Daniel Mankani "DynamicTrader – Trend Trading Dynamics" Trading for a living, systematically profiting from longer term trends.

1Jan/170

Energy Resources And Our Future.

Energy Resources And Our Future.

I am honored to be here tonight, though it is no easy thing, I assure you, for a layman to face up to an audience of physicians. A single one of you, sitting behind his desk, can be quite formidable.

My speech has no medical connotations. This may be a relief to you after the solid professional fare you have been absorbing. I should like to discuss a matter which will, I hope, be of interest to you as responsible citizens: the significance of energy resources in the shaping of our future.

We live in what historians may some day call the Fossil Fuel Age.

Today coal, oil, and natural gas supply 93% of the world's energy; water power accounts for only 1%; and the labor of men and domestic animals the remaining 6%. This is a startling reversal of corresponding figures for 1850 - only a century ago.

Then fossil fuels supplied 5% of the world's energy, and men and animals 94%. Five sixths of all the coal, oil, and gas consumed since the beginning of the Fossil Fuel Age has been burned up in the last 55 years.

These fuels have been known to man for more than 3,000 years. In parts of China , coal was used for domestic heating and cooking, and natural gas for lighting as early as 1000 B.C. The Babylonians burned asphalt a thousand years earlier.

But these early uses were sporadic and of no economic significance.

Fossil fuels did not become a major source of energy until machines running on coal, gas, or oil were invented. Wood, for example, was the most important fuel until 1880 when it was replaced by coal; coal, in turn, has only recently been surpassed by oil in this country.

Once in full swing, fossil fuel consumption has accelerated at phenomenal rates. All the fossil fuels used before 1900 would not last five years at today's rates of consumption.

Nowhere are these rates higher and growing faster than in the United States . Our country, with only 6% of the world's population, uses one third of the world's total energy input; this proportion would be even greater except that we use energy more efficiently than other countries.

Each American has at his disposal, each year, energy equivalent to that obtainable from eight tons of coal. This is six times the world's per capita energy consumption.

Though not quite so spectacular, corresponding figures for other highly industrialized countries also show above average consumption figures.

The United Kingdom , for example, uses more than three times as much energy as the world average.

With high energy consumption goes a high standard of living.

Thus the enormous fossil energy which we in this country control feeds machines which make each of us master of an army of mechanical slaves. Man's muscle power is rated at 35 watts continuously, or one-twentieth horsepower.

Machines therefore furnish every American industrial worker with energy equivalent to that of 244 men, while at least 2,000 men push his automobile along the road, and his family is supplied with 33 faithful household helpers.

Each locomotive engineer controls energy equivalent to that of 100,000 men; each jet pilot of 700,000 men.

Truly, the humblest American enjoys the services of more slaves than were once owned by the richest nobles, and lives better than most ancient kings. In retrospect, and despite wars, revolutions, and disasters, the hundred years just gone by may well seem like a Golden Age.

Whether this Golden Age will continue depends entirely upon our ability to keep energy supplies in balance with the needs of our growing population.
Before I go into this question, let me review briefly the role of energy resources in the rise and fall of civilizations.

Possession of surplus energy is, of course, a requisite for any kind of civilization, for if man possesses merely the energy of his own muscles, he must expend all his strength - mental and physical - to obtain the bare necessities of life.

Surplus energy provides the material foundation for civilized living - a comfortable and tasteful home instead of a bare shelter; attractive clothing instead of mere covering to keep warm; appetizing food instead of anything that suffices to appease hunger. It provides the freedom from toil without which there can be no art, music, literature, or learning.

There is no need to belabor the point. What lifted man - one of the weaker mammals - above the animal world was that he could devise, with his brain, ways to increase the energy at his disposal, and use the leisure so gained to cultivate his mind and spirit.

Where man must rely solely on the energy of his own body, he can sustain only the most meager existence.

Man's first step on the ladder of civilization dates from his discovery of fire and his domestication of animals. With these energy resources he was able to build a pastoral culture. To move upward to an agricultural civilization he needed more energy.

