of any nation is to provide its population with safety and security especially in most critical situations with severe disasters, tragedies and collective nightmare arising from fear, insecurity and uncertain future. The nuclear disaster and the national tragedy from Fukushima nuclear accident in Japan demonstrated how collective efforts, the neat national planning along with continuous and intensive hard-work brought about safety and security for almost all the population in Japan.
An amazing awareness and responsibility on all levels for the DE-COMTAMINATION of every single inch or centimeter of land, houses, school, hospitals, roads, trees and practically all environmental compartments. A national DE-COMTAMINATION strategy if followed by other nations much of pollutions and waste problems can be solved. Successful sustainable management is about providing future generations with secure and safe living conditions, it is a collective discipline, awareness and responsibility from all for all and by all including preparing and fostering future generation for how to handle national disasters and severe tragedies.
Geothermal energy is among potential “semi-global” natural energy resources, as it is only accessible and affordable in economic terms in hot and limited areas around the globe. It is also considered to be relatively user friendly, more energy-intensive in comparison to solar energy, has less threats in case of technical failure as compared to nuclear power, simple and more safe production-technology in terms of drift and above all more durable and lasing natural source. It is indeed a form of “fossil resource” as being a remainder from the Big Bang. However, unlike energy produced in stars such as in the sun (solar energy) through fusion-reactions, energy in planets such as the earth is being produced through decay processes of the primordial radio-activity. Actually, without the embedded sources of heat in the earth’s body, i.e. the energy emitted through the decay of natural radio-activity, e.g. the radio-active members of the U and Th series, and many other radio-active isotopes of other elements that can have half-lives much longer than the age of the universe itself, e.g. Te-128 of half-life of 2.2 exa millions (billion billion millions) of years.
The most interesting issue in energy production and use is that water in always involved in these processes with two main impacts what concerns WE-resources, i.e. Water and Energy. For energy we are consuming more energy resources and thereby less we are gradually facing less access to energy resources and as a consequence increasing prices of energy production. As energy production, use and consumption create more waste and pollution as well as bring water to more open systems and interactions there is continuous and gradual degradation in water quality and thereby increasing threats to all life forms on the earth.
So, production and use of geothermal energy can be, also, associated with negative impacts on water resources, environment and bio-diversity.
An important aspect for appropriate implementation of Sustainable Technologies is Sustainable Management. The fundamental question is How Sustainable is Sustainable? And what are the most appropriate solutions for Achieving the Best Socio-economic Sustainability? Among strategic long-term and large-scale policies for the MENA region, where arid and semi-arid conditions prevail, is Water Management because of its impacts on all involved sectors (energy, industry, agriculture and environment) in this region, life quality and bio-diversity. Unfortunately, existing literature still lack appropriate long-term and large-scale sustainability solutions as being based on “Business as Usual” without consideration to other possible and yet feasible alternatives.
Seawater desalination constitutes an important source for water supply for all sector activities and the population in the bordering the Arabian Gulf, the Mediterranean Sea, and the Red Sea. Desalination has advantages and disadvantages that may depend on the region, location, technology, impact and amount of fresh water production. Apart from the energy requirements for desalination, there are also other negative impacts in terms of waste management, fish production and quality of marine life in general. However, these impacts can be mitigated or even eliminated, by solutions other than those currently available.
Increasing pressures on natural resources, in particular availability, accessibility and affordability of Water and Energy “WE”-resources, require Sustainable Management Policies that consider shaping and integrating Sustainable Technologies to meet the growing needs for large-scale and long-term transformation to New Sustainable Life-styles. Unlike, in ancient civilization where population settlements were created at/around fresh surface-water bodies, e.g. rivers, lakes and deltas, future settlements are likely to grow faster at coastal regions “Hydroponic Coastal Colonies” and non-traditional living areas with limited fresh-water resources. Agricultural production may not require land to the same extent as in traditional farm communities; modern technology will allow more Sustainable Cities to grow on coastal areas as well. However, climate change threats for increasing sea-water levels have to be taken in consideration, what we have learned from the past safety and protection measures are always part of any successful socio-economic developments. The future is bright by innovation and not by imitation.
It is an amazing journey to understand the evolution and existence of our cosmos, a universe formed from billions of galaxies and each one containing hundreds of billions of stars. It is a stunning fact, the enormous size of our universe and the multitude of stars and star-systems that can be found in our universe. The solar system with its only life on earth is just like a drop of water in world oceans.
