Dar & Company

Demographic Change:
The Strategic Ascent of the Global South



All projections are unreliable. Financial and weather projections are not reliable at all while demographic projections or forecasts are the least unreliable. This is because demographic trends unfold slowly and fertility and mortality trends once established take decades or even generations to reverse. All the mothers for the next generation of babies have already been born and their supply cannot be increased but it can be decreased by human and natural calamities. Moreover, once fertility rates start declining (as they have been everywhere on the planet for the past several decades and are now below to well below replacement rates in many countries) the trend does not readily change direction.

The World Population:  Still Growing But Very Unevenly and Slowly 
In the mid 1960s the world's population (according to the International Database of the US Census Bureau) grew at over the twice the present rate. Thirty five years from now, it is forecast, the world's population will grow at less than half the present rate: a 75% reduction in the rate of growth in 70 years. This means that while it took about 3 decades for the global population to increase by 50%  to the present level of a little under 7 billion it will take 6 to 7  decades for the next 50%  increase and then virtual stagnation for a while followed by absolute decline. Clearly the global population will age rather quickly and the worker to dependent ratio will decline tangibly over the next few decades in a majority of nations. Many nations will have to adjust to an absolute reduction in workers and to more grandparents than grandchildren.

 

World population growth over the next 4 decades will be driven by the Indian Sub-continent, Indonesia and Africa while currently economically, financially and culturally important parts of the world will witness large absolute population declines, notably the entire European continent (particularly Eastern and Southern Europe), Russia, Japan and South Korea.  China will have fewer people than at present and population growth in Latin America will be modest. The only advanced economy to experience population growth will be the US, because of immigration.

Small Differences Lead To Big Changes

Small differences in fertility and death rates, especially infant mortality rates, have profound cumulative consequences.  Twenty five years ago China's population was larger than that of India and the US combined. In another 25 years India's population is expected to exceed that of China and in 40 years, it is projected that India's population will be only a little less than that of China and the US combined.

 

Twenty five years ago Russia (not the USSR) had the 5th largest population. Now it is the 9th largest. Twenty five years from now Russia's population will drop to 12 largest and in 40 years from now Vietnams' population will exceed that of Russia. Ethiopia is projected to have more people than Russia, Japan and Germany combined. At present Ethiopia's population is notably smaller than Russia and only slightly larger than Germany.

 

Twenty five years ago the US had a population equal to that of Japan, Germany (east and west) and Spain combined. At present the US population is somewhat larger than that of Japan, Germany, Spain and Italy combined. In twenty five years the US is projected to have a population equal to that of Japan, Germany, Spain, Italy and France combined. In forty years the US population is anticipated to substantially exceed that of Japan, Germany, Spain, Italy, France and the UK combined. The great majority of the growth in the US will be in the South, Southwest and Mountain states. Texas and Florida will sharply increase their share of the US population, economic activity and energy use while Illinois and New York will see their shares much reduced and California may simply stagnate in national shares (or fall if immigration is less than forecast and the flight of the middle class out of the state continues at present levels).

 

The remarkable descent of Europe, Japan and Russia is matched by the equally remarkable and transforming ascent of Africa. Twenty five years ago, the largest African nation Nigeria, ranked 10th, with a population not much greater than Mexico. At present Nigeria ranks 8th, having surpassed Russia and is about 40% bigger than Mexico. In twenty five years Nigeria will rank 7th with a population approaching that of Brazil, the largest Latin American nation and a population about 55% bigger than Mexico. In another forty years Nigeria is projected to be larger than Brazil and about 80% larger than Mexico. However, by then Nigeria will no longer be the largest African nation: Ethiopia will have surpassed it; with a projected population equal to that of Russia, Japan and Germany combined. Twenty five years ago Ethiopia had a population about a third that of Japan and close to that of Spain.

 

As property rights generally expand in the Global South and generally erode in the West, technology diffuses with increasing rapidity, risk capital and entrepreneurs follow opportunity in Asia, Africa and parts of Latin America and billions of very poor people seek to escape hunger, disease, illiteracy and immobility in the Global South multiple natural resource, consumer goods, computing and communications, entertainment, healthcare, education, transportation, logistics and military/police industries  will be transformed well  our ability to anticipate.

Electricity Is the Basis of Growth

The demand for manufactured energy, especially electricity, protein, switched bandwidth, formal education, personal transportation, clean water, sanitation and medical goods and services must increase by multiples in the Global South to enable billions to reach even a lower middle class level of comfort, convenience and material consumption.

