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Saturday, September 14, 2024

Malthusianism

From Wikipedia, the free encyclopedia
Thomas Robert Malthus, after whom Malthusianism is named

Malthusianism is a theory that population growth is potentially exponential, according to the Malthusian growth model, while the growth of the food supply or other resources is linear, which eventually reduces living standards to the point of triggering a population decline. This event, called a Malthusian catastrophe (also known as a Malthusian trap, population trap, Malthusian check, Malthusian crisis, Point of Crisis, or Malthusian crunch) has been predicted to occur if population growth outpaces agricultural production, thereby causing famine or war. According to this theory, poverty and inequality will increase as the price of assets and scarce commodities goes up due to fierce competition for these dwindling resources. This increased level of poverty eventually causes depopulation by decreasing birth rates. If asset prices keep increasing, social unrest would occur, which would likely cause a major war, revolution, or a famine. Societal collapse is an extreme but possible outcome from this process. The theory posits that such a catastrophe would force the population to "correct" back to a lower, more easily sustainable level (quite rapidly, due to the potential severity and unpredictable results of the mitigating factors involved, as compared to the relatively slow time scales and well-understood processes governing unchecked growth or growth affected by preventive checks). Malthusianism has been linked to a variety of political and social movements, but almost always refers to advocates of population control.

These concepts derive from the political and economic thought of the Reverend Thomas Robert Malthus, as laid out in his 1798 writings, An Essay on the Principle of Population. Malthus suggested that while technological advances could increase a society's supply of resources, such as food, and thereby improve the standard of living, the abundance of resources would enable population growth, which would eventually bring the supply of resources for each person back to its original level. Some economists contend that since the Industrial Revolution in the early 19th century, mankind has broken out of the trap. Others argue that the continuation of extreme poverty indicates that the Malthusian trap continues to operate. Others further argue that due to lack of food availability coupled with excessive pollution, developing countries show more evidence of the trap as compared to developed countries. A similar, more modern concept, is that of human overpopulation.

Neo-Malthusianism is the advocacy of human population planning to ensure resources and environmental integrities for current and future human populations as well as for other species. In Britain the term "Malthusian" can also refer more specifically to arguments made in favour of family planning, hence organizations such as the Malthusian League. Neo-Malthusians differ from Malthus's theories mainly in their support for the use of birth control. Malthus, a devout Christian, believed that "self-control" (i.e., abstinence) was preferable to artificial birth control. He also worried that the effect of contraceptive use would be too powerful in curbing growth, conflicting with the common 18th century perspective (to which Malthus himself adhered) that a steadily growing population remained a necessary factor in the continuing "progress of society", generally. Modern neo-Malthusians are generally more concerned than Malthus with environmental degradation and catastrophic famine than with poverty.

Malthusianism has attracted criticism from diverse schools of thought, including Georgists, Marxists and socialists, libertarians and free market advocates, feminists, Catholics, and human rights advocates, characterising it as excessively pessimistic, insufficiently researched, misanthropic or inhuman. Many critics believe Malthusianism has been discredited since the publication of Principle of Population, often citing advances in agricultural techniques and modern reductions in human fertility. Some modern proponents believe that the basic concept of population growth eventually outstripping resources is still fundamentally valid, and that positive checks are still likely to occur in humanity's future if no action is taken to intentionally curb population growth. In spite of the variety of criticisms against it, the Malthusian argument remains a major discourse based on which national and international environmental regulations are promoted.

History

Malthus' theoretical argument

In 1798, Thomas Malthus proposed his hypothesis in An Essay on the Principle of Population.

He argued that although human populations tend to increase, the happiness of a nation requires a like increase in food production. "The happiness of a country does not depend, absolutely, upon its poverty, or its riches, upon its youth, or its age, upon its being thinly, or fully inhabited, but upon the rapidity with which it is increasing, upon the degree in which the yearly increase of food approaches to the yearly increase of an unrestricted population."

However, the propensity for population increase also leads to a natural cycle of abundance and shortages:

We will suppose the means of subsistence in any country just equal to the easy support of its inhabitants. The constant effort towards population...increases the number of people before the means of subsistence are increased. The food therefore which before supported seven millions, must now be divided among seven millions and a half or eight millions. The poor consequently must live much worse, and many of them be reduced to severe distress. The number of labourers also being above the proportion of the work in the market, the price of labour must tend toward a decrease; while the price of provisions would at the same time tend to rise. The labourer therefore must work harder to earn the same as he did before. During this season of distress, the discouragements to marriage, and the difficulty of rearing a family are so great, that population is at a stand. In the mean time the cheapness of labour, the plenty of labourers, and the necessity of an increased industry amongst them, encourage cultivators to employ more labour upon their land; to turn up fresh soil, and to manure and improve more completely what is already in tillage; till ultimately the means of subsistence become in the same proportion to the population as at the period from which we set out. The situation of the labourer being then again tolerably comfortable, the restraints to population are in some degree loosened; and the same retrograde and progressive movements with respect to happiness are repeated.

— Thomas Malthus, 1798. An Essay on the Principle of Population, Chapter II.

Famine seems to be the last, the most dreadful resource of nature. The power of population is so superior to the power of the earth to produce subsistence for man, that premature death must in some shape or other visit the human race. The vices of mankind are active and able ministers of depopulation. They are the precursors in the great army of destruction, and often finish the dreadful work themselves. But should they fail in this war of extermination, sickly seasons, epidemics, pestilence, and plague advance in terrific array, and sweep off their thousands and tens of thousands. Should success be still incomplete, gigantic inevitable famine stalks in the rear, and with one mighty blow levels the population with the food of the world.

— Thomas Malthus, 1798. An Essay on the Principle of Population. Chapter VII, p. 61

Malthus faced opposition from economists both during his life and since. A vocal critic several decades later was Friedrich Engels.

Early history

Malthus was not the first to outline the problems he perceived. The original essay was part of an ongoing intellectual discussion at the end of the 18th century regarding the origins of poverty. Principle of Population was specifically written as a rebuttal to thinkers like William Godwin and the Marquis de Condorcet, and Malthus's own father who believed in the perfectibility of humanity. Malthus believed humanity's ability to reproduce too rapidly doomed efforts at perfection and caused various other problems.

