- Howard T. Odum
region = Systems Ecology
era = 20th century
color = #B0C4DE
name = Howard Thomas Odum
1 September 1924
Chapel Hill, North Carolina, USA
11 September 2002
Gainesville, Florida, USA
Mathematics, Ecologyand Natural philosophy
Ecological economics, ecological engineering, Emergy, Maximum power principle, Systems ecology
Howard Thomas Odum (1924,
Chapel Hill, North Carolina–2002 Gainesville, Florida) (also known as Tom or just H.T.) was an American ecologist. He is known for his pioneering work on ecosystem ecology, and for his provocative proposals for additional laws of thermodynamics, informed by his work on general systems theory.
Odum was the third child of the American sociologist
Howard W. Odum, and the brother of Eugene Odum. The father encouraged his sons to go into science and to develop new techniques to contribute to social progress. Howard learned his early scientific lessons about birds from his brother, about fish and the philosophy of biologywhile working after school for the marine zoologistRobert Coker, and about electrical circuits from "The Boy Electrician. [Taylor 1988, p.223. ] .
Howard Thomas studied
zoologyat the University of North Carolina at Chapel Hill, where he published his first paper while still an undergraduate. His education was interrupted for three years by his wartime service with the Army Air Force in Puerto Ricoand the PanamaCanal Zone where he worked as a tropical meteorologist. After the war, he returned to the University of North Carolina and completed his B.S. in zoology (Phi Beta Kappa) in 1947. In 1947, Odum married Virginia Wood; they had two children. After her 1973 death, he married Elizabeth C. Odum in 1974; she had four children from her previous marriage. Odum's advice on how to manage a blended family was to be sure to keep talking; Elizabeth's was to hold back on discipline and new rules. [(E.C.Odum 1995, p. 360).]
In 1950 Howard earned his Ph.D. in zoology at
Yale University, 1950 under the guidance of G. Evelyn Hutchinson. His dissertation was titled "The Biogeochemistry of Strontium: With Discussion on the Ecological Integration of Elements". This step took him from his early interest in ornithology and brought him into the emerging field of systems ecology. Through this analysis of the global circulation of strontium, anticipated in the late 1940s the now-accepted view of the earth as one great ecosystem. [http://www.crafoordprize.se/press/arkivpressreleases/5.32d4db7210df50fec2d800016978.html The Craford prize 1987] for Eugene P. Odum and Howard T. Odum, with an overview of H.T. Odum's career, 23 September 1987.]
While at Yale, Howard began his life-long collaborations with his brother Eugene. In 1953, they published the first English-language textbook on systems ecology, "Fundamentals of Ecology". Howard wrote the chapter on
energeticswhich introduced his energy circuit language. They continued to collaborate, in research as well as writing, for the rest of their lives. For Howard, his energy systems language (which he called "energese") was itself a collaborative tool. [H.T. Odum told, that "when a group gathers around a table to talk about analyzing the main components of a new system or problem, one person can diagram for the group, enhancing the coherence of the discussion. If the symbols are understood by all, the process of discussion and drawing unites people and thinking around a task with a minimum of semantic problems about meanings. A group, collective-thinking exercise stimulates memories and draws out qualitative and quantitative knowledge from combined experiences with the real-world system of concern. This can be an effective problem-solving and analysis activity in management, research, and classroom settings and should be attempted as a learning tool. It is a useful first step before quantitative or simulation studies." (Howard T. Odum 1994, p.21.) Note: Recently Raphael Valyi coded a [http://sourceforge.net/projects/emsim java tool] which aims in part to provide a globalised facility for collaborative diagraming, and simulating of systems using Odum's energy systems language.]