In the past this was found in the labor of dependent members of large patriarchal families, augmented by slaves obtained through purchase or as war booty.
There are some backward communities which to this day depend on this type of energy.

Slave labor was necessary for the city-states and the empires of antiquity; they frequently had slave populations larger than their free citizenry. As long as slaves were abundant and no moral censure attached to their ownership, incentives to search for alternative sources of energy were lacking; this may well have been the single most important reason why engineering advanced very little in ancient times.

A reduction of per capita energy consumption has always in the past led to a decline in civilization and a reversion to a more primitive way of life. For example, exhaustion of wood fuel is believed to have been the primary reason for the fall of the Mayan Civilization on this continent and of the decline of once flourishing civilizations in Asia .

India and China once had large forests, as did much of the Middle East .

Deforestation not only lessened the energy base but had a further disastrous effect: lacking plant cover, soil washed away, and with soil erosion the nutritional base was reduced as well.

Another cause of declining civilization comes with pressure of population on available land. A point is reached where the land can no longer support both the people and their domestic animals. Horses and mules disappear first.

Finally even the versatile water buffalo is displaced by man who is two and one half times as efficient an energy converter as are draft animals. It must always be remembered that while domestic animals and agricultural machines increase productivity per man, maximum productivity per acre is achieved only by intensive manual cultivation.

It is a sobering thought that the impoverished people of Asia, who today seldom go to sleep with their hunger completely satisfied, were once far more civilized and lived much better than the people of the West.
And not so very long ago, either. It was the stories brought back by Marco Polo of the marvelous civilization in China which turned Europe 's eyes to the riches of the East, and induced adventurous sailors to brave the high seas in their small vessels searching for a direct route to the fabulous Orient.

The "wealth of the Indies " is a phrase still used, but whatever wealth may be there it certainly is not evident in the life of the people today.

Asia failed to keep technological pace with the needs of her growing populations and sank into such poverty that in many places man has become again the primary source of energy, since other energy converters have become too expensive. This must be obvious to the most casual observer.

What this means is quite simply a reversion to a more primitive stage of civilization with all that it implies for human dignity and happiness.

Anyone who has watched a sweating Chinese farm worker strain at his heavily laden wheelbarrow, creaking along a cobblestone road, or who has flinched as he drives past an endless procession of human beasts of burden moving to market in Java - the slender women bent under mountainous loads heaped on their heads - anyone who has seen statistics translated into flesh and bone, realizes the degradation of man's stature when his muscle power becomes the only energy source he can afford.

Civilization must wither when human beings are so degraded.

Where slavery represented a major source of energy, its abolition had the immediate effect of reducing energy consumption. Thus when this time-honored institution came under moral censure by Christianity, civilization declined until other sources of energy could be found. Slavery is incompatible with Christian belief in the worth of the humblest individual as a child of God. As Christianity spread through the Roman Empire and masters freed their slaves - in obedience to the teaching of the Church - the energy base of Roman civilization crumbled.

This, some historians believe, may have been a major factor in the decline of Rome and the temporary reversion to a more primitive way of life during the Dark Ages. Slavery gradually disappeared throughout the Western world, except in its milder form of serfdom.

That it was revived a thousand years later merely shows man's ability to stifle his conscience - at least for a while - when his economic needs are great. Eventually, even the needs of overseas plantation economies did not suffice to keep alive a practice so deeply repugnant to Western man's deepest convictions.

It may well be that it was unwillingness to depend on slave labor for their energy needs which turned the minds of medieval Europeans to search for alternate sources of energy, thus sparking the Power Revolution of the Middle Ages which, in turn, paved the way for the Industrial Revolution of the 19th Century.

When slavery disappeared in the West engineering advanced. Men began to harness the power of nature by utilizing water and wind as energy sources. The sailing ship, in particular, which replaced the slave-driven galley of antiquity, was vastly improved by medieval shipbuilders and became the first machine enabling man to control large amounts of inanimate energy.

The next important high-energy converter used by Europeans was gunpowder - an energy source far superior to the muscular strength of the strongest bowman or lancer. With ships that could navigate the high seas and arms that could outfire any hand weapon, Europe was now powerful enough to preempt for herself the vast empty areas of the Western Hemisphere into which she poured her surplus populations to build new nations of European stock.