His criticism of the working class's tendency to reproduce rapidly, and his belief that this, rather than the exploitation of their labour by capitalists, led to their poverty, brought widespread criticism of his theory.

Malthusians perceived ideas of charity to the poor, typified by Tory paternalism, were futile, as these would only result in increased numbers of the poor; these theories played into Whig economic ideas exemplified by the Poor Law Amendment Act of 1834. The Act was described by opponents as "a Malthusian bill designed to force the poor to emigrate, to work for lower wages, to live on a coarser sort of food", which initiated the construction of workhouses despite riots and arson.

Malthus revised his theories in later editions of An Essay on the Principles of Population, taking a more optimistic tone, although there is some scholarly debate on the extent of his revisions. According to Dan Ritschel of the Center for History Education at the University of Maryland, Baltimore County,

The great Malthusian dread was that "indiscriminate charity" would lead to exponential growth in the population in poverty, increased charges to the public purse to support this growing army of the dependent, and, eventually, the catastrophe of national bankruptcy. Though Malthusianism has since come to be identified with the issue of general over-population, the original Malthusian concern was more specifically with the fear of over-population by the dependent poor.

One proponent of Malthusianism was the novelist Harriet Martineau whose circle of acquaintances included Charles Darwin, and the ideas of Malthus were a significant influence on the inception of Darwin's theory of evolution. Darwin was impressed by the idea that population growth would eventually lead to more organisms than could possibly survive in any given environment, leading him to theorize that organisms with a relative advantage in the struggle for survival and reproduction would be able to pass their characteristics on to further generations. Proponents of Malthusianism were in turn influenced by Darwin's ideas, both schools coming to influence the field of eugenics. Henry Fairfield Osborn Jr. advocated "humane birth selection through humane birth control" in order to avoid a Malthusian catastrophe by eliminating the "unfit".

Malthusianism became a less common intellectual tradition as the 19th century advanced, mostly as a result of technological increases, the opening of new territory to agriculture, and increasing international trade. Although a "conservationist" movement in the United States concerned itself with resource depletion and natural protection in the first half of the twentieth century, Desrochers and Hoffbauer write, "It is probably fair to say ... that it was not until the publication of Osborn's and Vogt's books [1948] that a Malthusian revival took hold of a significant segment of the American population".

Modern formulation

Oded Galor

The modern formulation of the Malthusian theory was developed by Quamrul Ashraf and Oded Galor. Their theoretical structure suggests that as long as higher income has a positive effect on reproductive success, and land is a limiting factor in resource production, then technological progress has only a temporary effect on income per capita (per person). While in the short run technological progress increases income per capita, resource abundance created by technological progress would enable population growth, and would eventually bring the per capita income back to its original long-run level.

The testable prediction of the theory is that during the Malthusian epoch technologically advanced economies were characterized by higher population density, but their level of income per capita was not different from the level in societies that are technologically backward.

Preventive vs. positive population controls

The Malthusian catastrophe simplistically illustrated

To manage population growth with respect to food supply, Malthus proposed methods which he described as preventive or positive checks:

  • A preventive check according to Malthus is that in which nature may alter population changes. Some primary examples are celibacy and chastity but also contraception, which Malthus condemned as morally indefensible along with infanticide, abortion and adultery. In other words, preventive checks control the population by reducing fertility rates.
  • A positive check is any event or circumstance that shortens the human life span. The primary examples of this are war, plague and famine. However, poor health and economic conditions are also considered instances of positive checks. When these lead to high rates of premature death, the result is termed a Malthusian catastrophe. The adjacent diagram depicts the abstract point at which such an event would occur, in terms of existing population and food supply: when the population reaches or exceeds the capacity of the shared supply, positive checks are forced to occur, restoring balance. (In reality the situation would be significantly more nuanced due to complex regional and individual disparities around access to food, water, and other resources.)

Neo-Malthusian theory

Malthusian theory is a recurrent theme in many social science venues. John Maynard Keynes, in Economic Consequences of the Peace, opens his polemic with a Malthusian portrayal of the political economy of Europe as unstable due to Malthusian population pressure on food supplies. Many models of resource depletion and scarcity are Malthusian in character: the rate of energy consumption will outstrip the ability to find and produce new energy sources, and so lead to a crisis.

In France, terms such as "politique malthusienne" ("Malthusian politics") refer to population control strategies. The concept of restriction of the population associated with Malthus morphed, in later political-economic theory, into the notion of restriction of production. In the French sense, a "Malthusian economy" is one in which protectionism and the formation of cartels is not only tolerated but encouraged.

Vladimir Lenin, the leader of the Bolshevik Party and the main architect of the Soviet Union was a critic of Neo-Malthusian theory (but not of birth control and abortion in general).

"Neo-Malthusianism" is a concern that overpopulation as well as overconsumption may increase resource depletion and/or environmental degradation will lead to ecological collapse or other hazards.

The rapid increase in the global population of the past century exemplifies Malthus's predicted population patterns; it also appears to describe socio-demographic dynamics of complex pre-industrial societies. These findings are the basis for neo-Malthusian modern mathematical models of long-term historical dynamics.

There was a general "neo-Malthusian" revival in the mid-to-late 1940s, continuing through to the 2010s after the publication of two influential books in 1948 (Fairfield Osborn's Our Plundered Planet and William Vogt's Road to Survival). During that time the population of the world rose dramatically. Many in environmental movements began to sound the alarm regarding the potential dangers of population growth. Paul R. Ehrlich has been one of the most prominent neo-Malthusians since the publication of The Population Bomb in 1968. In 1968, ecologist Garrett Hardin published an influential essay in Science that drew heavily from Malthusian theory. His essay, "The Tragedy of the Commons", argued that "a finite world can support only a finite population" and that "freedom to breed will bring ruin to all." The Club of Rome published a book entitled The Limits to Growth in 1972. The report and the organisation soon became central to the neo-Malthusian revival. Leading ecological economist Herman Daly has acknowledged the influence of Malthus on his concept of a steady-state economy. Other prominent Malthusians include the Paddock brothers, authors of Famine 1975! America's Decision: Who Will Survive?