From 1956 to 1963, Odum worked as Director of the Marine Institute of the University of Texas. During this time, he became aware of the interplay of ecological-energetic and economic forces. He then taught at the University of North Carolina at Chapel Hill, where he was in the Department of Zoology, and one of the professors in the new Curriculum of Marine Sciences until his move to the University of Florida in 1970. He then taught at the Environmental Engineering Sciences Department for 26 years until his retirement in 1996, He also started and directed the Center for Environmental Policy at the University of Florida and founded the University's Center for Wetlands in 1973, the first of its kind in the world that is still in operation today. In the 1960's-1970's Odum was also chairman of the
International Biological Program's Tropical Biome planning committee and was supported by large contracts with the United States Atomic Energy Commission with nearly 100 scientists, which involved radiation studies of a tropical rainforest [ Odum & Pigdon, "A Tropical Rainforest" According to Hagen (1992, p. 168) the then director of the Environmental Sciences Division at the United States A.E.C., John Wolfe, considered Odum's study to be one of the best ever funded by the U.S. A.E.C.] His featured project at University of Florida in the 1970s was on recycling treated sewage into cypress swamps, one of the first projects that began the now widespread approach of using wetlands as water quality improvement ecosystems. This is one of his most important contributions to the beginnings of the field of ecological engineering.
In his last years, Odum was Graduate Research Professor Emeritus and Director of the Center for Environmental Policy. [ In a handout to thank students and associates H.T.Odum (1989, p.1) described his role as follows: "I have played many roles sometimes with the majority, but more often attempting to shock the scientific establishment into a better view."] He was an avid
birdwatcherin both his professional and personal life.
The Ecological Society awarded Odum its Mercer Award to recognize his contributions to the study of the coral reef on
Eniwetok Atoll[Hagen (1992), p.101.] . Odum also received the French Prix de Vie, and the Crafoord Prizeof the Royal Swedish Academy of Science considered the Nobel equivalent for bioscience not originally honored by Nobel himself. Charles A S Hallhas called Odum one of the most innovative and important thinkers of our time, [Hall (1995), p.ix] noting that Howard Odum, either alone or with his brother Eugene, received essentially all of international prizes awarded to ecologists. The only higher education institute to award both Odum brothers honorary degrees was The Ohio State University which honored H.T. in 1995 and Gene in 1999.
Odum's contributions to this field have been recognised by the
Mars Societywho named their experimental station the "H.T.Odum greenhouse", at the suggestion of his former student Patrick Kangas. Kangas and his student, David Blersch, made significant contributions to the design of the waste water recycling system.
Odum's students have carried on his work at institutions around the world, most notably Mark Brown at the
University of Florida, David Tilley and Patrick Kangas at the University of Maryland, Daniel Campbell at the United States EPA, Enrique Ortega at the UNICAMPin Brazil, and Sergio Ulgiati at the University of Siena. Work done at these institutions continues to evolve and propagate the Odum's concept of emergy. His former students Bill Mitsch [Ohio State University] and Bob Costanza [University of Vermont] are among a cadre of former students who have been recognized internationally for their contributions to ecological engineering, ecological economics, ecosystem science, wetland ecology, estuarine ecology, ecological modeling, and related fields.
Work: An overview
Odum left a large legacy in many fields associated with ecology, systems, and energetics. ["Odum's work on energy flow through systems and dynamic modelling of systems spawned, or at least paralleled and encouraged, an immense amount of work by his students and others ranging from input-output studies of energy and material flow in ecological and economic systems ... to dynamic simulation models of whole ecosystems and integrated ecological economic systems." (Costanza 1996: 61)] He studied ecosystems all over the world, and pioneered the study of several areas, some of which are now distinct fields of research. According to Hall (1995, p.ix), Odum published one of the first significant papers in each of the following areas:
Ecological modeling(Odum 1960a);
Ecological engineering(Odum et al. 1963);
Ecological economics(Odum 1971);
*Estuarine ecology (Odum and Hoskins 1958);
*Tropical ecosystems ecology (Odum and Pidgeon 1970);
General systems theory.Odum's contributions to these and other areas are summarized below. Odum also wrote on radiation ecology, systems ecology, unified science, and the microcosm. He was one of the first to discuss the use of ecosystems for life-support function in space travel. [ According to Hall, many of Odum's old ideas have been given new wrappings by academics unaware of their roots in Odum's work:"I remember in 1967 H.T. telling me that some day industrial nations would have to be subsidizing the growing of tropical forests to sequester CO2, something that in fact has come to pass on at least a small scale. Thus a lot of his ideas that seemed so improbable in the past are considered common knowledge now." (Hall 1995: 1)] Some have suggested that Odum was technocratic in orientation, [Taylor 1988; Hammond 1997.] while others believe that he sided with those calling for "new values."