 

The foundational resources upon which all else will depend are electricity, water, transportation fuels, iron ore, copper, vegetable and animal protein, cooking oils and switched spectrum. The most vital of these resources is electricity on which depend other foundational industries. The ascent from peasant and indentured menial labor to lower middle class and from lower middle to middle class; from rural to urban; from isolated to connected is powered by electricity given the nature of global technology and material preferences. The energy, particularly, electricity intensity of the global economy is about to increase hugely.

 

This ascent must entail per capita increases in the consumption of:  foundational resources, infrastructure, personal communications and mobility machines  and devices, formal education and organized healthcare that notably exceed the rate of population growth, especially in the poorest and most demographically expansive parts of the world : China's impact on global resource and engineered projects and goods markets is but a prelude to what may come next since many more Global South men, women and children have yet to rise from poverty into the lower middle class than have already escaped chronic and quotidian material deprivation.

 

There are only three widely accessible, planetary scale resources that can provide the vast majority of the additional electricity needed by the Global South over the next 4 decades.  These are coal, natural gas and nuclear power. Several other resources, of course, will be used but their combined share of new power generation will be quite small.

 

Big Oil will be matched and then surpassed by Big Gas over the next quarter century as a worldwide industry. Big Coal and Big Nuclear will expand dramatically, the latter more than the former, but neither will  match the growth in Big Gas over the next 2 and, cumulatively,  possibly the next 4 decades.

 

Technological innovation, risk and sovereign capital, greater understanding of the abundance and economic value added of natural gas and the entrepreneurial imagination are converging to immensely expand and transform the global natural gas industry.

The potential for conventional onshore natural gas alone in Africa, Asia and Latin America is still great. Siberia and Iraq are also little explored and natural gas resources in just those two parts of the world are believed to be most impressive.  There have been more onshore exploration wells drilled in the US than in all Asia, Africa and Latin America combined. It is a truism in the business that the more and better we seek, the more and in more abundance we find.

 

The deepwater natural gas resource , globally, is also very little explored and now believed to be huge as the recent discoveries in the Gulf of Mexico, offshore West Africa,  Western Australia, Brazil and Israel indicate.

 

The vastly greater potential is in tight sands, shale and coal bed methane formations: all of which, it now appears, are widely found in the world. Over the next 5 years scores of billions of dollars will be invested in delineating, developing, producing, treating and transporting these new natural gas sources.

 

Then, of course, there is what might be termed the ultimate terrestrial hydrocarbon resource: methane hydrates, once a curiosity and still a nuisance but now within sight of becoming a useful energy source.  These hydrates are cages of ice within which methane is trapped. They are found all over the world in the sediment at the bottom of lakes, seas, coastal waters of oceans and in permafrost. Russian investigators discovered them first a few decades ago in Lake Baikal. The US currently has the most extensive research program followed by Canada and Russia but it is India, China, South Korea and Japan that are most determined to begin commercial development of this staggeringly large and globally distributed energy source. The already identified methane hydrate resource is so tremendous that researchers estimate it has more than twice the energy content of all coal, oil and other natural gas resources combined, globally.

 

If the governments of South Korea, Japan, China and India are to be believed commercial scale methane hydrate projects could be reality in Asia before the decade is out.  Europe, Canada and the US may prevent commercial development within their borders and Russia is not currently interested but Asian nations have both the motive and will to proceed.

 

Global natural gas use (and supply) can readily increase by 50% in the next 10 years and double in the next 20 and then grow at 8 to 10% annually for another 2 decades.  Already the Global South and Russia produce and consume more natural gas than the West. Their market share will continue to grow apace and within 20 years the share of the West is likely to fall below a third and below a quarter within 25 years. Big Gas will be decidedly non-Western in terms of production, processing, transmission, distribution and use within a generation. Clearly this will provide the avenue for large oil and gas companies based in Brazil, China, India and maybe Australia and Russia to join the fraternity of the current integrated majors.

 

Coal is the dominant source of power generation in the Global South and in next 25 years coal fired generation outside the West will probably more than double.  However, the increase in nuclear power  and natural gas fired generation   capacity will be even greater as abundant natural gas makes rapid deployment of rather low initial cost capacity feasible and attractive( once the needed infrastructure is built) and as many nations, especially Asian countries deploy scores of new nuclear plants. The advanced gas turbine is efficient; is easy to locate even in dense metropolitan areas; has a low capital cost; can be constructed within months, requires very few skilled workers to operate and most of its lifecycle cost is the cost of fuel.