The neo-Malthusian revival has drawn criticism from writers who claim the Malthusian warnings were overstated or premature because the green revolution has brought substantial increases in food production and will be able to keep up with continued population growth. Julian Simon, a cornucopian, has written that contrary to neo-Malthusian theory, Earth's "carrying capacity" is essentially limitless. Simon argues not that there is an infinite physical amount of, say, copper, but for human purposes that amount should be treated as infinite because it is not bounded or limited in any economic sense, because: 1) known reserves are of uncertain quantity 2) New reserves may become available, either through discovery or via the development of new extraction techniques 3) recycling 4) more efficient utilization of existing reserves (e.g., "It takes much less copper now to pass a given message than a hundred years ago." [The Ultimate Resource 2, 1996, footnote, p. 62]) 5) development of economic equivalents, e.g., optic fibre in the case of copper for telecommunications. Responding to Simon, Al Bartlett reiterates the potential of population growth as an exponential (or as expressed by Malthus, "geometrical") curve to outstrip both natural resources and human ingenuity. Bartlett writes and lectures particularly on energy supplies, and describes the "inability to understand the exponential function" as the "greatest shortcoming of the human race".

Prominent neo-Malthusians such as Paul Ehrlich maintain that ultimately, population growth on Earth is still too high, and will eventually lead to a serious crisis. The 2007–2008 world food price crisis inspired further Malthusian arguments regarding the prospects for global food supply.

From approximately 2004 to 2011, concerns about "peak oil" and other forms of resource depletion became widespread in the United States, and motivated a large if short-lived subculture of neo-Malthusian "peakists".

A United Nations Food and Agriculture Organization study conducted in 2009 said that food production would have to increase by 70% over the next 40 years, and food production in the developing world would need to double to feed a projected population increase from 7.8 billion to 9.1 billion in 2050. The effects of global warming (floods, droughts, and other extreme weather events) are expected to negatively affect food production, with different impacts in different regions. The FAO also said the use of agricultural resources for biofuels may also put downward pressure on food availability. The more recent emergence of bio-energy with carbon capture (BECCS) as a prevalent "negative emissions" strategy for reaching Paris Climate Accord goals is another such pressure.

Evidence in support

Research indicates that technological superiority and higher land productivity had significant positive effects on population density but insignificant effects on the standard of living during the time period 1–1500 AD. In addition, scholars have reported on the lack of a significant trend of wages in various places over the world for very long stretches of time. In Babylonia during the period 1800 to 1600 BC, for example, the daily wage for a common laborer was enough to buy about 15 pounds of wheat. In Classical Athens in about 328 BC, the corresponding wage could buy about 24 pounds of wheat. In England in 1800 AD the wage was about 13 pounds of wheat. In spite of the technological developments across these societies, the daily wage hardly varied. In Britain between 1200 and 1800, only relatively minor fluctuations from the mean (less than a factor of two) in real wages occurred. Following depopulation by the Black Death and other epidemics, real income in Britain peaked around 1450–1500 and began declining until the British Agricultural Revolution. Historian Walter Scheidel posits that waves of plague following the initial outbreak of the Black Death throughout Europe had a leveling effect that changed the ratio of land to labor, reducing the value of the former while boosting that of the latter, which lowered economic inequality by making employers and landowners less well off while improving the economic prospects and living standards of workers. He says that "the observed improvement in living standards of the laboring population was rooted in the suffering and premature death of tens of millions over the course of several generations." This leveling effect was reversed by a "demographic recovery that resulted in renewed population pressure."

Robert Fogel published a study of lifespans and nutrition from about a century before Malthus to the 19th century that examined European birth and death records, military and other records of height and weight that found significant stunted height and low body weight indicative of chronic hunger and malnutrition. He also found short lifespans that he attributed to chronic malnourishment which left people susceptible to disease. Lifespans, height and weight began to steadily increase in the UK and France after 1750. Fogel's findings are consistent with estimates of available food supply.

Evidence supporting Malthusianism today can be seen in the poorer countries of the world with booming populations. In East Africa specifically, experts say that this area of the world has not yet escaped the Malthusian effects of population growth. Jared Diamond in his book Collapse (2005), for example, argues that the Rwandan Genocide was brought about in part due to excessive population pressures. He argues that Rwanda "illustrates a case where Malthus's worst-case scenario does seem to have been right." Due to population pressures in Rwanda, Diamond explains that the population density combined with lagging technological advancements caused its food production to not be able to keep up with its population. Diamond claims that this environment is what caused the mass killings of Tutsi and even some Hutu Rwandans. The genocide, in this instance, provides a potential example of a Malthusian trap.

Theory of breakout via technology

Industrial Revolution

Some researchers contend that a British breakout occurred due to technological improvements and structural change away from agricultural production, while coal, capital, and trade played a minor role. Economic historian Gregory Clark, building on the insights of Galor and Moav, has argued, in his book A Farewell to Alms, that a British breakout may have been caused by differences in reproduction rates among the rich and the poor (the rich were more likely to marry, tended to have more children, and, in a society where disease was rampant and childhood mortality at times approached 50%, upper-class children were more likely to survive to adulthood than poor children.) This in turn led to sustained "downward mobility": the descendants of the rich becoming more populous in British society and spreading middle-class values such as hard work and literacy.

20th century

Global deaths in conflicts since the year 1400
A chart of estimated annual growth rates in world population, 1800–2005. Rates before 1950 are annualized historical estimates from the US Census Bureau. Red = USCB projections to 2025.
Growth in food production has historically been greater than the population growth. Food per person increased since 1961. The graph runs up to slightly past 2010.

After World War II, mechanized agriculture produced a dramatic increase in productivity of agriculture and the Green Revolution greatly increased crop yields, expanding the world's food supply while lowering food prices. In response, the growth rate of the world's population accelerated rapidly, resulting in predictions by Paul R. Ehrlich, Simon Hopkins, and many others of an imminent Malthusian catastrophe. However, populations of most developed countries grew slowly enough to be outpaced by gains in productivity.