A new integrative approach in ecology
In his 1950 Ph.D. thesis, H.T.Odum gave a novel definition of ecology as the study of large entities (ecosystems) at the "natural level of integration" [ H.T. Odum, 1950, p.3.] . Hence, in the traditional role of an ecologist, one of Odum's doctoral aims was to recognise and classify large cyclic entities (ecosystems). However another of his aims was to make predictive generalizations about ecosystems, such as the whole world for example. For Odum, as a large entity, the world constituted a revolving cycle with high
stability. It was the presence of stability which, Odum believed, enabled him to talk about the teleologyof such systems. Moreover, at the time of writing his thesis, Odum felt that the principle of natural selectionwas more than empirical, because it had a teleological, that is a "stability over time" component. And as an ecologist interested in the behaviour and function of large entities over time, Odum therefore sought to give a more general statement of natural selection so that it was equally applicable to large entities as it was to small entities traditionally studied in biology: [ H.T. Odum (1950 pp.7, 10-11) said: " A more general statement is that "a system which has stability with time will exist longer than a system without stability".
... "Nature seeks steady state entities by natural selection" Of course natural selection in biological systems is a special case of this principle. ...
Le Chatelier's principlefrom this view point may be phrased that a system with a self correcting mechanism has reached this condition by natural selection. ... The second law of thermodynamics appears to be another special case. A system with constant temperature is selected by nature as more stable than a system with different temperatures together.]
Hence Odum also had the aim of extending the scope and generality of natural selection, to include large entities such as the world. This extension relied on the definition of an
entityas a combination of properties that have some stability with time [ H.T. Odum (1950, pp.6, 8) said: "It is now proposed to extend natural selection to the natural level of integration and to the large ecological entities which include both biological and inorganic components. It is postulated that there is a natural selection of the possible systems that may form from a given starting condition, and that those systems that result are those which have mechanisms of maintaining stability. It is thus postulated that natural selection of natural systems results in the formation of entities defined as above. The reason that systems can not proceed toward some kind of disintegration is that such a pattern has no mechanism of maintaining itself. As soon as it does the system fits the definition of an entity."] [Odum then went on to explore the consequence of applying such a view (1950, p.9): "If this postulate is applied to all of nature, the resulting proposition is that nature is as a whole in a steady state or is in the most stable form possible and constitutes one big entity. This does not necessarliy contradict evolutionary changes in the earth's history since these changes may be part of a larger steady state systems."] Odum's approach was motivated by Lotka's idea's on the energetics of evolution.
In writing a history of the ecosystem concept, Golley noted that Odum tended to think in the form of analogies, and gave the example, "if the world is a heat engine, then..." In this vein, Odum can be understood as extending the dynamical analogies which establish the analogies between electrical, mechanical, acoustical, magnetic and electronic systems, to include ecological systems. [ Odum stated: "In trying to solve the ecosystem, one compares it to an electrical system, for which the synthetic knowledge is much greater, and also one attempts to generalize more or less in the way of steady-state thermodynamics".]
Odum used an analog of electrical energy networks to model the energy flow pathways of ecosystems. [(Golley, p. 189)] Odum's analog electrical models had a significant role in the development of his approach to systems and have been recognized as one of the earliest instances of systems ecology. [ Kangas (2004, p.101) said: "In the 1950s and the 1960s H.T.Odum used simple electrical networks composed of batteries, wires, resistors and capacitors as models for ecological systems. These circuits were called "
passive analogs" to differentiate them from operational analog computer circuits, which simulated systems in a different manner."]
Electron flow in the electrical network represented the flow of material (e.g. carbon) in the ecosystem, charge in a capacitor was analogous to storage of a material, and the model was scaled to the ecosystem of interest by adjusting the size of electrical component. [ Kangas 2004, p.102.]
Ecological analog of Ohm's Law
In the 1950s Odum introduced his electrical circuit diagrams of ecosystems to the Ecological Society of America. He claimed that energy was driven through ecological systems by an "ecoforce" analogous to the role of voltage in electrical circuits. Hagen (1992, p.144): "This, according to Odum, necessitated a fundamental change in the way ecologists thought about predator-prey relationships. "The validity of this application
Ohm's Law] may be recognized", he asserted, "when one breaks away from the habit of thinking that a fish or a bear catches food and thinks instead that accumulated food by its concentration practically forces food through the consumers."]