Physics has contributed enormously to uncover and explain the fundamental forces governing our universe and all the matter composing it. The contribution of physics in astronomy was made possible through, when physics suddenly could say something about the fate of the universe. An amazing journey fueled by the scientific style of Albert Einstein in a dynamic community of elite researchers that had the ability to strip away all the complications and figure out the fundamental laws of physics in the world of complex unknown features.
Asbestosis is known to affect the tissue of lungs as a consequence of the inhalation and retention of asbestos fibers. This usually occurs after high intensity and/or long-term exposure to asbestos from mining, manufacturing, handling, or removal of asbestos. This is, also, the case for people in houses or areas contaminated by asbestos. Sufferers may experience severe dyspnea (shortness of breath) and are at an increased risk for certain malignancies, including lung cancer but especially mesothelioma.
As the damage to lungs occur from contaminated air, early investigation were carried out through measurements of asbestos levela in air samples, which is suspected to have caused asbestos-related lung problems.
Give your support to bio-diversity, environment and water issues and create public awareness to protect life from extinguision around the Great Ruaha River and the eventual the drying up of the river itself.
Ruaha Marathon, Irnga-Tanzania, is a social event which you can contribute in shaping it and improving its activities through not only being part of it but also by active initiatives and interactions. Social enterpreneurs can very well innovate in how they can be effective part of making this event move forward towards achieving sustainable socio-economic developments in Africa. All what Africa needs is INNOVATION, where people join together to share solutions. Life is about to serve and get served but do it with quality! Building up sound eco-tourism and green-awareness part supporting rural communities in Africa.
Efficient heating and cooling technologies with little or no carbon dioxide within residential, commercial and public buildings can dramatically reduce the world energy consumption and thereby considerable saving can be achieved. This can generate positive feedback effects on energy prices, global warming and life quality. This will promote more sustainable developments worldwide.
However, strong policy and awareness actions on all levels, sectors and stakeholders are needed to bring coherent solutions in the fragmented building sectors. In this context, increased technology RD&D is necessary to bring about new and affordable solutions that are suitable for different climate zones along with the environmental, cultural, social and economic conditions during the life-cycle financial benefits.
Knowledge on the World Energy Resources “WER” is much more important to know as compared to the World Water Resources “WWR”. In both cases management policies in terms of quantity and quality are IMPERATIVE.
While knowledge about Climate Change is essential for implementation of sustainable long-term and long-term management policies of the Water Resources, there are relatively more aspects to be considered for the sustainable management of the Energy Resources. Humans cannot manipulate “WWR” or Global Water Resources “GWR” in terms of quantity. What we get, we will get, and we can do nothing about it. However, regarding the quality of GWR it is the responsibility of humans to keep track on quality at all levels and on different scales, i.e. in terms of location and occasion “spatio-temporal scales”. So, what regards “GWR” management policies, technology is primarily coupled to consumption priorities of sectors, stakeholders and users as well as waste and pollution issues with consideration to climatic issues.
Management of “WER” involves production, consumption, and waste and pollution issues taking in consideration sectors, stakeholders and users. But “WER” require global players for import-export of both raw material and processed energy as well and in both cases waste and pollution aspects are involved. The dynamic balance of fossil versus renewable energy resources are very much technology related. Even in this case, Climate Change is becoming an important factor regulating how the dynamic balance of fossil versus renewable energy should look like, i.e. on “spatio-tempral” scales.
Climate Change and the expected impacts of Global Warming on global water resources will have pronounced effects worldwide in the 21st century. To see any change some references must be used and in this case as explained here the 20th century will be used reference for comparison. Among key processes in the global water cycle that are undergoing dramatic changes in dynamics and rates are: evapotranspiration; soil moisture; surface water flow and ground water levels. Changes in the dynamics and rates of these processes will have direct and indirect effects on the vegetation cover, forest, agriculture and farming as well as remarkable impacts on the global water supply with feedback effects on agriculture, industry and basic human need including drinking water .
Walls, in this case “geo-political” and “geo-economic” walls, are built for some reasons, raised and kept in place by some powers. However, with time they get gradually eroded. In this process of erosion, it is not if they will collapse or not but rather when the final collapse will be a reality. The collapse of huge “geo-political” and “geo-economic” walls is not of a small-scale and an over-night process. In any case, the suffering from the collapse has enormous large-scale and long-term impacts as the generated collapse and ruins shake and hits multiple of populations across many borders and for many years. Germany is an example of what “geo-political” walls can bring to populations and how the ruins after disastrous wars, raising and falling walls can be restored. In this context, “geo-economic” walls are not exceptions in history and what is happening in the MENA region is just a playback of history.