With these ships and arms she also gained political control over populous areas in Africa and Asia from which she drew the raw materials needed to speed her industrialization, thus complementing her naval and military dominance with economic and commercial supremacy.

When a low-energy society comes in contact with a high-energy society, the advantage always lies with the latter. The Europeans not only achieved standards of living vastly higher than those of the rest of the world, but they did this while their population was growing at rates far surpassing those of other peoples. In fact, they doubled their share of total world population in the short span of three centuries.

From one sixth in 1650, the people of European stock increased to almost one third of total world population by 1950. Meanwhile much of the rest of the world did not even keep energy sources in balance with population growth. Per capita energy consumption actually diminished in large areas.

It is this difference in energy consumption which has resulted in an ever-widening gap between the one-third minority who live in high-energy countries and the two-thirds majority who live in low-energy areas.

These so-called underdeveloped countries are now finding it far more difficult to catch up with the fortunate minority than it was for Europe to initiate transition from low-energy to high-energy consumption. For one thing, their ratio of land to people is much less favorable; for another, they have no outlet for surplus populations to ease the transition since all the empty spaces have already been taken over by people of European stock.

Almost all of today's low-energy countries have a population density so great that it perpetuates dependence on intensive manual agriculture which alone can yield barely enough food for their people. They do not have enough acreage, per capita, to justify using domestic animals or farm machinery, although better seeds, better soil management, and better hand tools could bring some improvement. A very large part of their working population must nevertheless remain on the land, and this limits the amount of surplus energy that can be produced.

Most of these countries must choose between using this small energy surplus to raise their very low standard of living or postpone present rewards for the sake of future gain by investing the surplus in new industries. The choice is difficult because there is no guarantee that today's denial may not prove to have been in vain.

This is so because of the rapidity with which public health measures have reduced mortality rates, resulting in population growth as high or even higher than that of the high-energy nations. Theirs is a bitter choice; it accounts for much of their anti-Western feeling and may well portend a prolonged period of world instability.

How closely energy consumption is related to standards of living may be illustrated by the example of India . Despite intelligent and sustained efforts made since independence, India's per capita income is still only 20 cents daily; her infant mortality is four times ours; and the life expectancy of her people is less than one half that of the industrialized countries of the West.

These are ultimate consequences of India 's very low energy consumption: one-fourteenth of world average; one-eightieth of ours.

Ominous, too, is the fact that while world food production increased 9% in the six years from 1945-51, world population increased by 12%. Not only is world population increasing faster than world food production, but unfortunately, increases in food production tend to occur in the already well-fed, high-energy countries rather than in the undernourished, low-energy countries where food is most lacking.

I think no further elaboration is needed to demonstrate the significance of energy resources for our own future. Our civilization rests upon a technological base which requires enormous quantities of fossil fuels. What assurance do we then have that our energy needs will continue to be supplied by fossil fuels: The answer is - in the long run - none.

The earth is finite. Fossil fuels are not renewable. In this respect our energy base differs from that of all earlier civilizations. They could have maintained their energy supply by careful cultivation. We cannot. Fuel that has been burned is gone forever. Fuel is even more evanescent than metals. Metals, too, are non-renewable resources threatened with ultimate extinction, but something can be salvaged from scrap.

Fuel leaves no scrap and there is nothing man can do to rebuild exhausted fossil fuel reserves. They were created by solar energy 500 million years ago and took eons to grow to their present volume.

In the face of the basic fact that fossil fuel reserves are finite, the exact length of time these reserves will last is important in only one respect: the longer they last, the more time do we have, to invent ways of living off renewable or substitute energy sources and to adjust our economy to the vast changes which we can expect from such a shift. Fossil fuels resemble capital in the bank. A prudent and responsible parent will use his capital sparingly in order to pass on to his children as much as possible of his inheritance.

A selfish and irresponsible parent will squander it in riotous living and care not one whit how his offspring will fare.