 

Russia plans to deploy an additional 40 reactors over the next 25 years (10 under construction), while China already has 26 nuclear plants under construction and plans to build scores more. India has 6 plants under construction and also plans to build dozens more. In addition Vietnam, Indonesia and Pakistan are expected to have new nuclear plants within 10 years. Brazil plans to build 8 plants over the next 25 years.

 

There are 441 nuclear reactors operating today, worldwide with the US, Japan and France accounting for over half the total. There are about 65 nuclear plants under construction globally, another 143 are planned over the next 8 to 10 years (of which 55 are in China and India versus 9 in the US) and over 330 have been proposed over the next 15 or so years (120 in China alone and 40 in India with Russia hoping to build 30 more versus 22 proposed for the US, about the same number as proposed for the Ukraine). If mini reactors become popular, the number of proposed reactors will increase by scores.

 

Currently 1.5 billion people in the Global South have no access to electricity which means they are decoupled from opportunity and global transformation. This is why rapid and massive electrification is such a priority for China and many countries in Africa and Asia, especially India, Indonesia, Pakistan, Bangladesh, Nigeria, Uganda, and Ethiopia where very large population increases will occur. Vietnam shows that where there is a will electricity can be brought to poor people rather quickly. About 15 years ago, half the people in Vietnam had access to electricity; now almost the entire population has this access. This trajectory will be replicated in many poor nations over the next 15 to 25 years.

Speculating On the Consequences of Demographic Change

The point of speculation is to help construct strategic and investment scenarios, knowing that speculation is an aid to thinking about uncertainty, risk and complexity.

 

  1. English will become even more dominant as the global language. This is because there will be substantial population  and literacy growth in the Indian Subcontinent, the Philippines, and in English speaking African nations such as Nigeria, Kenya and Uganda. English is already the language of commerce, higher education and of the governing elites in these countries. Moreover when Ethiopians want to talk to Vietnamese in the years head or Russians to Brazilians or Indians to Indonesians and the Chinese to Nigerians about business, trade, geo politics and policy coordination they will use English not Mandarin or Espanola.

    It will be more important than ever to know and communicate well in English in the next four decades. Already India is (after a fashion) the largest "English" ("Indlish" being a dialect of English) speaking country in the world and Nigeria reportedly has more English speakers than the UK.

 

  1. The Global South has already politely, obliquely and implicitly rejected Carbon Controls. In the next 5 years, it will do so impatiently, directly and explicitly. Russia will align itself with the Global South.  Increasingly global energy and environmental policy will be set by China, India, Brazil, Indonesia, South Africa and Nigeria with Russia supporting.

    Europe and Japan have already been marginalized as factors in global policy making in energy and the environment. The US is on the verge of being ignored if it continues to limit domestic energy development to well below its potential; demonize oil, gas and coal companies; be irresolute about nuclear power and hostile to deep water drilling.

    It is through much increased electricity and carbon consumption that billions of people in Asia, Africa and Latin America will rise from wretchedness and fear to attain a lower middle and middle- middle class level of material satisfaction, security and comfort. They will not be denied.

    The global economy is about to become tangibly more electric and carbon intensive. The West has neither the will nor the money (for bribes to deploy uncompetitive and sometimes fraudulent renewable energy projects, the basis for many renewable programs in Asia, Africa and Latin America) nor the political power to prevent this. 

    What the Western upper classes have forgotten or choose to ignore is that the more economically secure a society, the cleaner it is; the lower its infant mortality and fertility rate; the better care it can take of children, old and feeble people and the more its women are freed from drudgery and domination.

 

  1. Leadership in coal and nuclear power plant and related systems design, engineering, procurement and construction as well as ultra high voltage long line transmission will shift to Asia within a decade. In the nuclear industry, Japan, South Korea, China and later India will take over leadership from the US, Canada and Europe although Russia will continue to be important and successful. It takes a large and vibrant domestic market for companies to develop and refine the competences to be globally competitive. As the market shifts, so the industry value chain, talent and management skills shift, drawing resources and ambitious people from stagnant or low growth to high to very high growth markets.

    Russian companies envision a market in the scores for floating and mini reactors(in which Russia leads) with initial niches being remote oil and gas field development in Siberia, several parts of Asia and Africa and water treatment and desalinization projects in several nations. Floating reactors have already been designed and built and are being deployed by Russian companies. Mini, low maintenance, reactors will appeal to dozens of small poor countries because they can be located close to or even in metropolitan areas.