By the early 21st century, many technologically developed countries had passed through the demographic transition, a complex social development encompassing a drop in total fertility rates in response to various fertility factors, including lower infant mortality, increased urbanization, and a wider availability of effective birth control.

On the assumption that the demographic transition is now spreading from the developed countries to less developed countries, the United Nations Population Fund estimates that human population may peak in the late 21st century rather than continue to grow until it has exhausted available resources. Recent empirical research corroborates this assumption for most of the less developed countries, with the exception of most of Sub-Saharan Africa.

A 2004 study by a group of prominent economists and ecologists, including Kenneth Arrow and Paul Ehrlich suggests that the central concerns regarding sustainability have shifted from population growth to the consumption/savings ratio, due to shifts in population growth rates since the 1970s. Empirical estimates show that public policy (taxes or the establishment of more complete property rights) can promote more efficient consumption and investment that are sustainable in an ecological sense; that is, given the current (relatively low) population growth rate, the Malthusian catastrophe can be avoided by either a shift in consumer preferences or public policy that induces a similar shift.

According to Malthus, population doubled every 25 years. Population sat at less than 17 million people in the U.S. in the 1850s and a century later, according to the United States Census Bureau, population had risen to 150 million. Malthus overpopulation would lead to war, famine, and diseases and in the future, society won't be able to feed every person and eventually die. Malthus theory was incorrect, however, because by the early 1900s and mid 1900s, the rise of conventional foods brought a decline to food production and efficiency increased exponentially. More supply was being produced with less work, less resources, and less time. Processed foods had much to do with it, many wives wanting to spend less time in the kitchen and instead work. This was the beginning of technological advancements adhering to food demand even in the middle of a war. Economists disregarded Malthus population theory because Malthus didn't factor in important roles society would have on economic growth. These factors concerned the society's need to improve their quality of life and their want for economic prosperity. Cultural shifts also had much to do with food production increase, and this put end to the population theory.

Criticism

One of the earliest critics was David Ricardo. Malthus immediately and correctly recognised it to be an attack on his theory of wages. Ricardo and Malthus debated this in a lengthy personal correspondence.

In Ireland, where applying his thesis, Malthus proposed that "to give full effect to the natural resources of the country a great part of the population should be swept from the soil", there were early refutations. In Observations on the population and resources of Ireland (1821), Whitley Stokes, invoking the advantages mankind derives from "improved industry, improved conveyance, improvements in morals, government and religion", denied that there was a "law of nature" that procreation must outrun the means of subsistence. Ireland's problem was not her "numbers" but her indifferent government. In An Inquiry Concerning the Population of Nations containing a Refutation of Mr. Malthus's Essay on Population (1818), George Ensor had developed a similar broadside against Malthusian political economy, arguing that poverty was sustained not by reckless propensity to propagate, but rather by the state's indulgence of the heedless concentration of private wealth.

Following the same line of argument, William Hazlitt (1819) wrote, "Mr Malthus wishes to confound the necessary limits of the produce of the earth with the arbitrary and artificial distribution of that produce by the institutions of society".

Thomas Carlyle dismissed Malthusianism as pessimistic sophistry. In Chartism (1839), he denied the possibility that "twenty-four millions" of English "working people[s]", "scattered over a hundred and eighteen thousand square miles of space", could collectively "take a resolution" to diminish the supply of labourers "and act on it". Even if they could, the ongoing influx of Irish immigrants would render their efforts redundant. Associating Malthusianism with laissez-faire, he instead advocated proactive legislation. His later essay "Indian Meal" (1849) argued that maize production would remedy the failure of the potato crop as well as any prospective food shortages.

Karl Marx (who had occasion to cite Ensor). referred to Malthusianism as "nothing more than a school-boyish, superficial plagiary of Defoe, Sir James Steuart, Townsend, Franklin, Wallace". Friedrich Engels argued that Malthus failed to recognise a crucial difference between humans and other species. In capitalist societies, as Engels put it, scientific and technological "progress is as unlimited and at least as rapid as that of population". Marx argued, even more broadly, that the growth of both a human population in toto and the "relative surplus population" within it, occurred in direct proportion to accumulation.

Henry George in Progress and Poverty (1879) criticised Malthus's view that population growth was a cause of poverty, arguing that poverty was caused by the concentration of ownership of land and natural resources. George noted that humans are distinct from other species, because unlike most species humans can use their minds to leverage the reproductive forces of nature to their advantage. He wrote, "Both the hawk and the man eat chickens; but the more hawks, the fewer chickens, while the more men, the more chickens."

D. E. C. Eversley observed that Malthus appeared unaware of the extent of industrialisation, and either ignored or discredited the possibility that it could improve living conditions of the poorer classes.

Barry Commoner believed in The Closing Circle (1971) that technological progress will eventually reduce the demographic growth and environmental damage created by civilisation. He also opposed coercive measures postulated by neo-malthusian movements of his time arguing that their cost will fall disproportionately on the low-income population who are struggling already.

Ester Boserup suggested that expanding population leads to agricultural intensification and development of more productive and less labor-intensive methods of farming. Thus, human population levels determines agricultural methods, rather than agricultural methods determining population.

Environmentalist founder of Ecomodernism, Stewart Brand, summarised how the Malthusian predictions of The Population Bomb and The Limits to Growth failed to materialise due to radical changes in fertility that peaked at a growth of 2 percent per year in 1963 globally and has since rapidly declined.

While short-term trends, even on the scale of decades or centuries, cannot prove or disprove the existence of mechanisms promoting a Malthusian catastrophe over longer periods, due to the prosperity of a major fraction of the human population at the beginning of the 21st century, and the debatability of the predictions for ecological collapse made by Paul R. Ehrlich in the 1960s and 1970s, some people, such as economist Julian L. Simon who wrote The Ultimate Resource which it contends is human technology and medical statistician Hans Rosling questioned its inevitability.

Wheat yields in developing countries since 1961, in kg/ha Largely due to effects of the "Green Revolution". In developing countries maize yields are also still rapidly rising.