Engineers whose work familiarizes them with energy statistics; far-seeing industrialists who know that energy is the principal factor which must enter into all planning for the future; responsible governments who realize that the well-being of their citizens and the political power of their countries depend on adequate energy supplies - all these have begun to be concerned about energy resources. In this country, especially, many studies have been made in the last few years, seeking to discover accurate information on fossil-fuel reserves and foreseeable fuel needs.

Statistics involving the human factor are, of course, never exact. The size of usable reserves depends on the ability of engineers to improve the efficiency of fuel extraction and use. It also depends on discovery of new methods to obtain energy from inferior resources at costs which can be borne without unduly depressing the standard of living. Estimates of future needs, in turn, rely heavily on population figures which must always allow for a large element of uncertainty, particularly as man reaches a point where he is more and more able to control his own way of life.

Current estimates of fossil fuel reserves vary to an astonishing degree. In part this is because the results differ greatly if cost of extraction is disregarded or if in calculating how long reserves will last, population growth is not taken into consideration; or, equally important, not enough weight is given to increased fuel consumption required to process inferior or substitute metals. We are rapidly approaching the time when exhaustion of better grade metals will force us to turn to poorer grades requiring in most cases greater expenditure of energy per unit of metal.

But the most significant distinction between optimistic and pessimistic fuel reserve statistics is that the optimists generally speak of the immediate future - the next twenty-five years or so - while the pessimists think in terms of a century from now. A century or even two is a short span in the history of a great people. It seems sensible to me to take a long view, even if this involves facing unpleasant facts.

For it is an unpleasant fact that according to our best estimates, total fossil fuel reserves recoverable at not over twice today's unit cost, are likely to run out at some time between the years 2000 and 2050, if present standards of living and population growth rates are taken into account. Oil and natural gas will disappear first, coal last.

There will be coal left in the earth, of course. But it will be so difficult to mine that energy costs would rise to economically intolerable heights, so that it would then become necessary either to discover new energy sources or to lower standards of living drastically.

For more than one hundred years we have stoked ever growing numbers of machines with coal; for fifty years we have pumped gas and oil into our factories, cars, trucks, tractors, ships, planes, and homes without giving a thought to the future.

Occasionally the voice of a Cassandra has been raised only to be quickly silenced when a lucky discovery revised estimates of our oil reserves upward, or a new coalfield was found in some remote spot. Fewer such lucky discoveries can be expected in the future, especially in industrialized countries where extensive mapping of resources has been done.

Yet the popularizers of scientific news would have us believe that there is no cause for anxiety, that reserves will last thousands of years, and that before they run out science will have produced miracles. Our past history and security have given us the sentimental belief that the things we fear will never really happen - that everything turns out right in the end. But, prudent men will reject these tranquilizers and prefer to face the facts so that they can plan intelligently for the needs of their posterity.

Looking into the future, from the mid-20th Century, we cannot feel overly confident that present high standards of living will of a certainty continue through the next century and beyond. Fossil fuel costs will soon definitely begin to rise as the best and most accessible reserves are exhausted, and more effort will be required to obtain the same energy from remaining reserves.

It is likely also that liquid fuel synthesized from coal will be more expensive. Can we feel certain that when economically recoverable fossil fuels are gone science will have learned how to maintain a high standard of living on renewable energy sources?

I believe it would be wise to assume that the principal renewable fuel sources which we can expect to tap before fossil reserves run out will supply only 7 to 15% of future energy needs. The five most important of these renewable sources are wood fuel, farm wastes, wind, water power, and solar heat.

Wood fuel and farm wastes are dubious as substitutes because of growing food requirements to be anticipated. Land is more likely to be used for food production than for tree crops; farm wastes may be more urgently needed to fertilize the soil than to fuel machines.

Wind and water power can furnish only a very small percentage of our energy needs. Moreover, as with solar energy, expensive structures would be required, making use of land and metals which will also be in short supply. Nor would anything we know today justify putting too much reliance on solar energy though it will probably prove feasible for home heating in favorable localities and for cooking in hot countries which lack wood, such as India.
More promising is the outlook for nuclear fuels.