Odum developed an analogue of Ohm's Law which aimed to be a representation of energy flows through ecosystems. [(Golley 1993, p.95)] In terms of steady state thermodynamics, Ohm's Law can be considered a special case of a more general flux law, where the flux () "is proportional to the driving thermodynamic force () with conductivity (). That is: . ["Ibid.", Kangas 1995, pp.11-12). Kangas noted that Odum first set out the theory that Ohm's Law from electronics was analogous to the thermodynamic functioning of ecosystems (2004, p.101): "It seems clear that for Odum the concept that a battery (or more explicitly the solar electricity generator he sometimes used) pushed electrons around a copper circuit in almost exactly the same way that the sun pushed energy (or reduced carbon) around the invisible circuits of an ecosystem.]
Kangas states that Odum then also concluded that as thermodynamic systems, ecosystems should also obey the
force-flux law[(Kangas 1995, p.12)] . Hence Ohm's law and passive electrical analog circuits can be used to simulate ecosystems ("Ibid."). In this simulation, Odum attempted to derive an ecological analog for electrical voltage. Voltage, or driving force, is related to something we have measured for years, the biomass, in pounds per acre. The analogous concept required is the biomass activity, that is, the thermodynamic thrust, which may be linear. Exactly what this is in nature is still uncertain, as it is a new concept.
Such a consideration led Odum to ask two important methodological questions: 1) What is the electrical significance of a function observed in nature? 2) Given an electrical unit in a circuit, what is it in the ecological system? For example, what is a diode in nature? One needs a diode to allow biomass to accumulate after the voltage of the sun has gone down. Otherwise the circuit reverses. Higher organisms like fish are diodes.
The Silver Spring study
Odum started with an overall model and in his early work used a diagramming methodology very similar to the Sankey diagrams used in chemical process engineering. In this model energy and matter flows through an ecosystem: [The picture is adapted from the Silver Springs model; Odum 1971)] H are herbivores, C are carnivores, TC are top carnivores, and D are decomposers. Squares represent biotic pools and ovals are fluxes or energy or nutrients from the system.
Odum mapped in detail all the flow routes to and from the stream. He measured the energy input of sun and rain, and of all organic matter - even those of the bread the tourists threw to the ducks and fish - and then measured that gradually left the spring. In this way he was able to establish the stream's energy budget.
Ecological and biological energetics
Around 1955 Odum directed studies into
radioecology[(Golley 1993, p.74)] which included the effects of radiation on the tropical rainforest at El Verde, Puerto Rico (Odum and Pidgeon), and the coral reefs and ocean ecology at Eniwetok atoll. [(Odum and Odum 1955)] The Odum brothers were approached by the Atomic Energy Commission to undertake a detailed study of the atoll after nuclear testing. Apparently the atoll was sufficiently radioactive that upon their arrival the Odums were able to produce an autoradiographicimage of a coral head by placing it on photographic paper. [(Hagen 1992, p.102)] These studies were early applications of energy concepts to ecological systems. They were exploring the implications of the laws of thermodynamics when used in these new settings. [Golley (1993, pp.70, 82) said: "Odum pioneered a method of studying system dynamics by measuring the chemistryof the input and output water. The difference between input and output, under steady stateconditions, was a measure of the metabolismof the whole system. Tom Odum ... was motivated to study the whole system as a unit. His general plan "was to characterize the chemostaticflow, to establish the qualitative and quantitative community structure, to measure the production rates, and to study the mechanisms by which the community metabolism is self-regulated"."]