Joseph Tainter asserts that science has diminishing marginal returns and that scientific progress is becoming more difficult, harder to achieve, and more costly, which may reduce efficiency of the factors that prevented the Malthusian scenarios from happening in the past.

The view that a "breakout" from the Malthusian trap has led to an era of sustained economic growth is explored by "unified growth theory". One branch of unified growth theory is devoted to the interaction between human evolution and economic development. In particular, Oded Galor and Omer Moav argue that the forces of natural selection during the Malthusian epoch selected beneficial traits to the growth process and this growth enhancing change in the composition of human traits brought about the escape from the Malthusian trap, the demographic transition, and the take-off to modern growth.

The General Crisis

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/The_General_Crisis
The Thirty Years' War, which devastated much of Europe 1618–1648, is one of the events some historians have associated with the alleged General Crisis.

The General Crisis is a term used by some historians to describe an alleged period of widespread regional conflict and instability that occurred from the early 17th century to the early 18th century in Europe, and in more recent historiography in the world at large.

Definitions and debates

Since the mid-20th century, some scholars have proposed widely different definitions, causes, events, periodisations and geographical applications of a 'General Crisis', disagreeing with each other in debates. Other scholars have rejected the various concepts of a General Crisis altogether, claiming there was no such generalised phenomenon connecting various events due to a lack of linkeages between the events and widely shared commonalities in their character, and that generalised historical concepts such as the 'General Crisis' may be unhelpful in education.

  • Economic crisis in Europe: The origin of the concept stems from British Marxist historian Eric Hobsbawm in his pair of 1954 articles, "The Crisis of the Seventeenth Century", published in Past & Present. Hobsbawm regarded the 17th century as "a necessary phase of economic crisis required by the progress of modernity".
  • General Crisis in Western Europe: British conservative historian Hugh Trevor-Roper modified Hobsbawm's concept and coined the term 'General Crisis' in a 1959 article entitled "The General Crisis of the Seventeenth Century" published in the same journal. Hobsbawm discussed an economic crisis in Europe; Trevor-Roper saw a wider crisis, "a crisis in the relations between society and the State". Trevor-Roper argued that the middle years of the 17th century in Western Europe saw a widespread breakdown in politics, economics and society caused by a complex series of demographic, religious, economic and political problems. In the "general crisis", various events such as the English Civil War, the Fronde in France, the climax of the Thirty Years' War in the Holy Roman Empire and revolts against the Spanish Crown in Portugal, Naples and Catalonia were all manifestations of the same problem. The most important cause of the "general crisis", in Trevor-Roper's opinion, was the conflict between "Court" and "Country"; that is between the increasingly powerful centralising, bureaucratic, sovereign princely states represented by the court, and the traditional, regional, land-based aristocracy and gentry representing the country. He saw the intellectual and religious changes introduced by the Renaissance and the Protestant Reformation as important secondary causes of the "general crisis". Trevor-Roper argued that the 'violent socio-economic struggles and profound shifts in religious and intellectual values' of the 17th century were caused by the formation of modern nation-states.
  • General Crisis involving global climate change: Subsequent historians interested in the General Crisis include Geoffrey Parker, who has authored multiple books on the subject. Initially, Parker (1997) broadly followed the concept of Trevor-Roper, but in 2013 he expanded the concept to argue there was a global General Crisis, exacerbated by the global climate change known as the "Little Ice Age".

There were various controversies regarding the "general crisis" thesis between historians. Some simply denied the existence of any such crisis. For instance, Hobsbawm saw the problems of 17th-century Europe as being social and economic in origin, an emphasis that Trevor-Roper would not concede. Instead, he theorised that the 'General Crisis' was a crisis of state and society, precipitated by the expansion of bureaucratic offices in the sixteenth century. Unlike the other two, Parker put an emphasis on climate change.

Alleged patterns

Some historians such as Hobsbawn, Trevor-Roper, and Parker, have argued the 17th century was an era of crisis, although they differed about the nature of this crisis. Today there are scholars who promote the crisis model, arguing it provides an invaluable insight into the warfare, politics, economics, and even art of the seventeenth century. The Thirty Years' War (1618–1648) focused attention on the massive horrors that wars could bring to entire populations. The 1640s in particular saw more state breakdowns around the world than any previous or subsequent period. The Polish–Lithuanian Commonwealth, the largest state in Europe, temporarily disappeared. In addition, there were secessions and upheavals in several parts of the Spanish Empire. In Britain there were rebellions in every part of the Stuart monarchy (Kingdom of England, Kingdom of Scotland, Kingdom of Ireland, and British America). Political insurgency and a spate of popular revolts shook the foundations of most states in Europe and Asia. More wars took place around the world in the mid-17th century than in almost any other period of recorded history. The crises spread far beyond Europe; for example Ming China, the most populous state in the world, collapsed.

China's Ming dynasty and Japan's Tokugawa shogunate had radically different economic, social, and political systems. However, they experienced a series of crises during the mid-17th century that were at once interrelated and strikingly similar to those occurring in other parts of the world at the same time. Frederic Wakeman argues that the crisis which destroyed the Ming dynasty was partly a result of the climatic change as well as China's already significant involvement in the developing world economy. Bureaucratic dishonesty worsened the problem. Moreover, the Qing dynasty's success in dealing with the crisis made it more difficult for it to consider alternative responses when confronted with severe challenges from the West in the 19th century.

Climate change

The General Crisis overlaps fairly neatly with the Little Ice Age whose peak some authorities locate in the 17th century. Of particular interest is the overlap with the Maunder Minimum, El Niño events and an abnormal spate of volcanic activity. Climatologists such as David Rind and Jonathan Overpeck have hypothesised that the three events are interlinked. Across the Northern Hemisphere, the mid-17th century experienced almost unprecedented death rates. Geoffrey Parker has suggested that environmental factors may have been in part to blame, especially the global cooling trend of this period. David D. Zhang et al provide a detailed analysis here.