These are not, properly speaking, renewable energy sources, at least not in the present state of technology, but their capacity to "breed" and the very high energy output from small quantities of fissionable material, as well as the fact that such materials are relatively abundant, do seem to put nuclear fuels into a separate category from exhaustible fossil fuels.

The disposal of radioactive wastes from nuclear power plants is, however, a problem which must be solved before there can be any widespread use of nuclear power.

Another limit in the use of nuclear power is that we do not know today how to employ it otherwise than in large units to produce electricity or to supply heating. Because of its inherent characteristics, nuclear fuel cannot be used directly in small machines, such as cars, trucks, or tractors.

It is doubtful that it could in the foreseeable future furnish economical fuel for civilian airplanes or ships, except very large ones. Rather than nuclear locomotives, it might prove advantageous to move trains by electricity produced in nuclear central stations. We are only at the beginning of nuclear technology, so it is difficult to predict what we may expect.

Transportation - the lifeblood of all technically advanced civilizations - seems to be assured, once we have borne the initial high cost of electrifying railroads and replacing buses with streetcars or interurban electric trains. But, unless science can perform the miracle of synthesizing automobile fuel from some energy source as yet unknown or unless trolley wires power electric automobiles on all streets and highways, it will be wise to face up to the possibility of the ultimate disappearance of automobiles, trucks, buses, and tractors.

Before all the oil is gone and hydrogenation of coal for synthetic liquid fuels has come to an end, the cost of automotive fuel may have risen to a point where private cars will be too expensive to run and public transportation again becomes a profitable business.

Today the automobile is the most uneconomical user of energy. Its efficiency is 5% compared with 23% for the Diesel-electric railway. It is the most ravenous devourer of fossil fuels, accounting for over half of the total oil consumption in this country. And the oil we use in the United States in one year took nature about 14 million years to create. Curiously, the automobile, which is the greatest single cause of the rapid exhaustion of oil reserves, may eventually be the first fuel consumer to suffer.

Reduction in automotive use would necessitate an extraordinarily costly reorganization of the pattern of living in industrialized nations, particularly in the United States . It would seem prudent to bear this in mind in future planning of cities and industrial locations.

Our present known reserves of fissionable materials are many times as large as our net economically recoverable reserves of coal. A point will be reached before this century is over when fossil fuel costs will have risen high enough to make nuclear fuels economically competitive. Before that time comes we shall have to make great efforts to raise our entire body of engineering and scientific knowledge to a higher plateau. We must also induce many more young Americans to become metallurgical and nuclear engineers.

Else we shall not have the knowledge or the people to build and run the nuclear power plants which ultimately may have to furnish the major part of our energy needs. If we start to plan now, we may be able to achieve the requisite level of scientific and engineering knowledge before our fossil fuel reserves give out, but the margin of safety is not large. This is also based on the assumption that atomic war can be avoided and that population growth will not exceed that now calculated by demographic experts.

War, of course, cancels all man's expectations. Even growing world tension just short of war could have far-reaching effects. In this country it might, on the one hand, lead to greater conservation of domestic fuels, to increased oil imports, and to an acceleration in scientific research which might turn up unexpected new energy sources.

On the other hand, the resulting armaments race would deplete metal reserves more rapidly, hastening the day when inferior metals must be utilized with consequent greater expenditure of energy. Underdeveloped nations with fossil fuel deposits might be coerced into withholding them from the free world or may themselves decide to retain them for their own future use.

The effect on Europe , which depends on coal and oil imports, would be disastrous and we would have to share our own supplies or lose our allies.
Barring atomic war or unexpected changes in the population curve, we can count on an increase in world population from two and one half billion today to four billion in the year 2000; six to eight billion by 2050.

The United States is expected to quadruple its population during the 20th Century - from 75 million in 1900 to 300 million in 2000 - and to reach at least 375 million in 2050. This would almost exactly equal India 's present population which she supports on just a little under half of our land area.

It is an awesome thing to contemplate a graph of world population growth from prehistoric times - tens of thousands of years ago - to the day after tomorrow - let us say the year 2000 A.D. If we visualize the population curve as a road which starts at sea level and rises in proportion as world population increases, we should see it stretching endlessly, almost level, for 99% of the time that man has inhabited the earth.

