Kenneth Boulding's evolutionary perspective

Last updated

Kenneth E. Boulding's evolutionary perspective is an approach to economics (see also evolutionary economics) put forward most completely in his Ecodynamics (1978) and Evolutionary Economics (1981) had roots in his 1934 work on population theory and the age structure of capital as well as his Reconstruction (1950) with chapter titles like "An Ecological Introduction" and "The Theory of the Economic Organism."

Contents

Perspectives

One of the first major perspectives of Boulding's evolutionary perspective was his emphasis on know-how or, to use the term of Vladimir Vernadsky (1926) and Teilhard de Chardin (1959), which Boulding used as well, the "Noosphere." This is the counterpart in social and economic evolution to the role of genetic information and DNA in biological evolution. Just as DNA provides the genetic know-how to produce a chicken from an egg, automotive engineers and their recording devices contain the know-how to produce an automobile.

One of the first major neoclassical casualties of this perspective comes from Boulding's critique of the usual factors of production, land, labor and capital:

It is much more accurate to identify the factors of production as know-how (that is genetic information structure), energy, and materials, for, as we have seen, all processes of production involve the direction of energy by some know-how structure toward the selection, transportation, and transformation of materials into the product. [1]

"Labor" is a category marginally useful to Boulding for studying distribution, but of no use whatever for studying production. Boulding's factors of production are know-how, materials and energy; hence, a theory which holds labor—a heterogeneous collection of artifacts of know-how, energy and materials—as the source of value in the production process has "all the scientific validity of the medieval elements of earth, air, fire, and water." [2]

Another former president of the American Economic Association, Georgescu-Roegen, also began to dissent from orthodox economics for reasons not dissimilar to Boulding. In his classic work, The Entropy Law and the Economic Process, Georgescu-Roegen issued a call for the end of the circular flow diagrams used in mainstream thought and textbooks in which the production and circulation process are detached from the physical reality, the scale, of the planet's resources and pollution sinks. He called for greater attention to be given to the second law of thermodynamics – that it be treated as a cornerstone of the mainstream paradigm. Boulding can be seen as addressing this call. Once one considers the possibility that labor can be seen as an intermediate surrogate for more fundamental factors, like know-how, materials and energy, then it is a short step to treat (as Boulding sometimes does) capital as a surrogate for know-how and land as surrogate for material resources and the traditional factors of production, land, labor and capital, are easily rearticulated as know-how, energy and materials. If and when that sort of transformation in thought takes place, professional attention will immediately be focused on the throughput resulting from the production and consumption process. With the rising perception of environmental degradation and the unrelenting thrust of the environmental movement, there is every reason to expect the profession to include throughput as a centerpiece in the production process. Boulding's factors of production accomplish this task.

Post-civilized society

Once the traditional factor of production (i.e. capital) is reinterpreted as know-how, one can easily conclude that know-how and the growth of knowledge are "the essential key to economic development. Investment, financial systems and economic organizations and institutions are in a sense only the machinery by which a knowledge process is created and expressed." ("Economic Development as an Evolutionary System"). Boulding (1961) (1964) embedded his view of development in a long-term perspective that envisages us as moving from our current "civilized society" to "post-civilized society". The driving force of this movement is science or the culture that supports science. Development of the third world is a critical part of the movement to a "post-civilized society".

His "post-civilized society" is not the stationary state of John Stuart Mill or Herman Daly, but it does have a stable population. As a young man in his twenties, Boulding took a position that we now refer to as neo-Malthusian. He argued that "the indication seems to be" that the (per-capita) income level at which the western world would only reproduce itself is one "that the actual standard of life can never reach." (1939, 107) Thirty years later, still prior to Paul Ehrlich's Population Bomb (1969) and the limits-to-growth literature (e.g., Meadows, 1971), Boulding argued (1965) that it "is hard to avoid considerable pessimism" about the prospects of development, especially in countries with high birth rates, which could undermine the great potential of a post-civilized society.

His major contribution to this problem is probably the argument (1964) for tradable birth-right permits. [3] His dissidence on this issue is political – it runs against the grain of the political climate both then and now. [4] If he was correct about the emerging seriousness of the population problem and if that level of concern is one day reflected in popular political sentiment, there is every reason to expect the profession to embrace Boulding's call for tradable birth-right permits, since it is based squarely on neoclassical concern for efficiency.

Criticism of mainstream economists

Boulding is widely known for his criticism of mainstream economists' use of equilibrium analysis and, in particular, for the profession's acceptance of what Boulding calls "Samuelson's dynamics" (originating with the Foundations (1947)). To appreciate his position, it is important to reflect on the different time scales in biological evolution and what Boulding calls social or societal evolution. With the advent of the human capacity for developing complex images (1950), social evolution has proceeded orders of magnitude faster than biological evolution. Changes, for example, in the size of the human brain have occurred orders of magnitude more slowly than social and economic changes in the last ten millennia.