Demographic decline

During this period there was a significant decline in populations particularly in Europe and China. The cause for this demographic decline is complicated and significantly unproven; but Parker claimed that war, climate change and migration are the main factors that contributed to this population crisis. War ravaged Europe for almost the entirety of the century with no major state avoiding war in the 1640s. Some states saw very few years of peace; for example Poland only saw 27 years of peace, the Dutch Republic 14, France 11, and Spain only 3. An example of the impact of war on demography in Europe is Germany, whose population was reduced by approximately 15% to 30% in the Thirty Years' War. Another factor for the demographic decline in Europe was the spate of climatic events that dramatically affected the food supply and caused major crop failure in the marginal farmland of Europe. During this period there was a drop of 1–2 °C, which coincides with the Maunder Minimum and frequent, large spates of volcanism which acted to drop temperatures enough to cause crop failures in Europe. Crop failures were met with a wave of urban migration that perpetuated unsustainable urban populations and caused in some areas a Malthusian crisis. Although in some areas the early stages of the subsistence crises were not necessarily Malthusian in nature, the result usually followed this model of agricultural deficit in relation to population.

Conflicts and wars

Examples which have been given for general crisis and state breakdown during this period include:

Criticism

No consensus on the occurrence of a general crisis has been established amongst scholars. Some scholars contend that the arguments in favour of a 'general crisis' in the 17th century do not stand up under scrutiny. For example, Danish historian Niels Steensgaard (1978) pointed out that the Dutch Republic was enjoying an economic expansion – known as the Dutch Golden Age – at the time of the alleged crisis. Anthony F. Upton argued in 2001 that violent popular protests were endemic in European societies, and such violent unrest was "generally directed at specific local problems, and did not challenge the legitimacy of the established order". Although protests in the 1630s and 1640s "rose to unusual levels" in some regions, Upton wrote: "Historians have attempted to see in the wave of unrest a 'general crisis', and the debate on this continues. The main factors arguing against linkage are the reality that the disorders remained specific to local circumstances, even where they coincided in time: they did not coalesce into broader movements. Above all, the demands of the rebels did not challenge the legitimacy of the rulers, but sought restoration of customary norms". Upton claimed that very few actually challenged monarchy as an institution, although many nobles preferred a different dynasty with themselves in power (for example, the Portuguese Restoration War (1640–1668) simply sought to replace the House of Habsburg with the House of Braganza). Almost all of the French princes leading the Fronde (1648–1653) were horrified by the execution of Charles I in 1649, which they regarded as regicide; unlike the majority of English rebels, they never became republicans.

Victor Lieberman argued in 2003, later corroborated by Geoff Wade and Chris Baker and Pasuk Phongpaichit, that Anthony Reid's "Age of Commerce" Thesis, using Maritime Southeast Asia during the "General Crisis" as a framework to explain Mainland Southeast Asia at this same time, failed to properly address the increased political and economic consolidation and high economic growth of the Southeast Asian mainland states (Siam, Burma, Vietnam) during the 17th through 19th centuries, whose trade connections with China have been argued as to have negated any possible effects of the European departure from the region during the 17th and 18th centuries, therefore the region experienced a relatively calm 17th century in comparison to contemporary regions.

In 2000, Denis Shemilt used the terms "Industrial Revolution" and especially "General Crisis" as examples of historiographical concepts that are easy to teach adolescent schoolchildren, as they can easily make generalisations about seemingly unconnected events when tasked to do so. However, it will be harder for them to challenge the validity of such a generalised concept once they have been exposed to it, because that requires gathering detailed knowledge of all local events associated with the generalisation, and then judging whether they reasonably match up with it, or "to criticize the General Crisis concept as a category mistake, a promiscuous lumping together of phenomena more different than similar". Therefore, historians need to be careful in constructing such generalised concepts, so that the resulting narratives are not just meaningful and understandable, but also reasonably accurate.

Habitat conservation

From Wikipedia, the free encyclopedia
Tree planting is an aspect of habitat conservation. In each plastic tube a hardwood tree has been planted.
There are significant ecological benefits associated with selective cutting. Pictured is an area with Ponderosa Pine trees that were selectively harvested.

Habitat conservation is a management practice that seeks to conserve, protect and restore habitats and prevent species extinction, fragmentation or reduction in range. It is a priority of many groups that cannot be easily characterized in terms of any one ideology.

History of the conservation movement

For much of human history, nature was seen as a resource that could be controlled by the government and used for personal and economic gain. The idea was that plants only existed to feed animals and animals only existed to feed humans. The value of land was limited only to the resources it provided such as fertile soil, timber, and minerals.

Throughout the 18th and 19th centuries, social views started to change and conservation principles were first practically applied to the forests of British India. The conservation ethic that began to evolve included three core principles: 1) human activities damage the environment, 2) there was a civic duty to maintain the environment for future generations, and 3) scientific, empirically-based methods should be applied to ensure this duty was carried out. Sir James Ranald Martin was prominent in promoting this ideology, publishing numerous medico-topographical reports that demonstrated the damage from large-scale deforestation and desiccation, and lobbying extensively for the institutionalization of forest conservation activities in British India through the establishment of Forest Departments.

The Madras Board of Revenue started local conservation efforts in 1842, headed by Alexander Gibson, a professional botanist who systematically adopted a forest conservation program based on scientific principles. This was the first case of state conservation management of forests in the world. Governor-General Lord Dalhousie introduced the first permanent and large-scale forest conservation program in 1855, a model that soon spread to other colonies, as well to the United States, where Yellowstone National Park was opened in 1872 as the world's first national park.

Rather than focusing on the economic or material benefits from nature, humans began to appreciate the value of nature itself and the need to protect it. By the mid-20th century, countries such as the United States, Canada, and Britain instigated laws and legislation in order to ensure that the most fragile and beautiful environments would be protected for posterity. Today, with the help of NGO's and governments worldwide, a strong movement is mobilizing with the goal of protecting habitats and preserving biodiversity on a global scale. The commitments and actions of small volunteer associations in villages and towns, that endeavour to emulate the work of well known Conservation Organisations, are paramount in ensuring generations that follow understand the importance of natural resource conservation.

Values of natural habitat

Natural habitats can provide Ecosystem services to humans, which are "any positive benefit that wildlife or ecosystems provide to people." The natural environment is a source for a wide range of resources that can be exploited for economic profit, for example timber is harvested from forests and clean water is obtained from natural streams. However, land development from anthropogenic economic growth often causes a decline in the ecological integrity of nearby natural habitat. For instance, this was an issue in the northern Rocky Mountains of the US.