In 6000 B.C., when recorded history begins, the road is running at a height of about 70 feet above sea level, which corresponds to a population of 10 million. Seven thousand years later - in 1000 A.D. - the road has reached an elevation of 1,600 feet; the gradation now becomes steeper, and 600 years later the road is 2,900 feet high.

During the short span of the next 400 years - from 1600 to 2000 - it suddenly turns sharply upward at an almost perpendicular inclination and goes straight up to an elevation of 29,000 feet - the height of Mt. Everest , the world's tallest mountain.

In the 8,000 years from the beginning of history to the year 2000 A.D. world population will have grown from 10 million to 4 billion, with 90% of that growth taking place during the last 5% of that period, in 400 years. It took the first 3,000 years of recorded history to accomplish the first doubling of population, 100 years for the last doubling, but the next doubling will require only 50 years. Calculations give us the astonishing estimate that one out of every 20 human beings born into this world is alive today.

The rapidity of population growth has not given us enough time to readjust our thinking. Not much more than a century ago our country - the very spot on which I now stand was a wilderness in which a pioneer could find complete freedom from men and from government. If things became too crowded - if he saw his neighbor's chimney smoke - he could, and often did, pack up and move west.

We began life in 1776 as a nation of less than four million people - spread over a vast continent - with seemingly inexhaustible riches of nature all about. We conserved what was scarce - human labor - and squandered what seemed abundant - natural resources - and we are still doing the same today.

Much of the wilderness which nurtured what is most dynamic in the American character has now been buried under cities, factories and suburban developments where each picture window looks out on nothing more inspiring than the neighbor's back yard with the smoke of his fire in the wire basket clearly visible.

Life in crowded communities cannot be the same as life on the frontier. We are no longer free, as was the pioneer - to work for our own immediate needs regardless of the future. We are no longer as independent of men and of government as were Americans two or three generations ago.

An ever larger share of what we earn must go to solve problems caused by crowded living - bigger governments; bigger city, state, and federal budgets to pay for more public services. Merely to supply us with enough water and to carry away our waste products becomes more difficult and expansive daily. More laws and law enforcement agencies are needed to regulate human relations in urban industrial communities and on crowded highways than in the America of Thomas Jefferson.

Certainly no one likes taxes, but we must become reconciled to larger taxes in the larger America of tomorrow.

I suggest that this is a good time to think soberly about our responsibilities to our descendants - those who will ring out the Fossil Fuel Age. Our greatest responsibility, as parents and as citizens, is to give America 's youngsters the best possible education.

We need the best teachers and enough of them to prepare our young people for a future immeasurably more complex than the present, and calling for ever larger numbers of competent and highly trained men and women. This means that we must not delay building more schools, colleges, and playgrounds.

It means that we must reconcile ourselves to continuing higher taxes to build up and maintain at decent salaries a greatly enlarged corps of much better trained teachers, even at the cost of denying ourselves such momentary pleasures as buying a bigger new car, or a TV set, or household gadget.

We should find - I believe - that these small self-denials would be far more than offset by the benefits they would buy for tomorrow's America . We might even - if we wanted - give a break to these youngsters by cutting fuel and metal consumption a little here and there so as to provide a safer margin for the necessary adjustments which eventually must be made in a world without fossil fuels.

One final thought I should like to leave with you. High-energy consumption has always been a prerequisite of political power. The tendency is for political power to be concentrated in an ever-smaller number of countries. Ultimately, the nation which control - the largest energy resources will become dominant.

If we give thought to the problem of energy resources, if we act wisely and in time to conserve what we have and prepare well for necessary future changes, we shall insure this dominant position for our own country.
~ Admiral Hyman Rickover 1957

22May/160

Demographic Trends – Changes Of Population Growth Determines Millennial Generation.

The global economy and finances are all about growth (increasing flow) and not about equilibrium (stock).  The ultimate driver of growing economies and finance has been millenniums of population growth.  A growing quantity of people has meant more buyers, more consumers, more demand.  So, if the growth or flow of demand is waning...that should matter...a lot.  Like entering an ice age after 10,000 years of warm.  The expected response to something like that would be all out.  Not a surprise that 4 decades of central bank mandated interest rate cuts have been used to incent a decelerating base of consumer growth to debts untold.  It's all in a vain attempt to maintain centrally determined rates of growth far above what rising population, jobs, wages, and savings can sustain.