    In the coal industry, power plant development and international trade is likely to be increasingly dominated by Chinese and Indian entities over the next 2 decades and Chinese and Indian ownership of coal mining companies and ventures will grow worldwide. Many coal companies or projects in Canada, the US, Australia, Colombia, Indonesia and parts of Africa will have Indian and Chinese companies and investors as majority or important minority owners.

    Ultra high voltage long line transmission systems may be an emerging industry heavily shaped by Chinese companies who will be world leaders in deploying such systems this decade, first domestically and then in parts of Africa and Asia. Very few such systems, which are extremely efficient and can transport electricity over large distances from generation to market with negligible losses, will be built in the West because of almost impossible regulatory, permitting and siting obstacles.  Very large nuclear and coal generating complexes with multiple reactors or mega coal plants (up to 5 Gigawatts of capacity per complex) are very well suited for such transmission systems. India and China are proceeding with such complexes.

 

  1. As the scale, technological complexity, variety and sheer number of energy production, supply, transportation and distribution projects proliferates there will be increasing financial connectivity amongst entrepreneurial energy companies , private and state owned integrated oil and gas companies, private equity funds and sovereign wealth funds. Each participant will take the appropriate capital tranche in a mega-project or in a specially designed venture.

    Capital flows out of the Global South into North American oil, gas and coal ventures (and to a much lesser extent Eastern European and Australian), projects and   medium to large independent companies will also become more common and substantial.  The Canadian and US oil and gas E&P industries are likely to see several billion dollars per year of  risk and expansion capital from China, India, Brazil and perhaps sovereign wealth funds or state owned companies in other Asian and Latin American  countries  this decade.

    In addition, thousands of new energy, energy technology and specialized energy services companies will be started or spun off in dozens of countries to participate in the unfolding energy boom in Asia, Latin America and now Africa. While hundreds will be started in the West as technology, talent, risk capital niche operating experience or highly specialized knowledge bridges between the West and the Global South, many times that number will be indigenous to the Global South. 

    As property rights spread and are codified and institutionalized in scores of Asian, Latin American and African countries a boom in energy (and other foundational resources) boom will propel a boom in native energy entrepreneurship. In turn this entrepreneurial boom (a happy dividend at the intersection of demographics, resources and property rights) will attract great amounts of private equity from all over the world and in turn lead to the gestation of dozens of new or reoriented private equity funds.  

 

  1. The non-hydro renewable energy industry will have to change its technology focus and business model if it is to be more than a minor niche in the Global South. The current model in the West is based on the monetization of subsidies and mandates. Low efficiency and/or low capacity factors as well as extensive use of land are common flaws. The food to fuel renewable industry makes little sense in the West and (outside the sugarcane to alcohol industry of Brazil) no strategic or moral sense in the rest of the world. While the current Western model can be forced to persist in stagnant electricity markets where renewable energy can be substitution or replacement energy it is not tenable in the Global South where large amounts of net new electricity have to be brought online quickly, affordably and repeatedly, over the next 3 to 4 decades.

    Relevant and advanced solar and ocean energy technologies  that can provide reliable energy at prices competitive with non-nuclear and non-hydro generation will either be proven, developed and deployed or renewable energy will be dismissed by scores of poor nations with urgent unmet needs as a Western hobby or self indulgence.

    Examples of these new technologies are solar towers that can produce power for hours when there is little or no sunlight; spray-on solar for the roofs and walls of buildings; embedded solar in consumer products; and self healing solar panels for use in remote, off grid, locations where very high value added applications (refrigeration of medicine, milk fish and meat), communications and remote sensing justify the high capital and installation cost. 

    Other examples are ocean thermal gradient heat to electricity conversion (particularly relevant to scores of Pacific islands); ocean wind (ocean winds are much stronger and more reliable than land winds leading to greater power production per unit of capital: joint ventures between off shore oil and gas drilling companies and power generation companies are a possible business structure) and ocean tidal or current. (The coastlines of many African, Asian and Latin American regions are extensive and their coastal waters attractive oil and gas prospects.)

    This is, of course, the domain of entrepreneurial start ups and should these technologies become commercial hundreds of such start ups, based mostly in Asia but also the Southern Cone of Latin America and South and Central Africa, will germinate. Of course, most of these frontier ventures will be formed and seeded by citizens or permanent residents of the West (especially the US, UK, Canada and Australia) who have no vested interest in legacy technologies and business models.

    Hybrid offshore oil and gas production and wind power generation projects will provide yet another growth and leadership opportunity for Chinese companies or foreign entrepreneurs and energy companies seeking business in China. China is already the fourth largest offshore oil producer and has ambitious plans for deepwater and ultradeepwater hydrocarbon development. It also has world class capabilities in manufacturing and deploying wind turbines and, of course, a very big coastline. If the hybrid offshore energy production model is proven, companies from India and Brazil (already very competent in offshore deepwater drilling) will be active.