However, there is also the economic value in conserving natural habitats. Financial profit can be made from tourist revenue, for example in the tropics where species diversity is high, or in recreational sports which take place in natural environments such as hiking and mountain biking. The cost of repairing damaged ecosystems is considered to be much higher than the cost of conserving natural ecosystems.

Measuring the worth of conserving different habitat areas is often criticized as being too utilitarian from a philosophical point of view.

Biodiversity

Habitat conservation is important in maintaining biodiversity, which refers to the variability in populations, organisms, and gene pools, as well as habitats and ecosystems. Biodiversity is also an essential part of global food security. There is evidence to support a trend of accelerating erosion of the genetic resources of agricultural plants and animals. An increase in genetic similarity of agricultural plants and animals means an increased risk of food loss from major epidemics. Wild species of agricultural plants have been found to be more resistant to disease, for example the wild corn species Teosinte is resistant to 4 corn diseases that affect human grown crops. A combination of seed banking and habitat conservation has been proposed to maintain plant diversity for food security purposes. It has been shown that focusing conversation efforts on ecosystems "within multiple trophic levels" can lead to a better functioning ecosystem with more biomass.

Classifying environmental values

Pearce and Moran outlined the following method for classifying environmental uses:

  • Direct extractive uses: e.g. timber from forests, food from plants and animals
  • Indirect uses: e.g. ecosystem services like flood control, pest control, erosion protection
  • Optional uses: future possibilities e.g. unknown but potential use of plants in chemistry/medicine
  • Non-use values:
    • Bequest value (benefit of an individual who knows that others may benefit from it in future)
    • Passive use value (sympathy for natural environment, enjoyment of the mere existence of a particular species)

Impacts

Natural causes

Habitat loss and destruction can occur both naturally and through anthropogenic causes. Events leading to natural habitat loss include climate change, catastrophic events such as volcanic explosions and through the interactions of invasive and non-invasive species. Natural climate change, events have previously been the cause of many widespread and large scale losses in habitat. For example, some of the mass extinction events generally referred to as the "Big Five" have coincided with large scale such as the Earth entering an ice age, or alternate warming events. Other events in the big five also have their roots in natural causes, such as volcanic explosions and meteor collisions. The Chicxulub impact is one such example, which has previously caused widespread losses in habitat as the Earth either received less sunlight or grew colder, causing certain fauna and flora to flourish whilst others perished. Previously known warm areas in the tropics, the most sensitive habitats on Earth, grew colder, and areas such as Australia developed radically different flora and fauna to those seen today. The big five mass extinction events have also been linked to sea level changes, indicating that large scale marine species loss was strongly influenced by loss in marine habitats, particularly shelf habitats. Methane-driven oceanic eruptions have also been shown to have caused smaller mass extinction events.

Human impacts

Humans have been the cause of many species’ extinction. Due to humans’ changing and modifying their environment, the habitat of other species often become altered or destroyed as a result of human actions. The altering of habitats will cause habitat fragmentation, reducing the species' habitat and decreasing their dispersal range. This increases species isolation which then causes their population to decline. Even before the modern industrial era, humans were having widespread, and major effects on the environment. A good example of this is found in Aboriginal Australians and Australian megafauna. Aboriginal hunting practices, which included burning large sections of forest at a time, eventually altered and changed Australia's vegetation so much that many herbivorous megafauna species were left with no habitat and were driven into extinction. Once herbivorous megafauna species became extinct, carnivorous megafauna species soon followed. In the recent past, humans have been responsible for causing more extinctions within a given period of time than ever before. Deforestation, pollution, anthropogenic climate change and human settlements have all been driving forces in altering or destroying habitats. The destruction of ecosystems such as rainforests has resulted in countless habitats being destroyed. These biodiversity hotspots are home to millions of habitat specialists, which do not exist beyond a tiny area. Once their habitat is destroyed, they cease to exist. This destruction has a follow-on effect, as species which coexist or depend upon the existence of other species also become extinct, eventually resulting in the collapse of an entire ecosystem. These time-delayed extinctions are referred to as the extinction debt, which is the result of destroying and fragmenting habitats. As a result of anthropogenic modification of the environment, the extinction rate has climbed to the point where the Earth is now within a sixth mass extinction event, as commonly agreed by biologists. This has been particularly evident, for example, in the rapid decline in the number of amphibian species worldwide.

Approaches and methods of habitat conservation

Adaptive management addresses the challenge of scientific uncertainty in habitat conservation plans by systematically gathering and applying reliable information to enhance conservation strategies over time. This approach allows for adjustments in management practices based on new insights, making conservation efforts more effective. Determining the size, type and location of habitat to conserve is a complex area of conservation biology. Although difficult to measure and predict, the conservation value of a habitat is often a reflection of the quality (e.g. species abundance and diversity), endangerment of encompassing ecosystems, and spatial distribution of that habitat.

Habitat Restoration

Habitat restoration is a subset of habitat conservation and its goals include improving the habitat and resources ranging from one species to several species The Society for Ecological Restoration International Science and Policy Working Group define restoration as "the process of assisting the recovery of an ecosystem that has been degraded, damaged, or destroyed." The scale of habitat restoration efforts can range from small to large areas of land depending on the goal of the project. Elements of habitat restoration include developing a plan and embedding goals within that plan, and monitoring and evaluating species. Considerations such as the species type, environment, and context are aspects of planning a habitat restoration project. Efforts to restore habitats that have been altered by anthropogenic activities has become a global endeavor, and is used to counteract the effects of habitat destruction by humans. Miller and Hobbs state three constraints on restoration: "ecological, economic, and social" constraints. Habitat restoration projects include Marine Debris Mitigation for Navassa Island National Wildlife Refuge in Haiti and Lemon Bay Preserve Habitat Restoration in Florida.