QUANTITY of GROWTH

Take a gander at the chart below, annual global population growth from 1950 to present and the OECD population growth estimations through 2050.  You might notice a...HEAD AND SHOULDERS pattern!!!  1988 was the head of annual global population growth...1973 was the left shoulder and 2012 was the right shoulder.{ZH}
Annual-Global-Population-1951-2050-a
But what if the OECD and their future estimates are wrong???  The chart below is annual population growth (in total) vs. the annual growth of the under 45yr/old global population.  The base of population growth (young) has caved in and only been masked by the 45+yr/olds living a decade or two longer than their parents.  However, this extension of lifespans vs. the previous generation is a one off.  The current young are not likely to live decades longer again than the current generation.  Simply put, we have significant population longevity among the wealth and rapidly waning population growth most everywhere except the very poorest.  As you may have noticed, it's a night and day difference.
Annual-Global-Population-1951-2050-b
The chart below is the ultimate visual of stabilizing global population of young vs. globally swelling elderly populations.  What was a 9-1 ratio of babies (0-4yrs/old) per 75+yr/olds in 1950 has become a 2.7-1 ratio in 2016...and estimated to be a 1-1 ratio by 2050.  The global growth of young has essentially ceased but the growth of old is skyrocketing.
Global-Population-0-5-yrs-2-75_yr_olds

QUALITY of GROWTH

Where the growth is coming from broken down.  The chart below is global population growth split out among wealthy OECD, aspiring BRIICS (Brazil, Russia, India, Indonesia, China, S. Africa), and the RoW (rest of the world).  From an economic standpoint, the sources of quality growth are slowing and lesser sources unable to replace this loss.  Simply put, those with income, savings, and access to credit are able to consume significantly more than those without.
Annual-Global-Population-Growth-Consumer-types-a
A focus solely on the population growth of those under 45yrs/old removes the confusion of the older generations living far longer.  Below, as of 2016 all net under 45yr/old net population growth is among the poor RoW as all growth has ceased among the OECD and BRIICS.  Among the RoW, the majority of all younger population growth is Africa.  The same Africa where 1/3 of the nations have average incomes below that of Haiti.  Africa is not an engine of consumptive growth.
Annual-Global-Population-Growth-millions-types-b
The chart below is a simple multiplication of under 45yr/old annual population growth by average GDP per capita (capability to consume).  One look at that chart, and the implementation of NIRP & ZIRP plus the global debt bomb should be no surprise. The collapse of growth has been underway for decades and central bankers and central planners are willing to do anything to maintain the appearance of "growth".
Annual-Global-Population-Growth-gdp-per-capita-c

Quality of Growth Really Matters 

The final charts below show the impact of quality (income, savings, and especially access to and utilization of credit) over quantity of population growth.  The chart is a breakdown of oil consumption by the wealthy 1.3 billion OECD residents, 3.8 billion persons of China-India-Africa, and the 2 billion "Rest of the World".
world_oil-Consumption
The chart below highlights the impact of rising wages but particularly (in China's case) the impact of rising credit / debt) in pushing Chinese oil consumption so far in advance of India or Africa over the same time frame.  Quantity + "quality" of credit growth.
world_oil-Consumption-india-china-africa
And a close up on China's rapidly slowing quantity of adult population growth vs. the equally rapid escalation of debt in place of population growth...and the impact to maintain China's "growth".  This sort of growth, particularly credit creation, is likely not reproducible in India or Africa (thank goodness for India and Africa).
china-core-population
And below, another view of China's decelerating growth among its adult population (and as of 2018, outright declining adult population) and the only answer to maintain "growth" has been debt on an unprecedented scale.  What happens in China and globally as China's depopulation sets in...for decades....is unknowable.
China-Annual
DT Conclusion: Central banks are throwing everything; they can, to defray the coming onslaught of economic depression and hope by doing so, they can at least lessen the economic pain and burden that comes with it, And since we are in times of historical monetary precedence, unlike anything seen before, the coming downturn will run much deeper, simply cause the system that is set up on continued inflating measures is like a balloon, that can only continue to grow, till bust.
This is what we call bubble and we all know how that ends, most importantly, this pattern can only continue till the time the growth in global population is also in tandem, once population growth starts to subside, the world becomes Japan. Stay tuned, invest wisely, we are currently in round two of the global currency wars.