From this view, biogeochemical cycles are driven by radiant energy. [Taylor 1988, p. 226.] Odum expressed the balance between energy input and output as the ratio of production ("P") to respiration ("R"): "P-R". He classified water bodies based on their "P-R" ratios, this separated
autotrophicfrom heterotrophicecosystems: "his measurements of flowing water metabolism were measurements of whole systems. Odum was measuring the community as a system, not adding up the metabolism of the components as Lindeman and man others had done". [Golley 1993, pp.83, 93.] This reasoning appears to have followed that of Odum's doctoral supervisor, G.E.Hutchinson who expressed the view that if a community were an organism then it must have a form of metabolism [ Hagen 1992, p.50.] However Golley notes that H.T.Odum attempted to go beyond the reporting of mere ratios, a move which resulted in the first serious disagreement in systems energetics.
Maximum power theory and the proposal for additional laws of thermodynamics/energetics
In a controversial move, Odum, together with Richard Pinkerton (at the time physicist at the University of Florida), was motivated by
Alfred J. Lotka's articles on the energetics of evolution, and subsequently proposed the theory that natural systems tend to operate at an efficiency that produces the maximum power output, not the maximum efficiency. [Odum and Pinkerton 1955. This was described variously as the "maximum power principle" (Odum 1994), "maximum power theory" (Gilliland 1978), "maximum "power" efficiency" (Costanza 1999, p.60), "optimum efficiency maximum power principle" (Odum 1970), and "maximum power output theorem" (Golley 1993, p. 87).] This theory in turn motivated Odum to propose maximum power as a fundamental thermodynamic law. Further to this Odum also mooted two more additional thermodynamic laws (see Energetics), but there is far from consensus in the scientific community about these proposals, and many scientists have never heard of H.T.Odum or his views.
Energese: Energy Systems Language
By the end of the 1960s Odum's electronic circuit ecological simulation models were replaced by a more general set of energy symbols. When combined to form systems diagrams, these symbols were considered by Odum and others to be the language of the macroscope which could portray generalized patterns of energy flow: "Describing such patterns and reducing ecosystem complexities to flows of energy, Odum believed, would permit discovery of general ecosystem principles". [(Bocking 1997, p.73)] Some have attempted to link it with the universal scientific language projects which have appeared throughout the history of natural philosophy [Cevolatti and Maud 2004.] [This language has gone by several names including, "energy circuit language" (Odum 1971), "
Energy Systems Language" (Odum and Odum 2000), "universal energy language" (Hagen 1992, p.135), and "Energese" (Hagen 1992, p.135): "Odum believed that this language could be applied to any system: electrical, mechanical, biological, or social. This ambitious program in systems ecology was summarized in Odum's semipopular book, "Environment, Power, and Society" ... intended to explain basic concepts of ecology using Odum's energy language. ... It presented a cogent argument for the limits of industrial growth. Circuit diagrams were skillfully used to illustrate the dependence of agricultural ecosystems and industrial societies upon fossil fuel subsidies ... Voting, public opinion, taxes, even revolution and war could be expressed in the language of energy circuits."]
Energy Systems Languageof systems ecology developed by Howard Odum and others, 1971.] Kitching claimed that the language was a direct result of working with analogue computers, and reflected an electrical engineer's approach to the problem of system representation: "Because of its electrical analogy, the Odum system is relatively easy to turn into mathematical equations ... If one is building a model of energy flow then certainly the Odum system should be given serious consideration... " [ Kitching 1988, p.25.]
In taking an energy-based view of hierarchical organization also developed further the systems ecology understanding of
In the 1990s in the latter part of his career H.T. Odum together with
David M. Sciencemandeveloped the ideas of emergy, as a specific use of the term Embodied energy. Some consider the concept of "emergy", sometimes briefly defined as "energy memory", as one of Odum's more significant contributions. However the concept is neither free from controversy, and not without its critics. Odum looked at natural systems as having been formed by the use of various forms of energy in the past: "emergy is a measure of energy used in the past and thus is different from a measure of energy now. The unit of emergy (past available energy use) is the emjoule to distinguish it from joules used for available energy remaining now." This was then conceived as a principle of maximum empowerwhich might explain the evolutionof self-organising open systems. However such a principle has not been empirically demonstrated nor verified by the scientific community.