Identifying priority habitats for conservation

Habitat conservation is vital for protecting species and ecological processes. It is important to conserve and protect the space/ area in which that species occupies. Therefore, areas classified as ‘biodiversity hotspots’, or those in which a flagship, umbrella, or endangered species inhabits are often the habitats that are given precedence over others. Species that possess an elevated risk of extinction are given the highest priority and as a result of conserving their habitat, other species in that community are protected thus serving as an element of gap analysis. In the United States of America, a Habitat Conservation Plan (HCP) is often developed to conserve the environment in which a specific species inhabits. Under the U.S. Endangered Species Act (ESA) the habitat that requires protection in an HCP is referred to as the ‘critical habitat’. Multiple-species HCPs are becoming more favourable than single-species HCPs as they can potentially protect an array of species before they warrant listing under the ESA, as well as being able to conserve broad ecosystem components and processes . As of January 2007, 484 HCPs were permitted across the United States, 40 of which covered 10 or more species. The San Diego Multiple Species Conservation Plan (MSCP) encompasses 85 species in a total area of 26,000-km2. Its aim is to protect the habitats of multiple species and overall biodiversity by minimizing development in sensitive areas.

HCPs require clearly defined goals and objectives, efficient monitoring programs, as well as successful communication and collaboration with stakeholders and land owners in the area. Reserve design is also important and requires a high level of planning and management in order to achieve the goals of the HCP. Successful reserve design often takes the form of a hierarchical system with the most valued habitats requiring high protection being surrounded by buffer habitats that have a lower protection status. Like HCPs, hierarchical reserve design is a method most often used to protect a single species, and as a result habitat corridors are maintained, edge effects are reduced and a broader suite of species are protected.

How much habitat is needed

A range of methods and models currently exist that can be used to determine how much habitat is to be conserved in order to sustain a viable population, including Resource Selection Function and Step Selection models. Modelling tools often rely on the spatial scale of the area as an indicator of conservation value. There has been an increase in emphasis on conserving few large areas of habitat as opposed to many small areas. This idea is often referred to as the "single large or several small", SLOSS debate, and is a highly controversial area among conservation biologists and ecologists. The reasons behind the argument that "larger is better" include the reduction in the negative impacts of patch edge effects, the general idea that species richness increases with habitat area and the ability of larger habitats to support greater populations with lower extinction probabilities. Noss & Cooperrider support the "larger is better" claim and developed a model that implies areas of habitat less than 1000ha are "tiny" and of low conservation value. However, Shwartz suggests that although "larger is better", this does not imply that "small is bad". Shwartz argues that human induced habitat loss leaves no alternative to conserving small areas. Furthermore, he suggests many endangered species which are of high conservation value, may only be restricted to small isolated patches of habitat, and thus would be overlooked if larger areas were given a higher priority. The shift to conserving larger areas is somewhat justified in society by placing more value on larger vertebrate species, which naturally have larger habitat requirements.

Examples of current conservation organizations

The Nature Conservancy

Since its formation in 1951 The Nature Conservancy has slowly developed into one of the world's largest conservation organizations. Currently operating in over 30 countries, across five continents worldwide, The Nature Conservancy aims to protect nature and its assets for future generations. The organization purchases land or accepts land donations with the intention of conserving its natural resources. In 1955 The Nature Conservancy purchased its first 60-acre plot near the New York/Connecticut border in the United States of America. Today the Conservancy has expanded to protect over 119 million acres of land, 5,000 river miles as well as participating in over 1000 marine protection programs across the globe . Since its beginnings The Nature Conservancy has understood the benefit in taking a scientific approach towards habitat conservation. For the last decade the organization has been using a collaborative, scientific method known as ‘Conservation by Design’. By collecting and analyzing scientific data The Conservancy is able to holistically approach the protection of various ecosystems. This process determines the habitats that need protection, specific elements that should be conserved as well as monitoring progress so more efficient practices can be developed for the future.

The Nature Conservancy currently has a large number of diverse projects in operation. They work with countries around the world to protect forests, river systems, oceans, deserts and grasslands. In all cases the aim is to provide a sustainable environment for both the plant and animal life forms that depend on them as well as all future generations to come.

World Wildlife Fund (WWF)

The World Wildlife Fund (WWF) was first formed in after a group of passionate conservationists signed what is now referred to as the Morges Manifesto. WWF is currently operating in over 100 countries across 5 continents with a current listing of over 5 million supporters. One of the first projects of WWF was assisting in the creation of the Charles Darwin Research Foundation which aided in the protection of diverse range of unique species existing on the Galápagos’ Islands, Ecuador. It was also a WWF grant that helped with the formation of the College of African Wildlife Management in Tanzania which today focuses on teaching a wide range of protected area management skills in areas such as ecology, range management and law enforcement. The WWF has since gone on to aid in the protection of land in Spain, creating the Coto Doñana National Park in order to conserve migratory birds and The Democratic Republic of Congo, home to the world's largest protected wetlands. The WWF also initiated a debt-for-nature concept which allows the country to put funds normally allocated to paying off national debt, into conservation programs that protect its natural landscapes. Countries currently participating include Madagascar, the first country to participate which since 1989 has generated over $US50 million towards preservation, Bolivia, Costa Rica, Ecuador, Gabon, the Philippines and Zambia.

Rare Conservation

Rare has been in operation since 1973 with current global partners in over 50 countries and offices in the United States of America, Mexico, the Philippines, China and Indonesia. Rare focuses on the human activity that threatens biodiversity and habitats such as overfishing and unsustainable agriculture. By engaging local communities and changing behaviour Rare has been able to launch campaigns to protect areas in most need of conservation. The key aspect of Rare's methodology is their "Pride Campaign’s". For example, in the Andes in South America, Rare has incentives to develop watershed protection practices. In the Southeast Asia's "coral triangle" Rare is training fishers in local communities to better manage the areas around the coral reefs in order to lessen human impact. Such programs last for three years with the aim of changing community attitudes so as to conserve fragile habitats and provide ecological protection for years to come.

WWF Netherlands

WWF Netherlands, along with ARK Nature, Wild Wonders of Europe and Conservation Capital have started the Rewilding Europe project. This project intents to rewild several areas in Europe.

Representation of a Lie group

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Representation_of_a_Lie_group...