Credits to Chirs Hamilton via Hambone's Stuff blog,

22Jun/12Off

TRADE-BLOG: Nifty M12, 5137 is Pivotal

REFRESH

5124/5 to hold. And we will see 5101-5097. 5102 seen, 5090 is next in focus. 5104 keeps on struggling, whoever told them, holding on cheaper INRS and markets go up, is fooling them once again. We may dangle here upto 5120 and see what europe has in store for us.

5098-5100 attempts to make it hold. Note its friday, you don't want to go home, with a long. Europe could still implode over the weekend, Monti says a week before disaster. Below 5092, 5090 offers hold and a skip towards 5081.30 and 5076 region...stuck in a range till then.

5124/5 topside exhaust. Testing, and back off now, lets play in between.

Follow the EUROZONE. crisis live here

5131 zoomed up. could be the exhaust. view remain bearish or closing here at best. If the key pivotal level holds, then we are indeed going to attempt 5178 once agian.

Lets give it another 5 minutes to mark its mark. I can'T see a higher unchanged closing on a friday.

If this is leg 2 of the downmove 5340-4840 ?, then the max upside potential should remain at 5178-5195 region and not breach 5217 region, in any case, or else the short trade is questioned. We will see 4840 for a minimum once again in the coming month. This upmove could be attributed from some good talk from the eurozone, which will fade away like the rest.

Markets have yet to retrace back a certain portion from the recent peak highs. Goldman sachs calls for SP 1285, a 5% move downwards, puts a contrarian into thought. Do they have whiff of a QE3 before the rest of us and finding another way, to sucker their clients.

We need to close below 5110 region. a gap up still remains or to be filled on monday. Short agianst 5217 region as a stop. We will see 4840 region as a target, putting risk/reward ratio for a min of 1:3.

INR now at 57.21/22 with highs of 57.33 netdania reports.

Bearish news for world markets, with commodities in a slump.

Gold Poised for Worst Week This Year as Silver Drops to 2012 Low

 

Oil Near Nine-Month Low on Economy; Heads for Weekly Drop

5137 is acting pivotal.

5149, bounce.. a 50 point move can deliver a 50K,100K, 1M INR delta..This upmove could provide some understanding of your option trade. Just understood our size exposures.

Investors cast doubt on "end of world" hedge strategies

5137 held up, 5178 gap now in focus. Nifty Cash needs that to be filled as well. A turn down has to begin somewhere around here, an hour closing is coming up on the horizon.

Bank nifty is recovering similar to European Banks, who are also covering their gaps.  EUROzone is drivng prices, EURO sees 1.2518 earlier.

 

REFRESH

22Jun/12Off

Nifty M12, 5120 gives way.

5120 gives way, now 5110 key. then 5097-5101 in focus, 5124/5 caps.

22Jun/12Off

India Nifty M12 – Last 5128.70 {Short)

Day so far. Opens gap down. Then Range trading 5133-5145, keeping 5149 intack, dangling holding up near 5130 region, While key Pivotal level, remained at 5110 from the (5342-4840 move). Key levels to watch, maximum for this bounce, 5173,5178 and 5217 should cap all attempts, to keep bearish forces alive.

Going short against these levels.

19Jun/12Off

News is Bullish in the USA!

The news from the US is bullish. Job Vacancies are at 3.42 million, Jobs that can't be filled from the collective pool of the unemployed. Banks Forecloses have dropped 18% from a year earlier and housing starts {up 25% / year), new construction permits signals base setting of the property market, And on top of all this, Mr Bernanke may open the valve and the taps full of cash. This will be interesting to watch. I need some good lunch