Yet slower than biological evolution is the time scale of astronomical change. The relations among the celestial bodies of the solar system were first depicted mathematically by Newton. The precision with which the field of celestial mechanics is able to describe the movements of bodies of the solar system is due to the incredibly slow time scale of astronomical, evolutionary change. Boulding's longstanding concern was that equilibrium analysis, market dynamics and growth theory as practised in conventional economics are based on the mathematics of difference and differential equations, as found in celestial mechanics.

Along with his critique of equilibrium analysis, he has the following critique with the profession's methodological emphasis on prediction as being the criterion of good theory:

Prediction of the future is possible only in systems that have stable parameters like celestial mechanics. The only reason why prediction is so successful in celestial mechanics is that the evolution of the solar system has ground to a halt in what is essentially a dynamic equilibrium with stable parameters. Evolutionary systems, however, by their very nature have unstable parameters. They are disequilibrium systems and in such systems our power of prediction, though not zero, is very limited because of the unpredictability of the parameters themselves. If, of course, it were possible to predict the change in the parameters, then there would be other parameters which were unchanged, but the search for ultimately stable parameters in evolutionary systems is futile, for they probably do not exist.... Social systems have Heisenberg principles all over the place, for we cannot predict the future without changing it. [5]

There is a fundamental theorem in information theory that says information has to be surprising. Equilibrium can't exist in a system in which information is an essential element. The parameters are always changing. I describe econometrics as the attempt to find the celestial mechanics of non-existent universes. (1991) [ citation needed ]

Biological evolution gives considerable emphasis to the ability of organisms to adapt to unpredictable change—their survival value. In his words,

...the perception of potential threats to survival may be much more important in determining behavior than the perceptions of potential profits, so that profit maximization is not really the driving force. It is fear of loss rather than hope of gain that limits our behavior. [6]

Boulding's observation or conjecture was made prior to widespread adoption of the same idea by economists in the eighties following work done in psychology in the seventies for which a Nobel prize was awarded in 2002.

Notes

  1. Evolutionary Economics, 1981, p. 27
  2. Evolutionary Economics, 1981, p. 28
  3. This idea was picked up later by Carl Bajema (1971) and given a thorough evaluation by David Heer (1975) of the University of Southern California's Population Research Laboratory. Among economists, Herman Daly (1989) is perhaps the best-known proponent of Boulding's idea.
  4. Another example of his political dissidence concerns his vocal pacifism during World War II, which cost him his job with the League of Nations in 1944.
  5. Evolutionary Economics, 1981, p. 44
  6. Evolutionary Economics, 1981, p. 108

Related Research Articles

Economics is a social science that studies the production, distribution, and consumption of goods and services.

In economics, factors of production, resources, or inputs are what is used in the production process to produce output—that is, goods and services. The utilized amounts of the various inputs determine the quantity of output according to the relationship called the production function. There are four basic resources or factors of production: land, labour, capital and entrepreneur. The factors are also frequently labeled "producer goods or services" to distinguish them from the goods or services purchased by consumers, which are frequently labeled "consumer goods".

Neoclassical economics is an approach to economics in which the production, consumption, and valuation (pricing) of goods and services are observed as driven by the supply and demand model. According to this line of thought, the value of a good or service is determined through a hypothetical maximization of utility by income-constrained individuals and of profits by firms facing production costs and employing available information and factors of production. This approach has often been justified by appealing to rational choice theory.

Physical science is a branch of natural science that studies non-living systems, in contrast to life science. It in turn has many branches, each referred to as a "physical science", together is called the "physical sciences".

The following outline is provided as an overview of and topical guide to physics:

In political philosophy, the means of production is a term which describes land, labor, and capital that can be used to produce products ; however, the term can also refer to anything that is used to produce products. It can also be used as an abbreviation of the "means of production and distribution" which additionally includes the logistical distribution and delivery of products, generally through distributors; or as an abbreviation of the "means of production, distribution, and exchange" which further includes the exchange of distributed products, generally to consumers.

Evolutionary economics is a school of economic thought that is inspired by evolutionary biology. Although not defined by a strict set of principles and uniting various approaches, it treats economic development as a process rather than an equilibrium and emphasizes change, innovation, complex interdependencies, self-evolving systems, and limited rationality as the drivers of economic evolution. The support for the evolutionary approach to economics in recent decades seems to have initially emerged as a criticism of the mainstream neoclassical economics, but by the beginning of the 21st century it had become part of the economic mainstream itself.

<span class="mw-page-title-main">Economic system</span> System of ownership, production, and exchange

An economic system, or economic order, is a system of production, resource allocation and distribution of goods and services within a society. It includes the combination of the various institutions, agencies, entities, decision-making processes, and patterns of consumption that comprise the economic structure of a given community.