The Big Unknowns

Projections, scenarios and informed guesses are not predictions; they are not even high confidence forecasts. They cannot be because we do not and cannot know even the near term future much less one encompassing decades, continents, trillions of dollars and billions of people. The 3 perennial big unknowns that plague all forecasts and shape human history are still as potent as ever: Famine, pestilence and war.

 

Why famine? Because according to those who study these things two powerful natural cycles are converging: sunspot activity and the earth's magnetic field variation.  Sunspot activity is now very low and the sun seems to entering a periodic multi year or multi decade "quiet" period. This means less solar wind sweeping over the earth, allowing more cosmic rays to reach the atmosphere leading to much greater cloud cover, which means more rain and snow and less sunlight on the surface of the earth.

 

The earth's magnetic field is declining and is now about 40% of its average (the earth's magnetic field makes an "excursion" roughly  every 11,500 years -- it declines to 20 to 25%  of average strength and then returns to average strength.  If the field declines to about 15% of average strength the magnetic poles switch. This is called a reversal. Excursions are much more frequent than reversals, which are truly catastrophic events).  These "excursions” are accompanied by multiple, large scale, changes on the planet. The decline is accelerating. At present the magnetic north pole is drifting from North America to Siberia with increasing rapidity. The   last "excursion" was the Gothenburg event when field strength declined to 20% of its average, magnetic inclination changed by 180 degrees and field intensity fluctuated widely.

 

As the geomagnetic field declines both plate tectonic activity and atmospheric electrical violence increase. This means big increases in below ground and underwater volcanism, earthquakes and tsunamis and C-14 formation in the atmosphere (Nitrogen is converted to Carbon by electron capture as a result of atmospheric electrical activity); the production of other elements such as Iridium and Strontium in the atmosphere also increases. It literally rains carbon and other radioactive elements under these conditions.

 

The  relevant consequences of the convergence of these natural cycles is more violent weather  and  more extreme weather conditions as well as more flooding and shorter crop growing seasons. In turn this means lower yields and more crop damage leading to rapid food inflation and actual deprivation for the poorest people. The combination of many more people in the poorest parts of the world and reduced food supply, of course, results in famine and the multiple evils that ensue.

 

Any positive adaptive response by the world will entail energy, bio engineered product, and capital requirements by global agriculture well beyond those currently anticipated.

 

Famine, floods, volcanoes, tsunamis and earthquakes surely make a mockery of our forecasts and pretensions.

 

It is the peculiar conceit of billionaires in New York and California that we control and influence nature and shape planetary destiny. On the contrary it is nature that dominates us and controls our destiny. The natural order determines the human material and physical condition, not the other way around

 

Why pestilence? As billions more people become more mobile and physically connected, infectious diseases can spread rapidly and savagely around the world. We all know what happens when traditionally separated peoples come into contact: they exchange unfamiliar germs. The lethal influenza epidemic of 1918 that spread with ferocity and speed around the world was supposedly the consequence of infected soldiers moving around the world. The panic and hysteria (and associated conspiracy fantasies and fabricated plots) engendered by even a low fatality global epidemic, much less pandemic, would cripple some industries and impair several economies. In a connected world thousands of deaths from an epidemic can create worldwide fear and disruption: millions of deaths can lead to economic, political and social catastrophes.

 

Why war? Famine and pestilence can lead to war; as can deprivation, envy and fear. Wars based on hatred of the "other" during times of great change and disruption is frequent enough as are wars of opportunism and conflicts over foundational resources. When people or polities feel threatened enough by the "other" they often go to war. When ambitious nations covet the wealth and resources of other, weaker, nations or seek to exploit the lack of will and purpose in competitors they often use war to further their dreams of power and avarice. As one world order fades and another struggles to be born, we are entering an interregnum, one where geostrategic conflicts and violence become more not less likely.

 

It has been observed frequently that demographics is destiny. This is why it is both useful and important to try to comprehend global demographic change, its intersection with property rights and technology and wonder   what this means for both our investment and personal lives.

 

It may also be worth pondering that, compared, with any conceivable human need for energy in the 21st century, nuclear, methane hydrate, solar and ocean energy resources are limitless. When the energy supply constraint ceases to be binding all other resource constraints are also relaxed and healthy, educated, free and entrepreneurial people become a nation's most valuable resource.