Ecosystem ecology and systems ecology
Ecosystem ecologyand systems ecology" For J.B. Hagen, the maximum power principle, and the stability principle could be easily translated into the language of homeostasisand cyberneticssystems [(Hagen 1992, pp.130, 131).] Hagen claims that the feedback loops in ecosystems, were, for Odum, analogous to the kinds of feedback loops diagrammed in electronic circuits and cybernetic systems ("Ibid."). This approach represented the migration of cybernetic ideas into ecology and led to the formulation of systems ecology. In Odum's work these concepts form part of what Hagen called an, "ambitious and idiosyncratic attempt to create a universal science of systems" ("Ibid").
The ecosystem concept
Hagen has identified the systems thinking of Odum as a form of holistic thinking. [ Hagen 1992, p.138.] Odum contrasted the holistic thinking of systems science with reductionistic microscopic thinking, and used the term "macroscope" to refer to the holistic view, which was a kind of "detail eliminator" allowing a simple diagram to be created. [Madison (1997, p.215): "The intricate biological details of a particular ecosytem were relevant; natural history serves as an important means of creating an "inventory of the parts" for the system, but the real explanation came in terms of overall energy flow through the ecosystem as a whole. For example, when the Odums had studied the metabolism of the reef at Eniwetok Atoll, they were not concerned with individual species. Indeed, at the time they were unable to identify them. Nonetheless, they were able to estimate the total flow of energy through the entire system. Had they started studying the reef from the bottom up, they might never have gotten around to studying its overall metabolism."]
H.T.Odum was a pioneer in his use of small closed and open ecosystems in classroom teaching. These small ecosystems were often constructed from fish tanks or bottles and have been called
microcosms. [Beyers 1964.] Odum's microcosm studies influenced the design of Biosphere 2[ 1999 Biosphere 2 : Research, Past and Present, with Bruno D. V. Marino. ]
In observing the way higher order trophic levels have a control function in ecosystems H.T.Odum arrived at the concept he termed
Ecological economics is now an active field between
economicsand ecology with annual conferences, international societies and an international journal. From 1956 to 1963 H.T.Odum worked as Director of the Marine Institute of the University of Texas. During this time Odum became aware of the interplay of ecological-energetic and economic forces. He therefore funded the research into the use of conventional economic approaches to quantify dollar values of ecological resources for recreational, treatment and other uses. This research calculated the potential value of primary production per bay surface area [ Kangas (2004b, p.179-180): "Odum was involved to a greater or lesser extent in the first calculation of the value of an ecosystem service in 1958! ... He divided fossil fuel use by GNP at the national scale to estimate a ratio of 10,000 Cal/$. By dividing this conversion into ecological energy flow he calculated what he termed life support value. ... Much interesting ecological economics work grew from Odum's life support calculations. The important dialog about the value of salt marsh wetlands ... can be traced back to these early calculations as can, to some extent, the whole notion of ecosystem services so popular today among ecological economists..."]
For Hall [ Hall 1995, p. 159.] the importance of Odum's work came through his integration of systems, ecology, and energy with economics, together with Odum's view that economics can be evaluated on objective terms such as energy rather than on a subjective, willingness to pay basis.
Ecological Engineering is an emerging field of study between ecology and
engineeringconcerned with the designing, monitoring and constructing of ecosystems. The term ecological engineering was first coined by the Howard T. Odumin 1962 [ David Del PortoW.J. Mitsch and S.E. Jørgensen. 1989. Ecological engineering: An Introduction to Ecotechnology, J. Wiley & Sons, Inc., New York ] well before he worked at the University of Florida. Ecological engineering, he wrote, is "those cases where the energy supplied by man is small relative to the natural sources but sufficient to produce large effects in the resulting patterns and processes." [ H.T. Odum, 1962 ] Ecological engineeering, as a practical field, was then developed by his former graduate student Bill Mitsch who was started and continues to edit the standard journal in the field and helped to start both international and a U.S. societies devoted to ecological engineering, and has written two textbooks on the subject [W.J. Mitsch and S.E. Jørgensen. 1989. Ecological engineering: An Introduction to Ecotechnology, J. Wiley & Sons, Inc., New York] [ W.J. Mitsch and S.E. Jørgensen, 2004. Ecological engineering and ecosystem restoration. John Wiley & Sons, Inc., New York] One of H.T. Odum's last papers was his assessment of ecological engineering that was published in the journal Ecological Engineering in 2003, a year after Odum died. [ Odum, H.T. 2003. Concepts and methods in ecological engineering. Ecological Engineering 20: 339-361.]