Sociocultural evolution, sociocultural evolutionism or social evolution are theories of sociobiology and cultural evolution that describe how societies and culture change over time. Whereas sociocultural development traces processes that tend to increase the complexity of a society or culture, sociocultural evolution also considers process that can lead to decreases in complexity (degeneration) or that can produce variation or proliferation without any seemingly significant changes in complexity (cladogenesis). Sociocultural evolution is "the process by which structural reorganization is affected through time, eventually producing a form or structure that is qualitatively different from the ancestral form".

<span class="mw-page-title-main">Heterodox economics</span> Economic theories that contrast with orthodox schools of economic thought

Heterodox economics is any economic thought or theory that contrasts with orthodox schools of economic thought, or that may be beyond neoclassical economics. These include institutional, evolutionary, feminist, social, post-Keynesian, ecological, Austrian, complexity, Marxian, socialist, and anarchist economics.

<span class="mw-page-title-main">Kenneth E. Boulding</span> British-American economist (1910–1993)

Kenneth Ewart Boulding was an English-born American economist, educator, peace activist, and interdisciplinary philosopher. Boulding was the author of two citation classics: The Image: Knowledge in Life and Society (1956) and Conflict and Defense: A General Theory (1962). He was co-founder of general systems theory and founder of numerous ongoing intellectual projects in economics and social science. He was married to sociologist Elise M. Boulding.

<i>Foundations of Economic Analysis</i>

Foundations of Economic Analysis is a book by Paul A. Samuelson published in 1947 by Harvard University Press. It is based on Samuelson's 1941 doctoral dissertation at Harvard University. The book sought to demonstrate a common mathematical structure underlying multiple branches of economics from two basic principles: maximizing behavior of agents and stability of equilibrium as to economic systems. Among other contributions, it advanced the theory of index numbers and generalized welfare economics. It is especially known for definitively stating and formalizing qualitative and quantitative versions of the "comparative statics" method for calculating how a change in any parameter affects an economic system. One of its key insights about comparative statics, called the correspondence principle, states that stability of equilibrium implies testable predictions about how the equilibrium changes when parameters are changed.

<span class="mw-page-title-main">Thermoeconomics</span> Heterodox economic theory

Thermoeconomics, also referred to as biophysical economics, is a school of heterodox economics that applies the laws of statistical mechanics to economic theory. Thermoeconomics can be thought of as the statistical physics of economic value and is a subfield of econophysics.

Nobuo Okishio was a Japanese Marxian economist and emeritus professor of Kobe University. In 1979, he was elected President of the Japan Association of Economics and Econometrics, which is now called Japanese Economic Association.

<span class="mw-page-title-main">Lloyd Demetrius</span>

Lloyd A. Demetrius is an American mathematician and theoretical biologist at the Department of Organismic and Evolutionary biology, Harvard University. He is best known for the discovery of the concept evolutionary entropy, a statistical parameter that characterizes Darwinian fitness in models of evolutionary processes at various levels of biological organization – molecular, organismic and social. Evolutionary entropy, a generalization of the Gibbs-Boltzmann entropy in statistical thermodynamics, is the cornerstone of directionality theory, an analytical study of evolution by variation and selection. The theory has applications to: a) the development of aging and the evolution of longevity; b) the origin and progression of age related diseases such as cancer, and neurodegenerative disorders such as Alzheimer's disease and Parkinson's disease; c) the evolution of cooperation and the spread of inequality.

Tessaleno Campos Devezas is a Brazilian-born Portuguese physicist, systems theorist, and materials scientist. He is best known for his contributions to the long waves theory in socioeconomic development, technological evolution, energy systems as well as world system analysis.

The following outline is provided as an overview of and topical guide to social science:

The following outline is provided as an overview of and topical guide to natural science:

Econodynamics is an empirical science that studies emergences, motion and disappearance of value—a specific concept that is used for description of the processes of creation and distribution of wealth. Any economic theory deals with the interpretation of economic processes based on the law of production of value, and various scientific approaches differ in the choice of factors of production that determine, in the end, the creation of wealth. Marxists insist that only labor creates value, neoclassicists believe that, in addition to labor, capital must also be taken into account as the important source of value. Econodynamics demonstrates that the statement about the productive power of capital is a hoax that hides the real role of labor and energy in the production of value. Econodynamics offers a more adequate interpretation of economic growth and other phenomena.Econodynamics is based on the achievements of classical political economy and neo-classical economics and has been using the methods of phenomenological science to investigate evolution of economic system. Econodynamics has been proposing methods of analysis and forecasting of economic processes. The comprehensive review of the problems of econodynamics is given recently by Vladimir Pokrovskii.

Inframarginal analysis is an analytical method in the study of classical economics. Xiaokai Yang created the super marginal analysis method and revived the important thought of division of labour of Adam Smith. The new classical economics reconstructs several independent economic theories with the core of neoclassical economics from the perspective of endogenous individual choice specialization level by means of inframarginal analysis, which is the frontier subject of economics development.