General systems theory
Odum has been described as a "technocratic optimist". [Taylor 1988, Lugo 1995.] His approach was significantly influenced by his father who was also an advocate of viewing the social world through the various lenses of physical science. [ Hagen (1992, p.135): "The energetics laws are as much first principles of political science as they are first principles of any other process on earth."] Within the processes on earth, H.T.Odum (1989) viewed humans as playing a central role: He said that the "human is the biosphere's programmatic and pragmatic information processor for maximum performance".
... Integration of science and society ...??
H.T. Odum wrote some 15 books and 300 papers, and a "Festschrift" volume ("Maximum Power: The Ideas and Applications of H.T.Odum" 1995) was published in honour of his work. [In a review of "Maximum Power", Robert V. O'Neill (1996, p.2263) of the
Oak Ridge National Laboratorywrote: "What is clear is that H.T.Odum [was] a genius and an integrative genius seldom books petty constraints".]
Odum was also honored by the the journal Ecological Engineering [ Ecological Engineering 2004. 3: 77 - 119 ] for his contributions to the field of ecological engineering and ecology in general in recognition of his 70th birthday. This publication included over 25 letters from distinguished scientists from all over the world including Bill Mitsch (lead editorial), John Allen, Robert Ulanowitcz, Robert Beyers, Ariel Lugo, Marth Gilliland, Sandra Brown, Ramon Margalef, Paul Risser, Gene Odum, Kathy Ewel, Kenneth Watt, Pat Kangas, Sven Jørgensen, Bob Knight, Rusong Wang, John Teal, Frank Golley, AnnMari and Bengt-Owe Jansson, Joan Browder, Carl Folke, Richard Wiegert, Scott Nixon, Gene Turner, John Todd, and James Zuchetto. This list of letters is a must for any H.T. Odum admirer.
* 2001, "A Prosperous Way Down: Principles and Policies", with Elisabeth C. Odum, University Press of Colorado.
* 2000, with E.C. Odum, "Modeling for all Scales: An introduction to System Simulation", Academic Press.
* 1999, "Heavy Metals in the Environment: Using Wetlands for Their Removal".
* 1999, "Biosphere 2 : Research, Past and Present", with Bruno D. V. Marino.
* 1996, "Environmental Accounting: EMERGY and environmental decision making".
* 1993, "Ecological Microcosms", with Michael J. Beyers.
* 1984, "Cypress Swamps" with Katherine C. Ewel.
* 1983, "Systems Ecology : an Introduction".
* 1981, "Energy Basis for Man and Nature", with Elisabeth C. Odum.
* 1970, with Robert F. Pigeon (eds), "A Tropical Rain Forest; a Study of Irradiation and Ecology at El Verde, Puerto Rico", United States Atomic Energy Commission, National Technical information service.
* 1971, "Environment, Power and Society", 1971
* 1967, (ed.) "Work Circuits and System Stress, in Young", Symposium on Primary Productivity and Mineral Cycling, Universit of Maine Press.
* 1953, "'Fundamentals of Ecology", with Eugene P. Odum, (first edition).
* 1998, [http://dieoff.org/page170.htm "eMergy Evaluation"] , paper presented at the International Workshop on Advances in Energy Studies: Energy flows in ecology and economy, Porto Venere, Italy,
* 1989, "Comments and thanks to Students and Associates, Handout on the Occasion of the Celebration in Chapel Hill, N.C", in: "Advances in Understanding Ecological Systems",
August 31-September, 2.
* 1977, The ecosystem, energy, and human values, in: "Zygon", Volume 12 Issue 2 Page 109-133.
* 1973, "Energy, ecology and economics", Royal Swedish Academy of Science. in: "AMBIO", 2 (6), 220-227.
* 1963, with W.L. Slier, R.J. Beyers & N. Armstrong, "Experiments with engineering of marine ecosystems", in: "Publ. Inst. Marine Sci." Univ. Tex. 9:374-403.
* 1963, "Limits of remote ecosystems containing man", in: "The American Biology Teacher". 25 (6): 429-443.
* 1960a, "Ecological potential and analog circuits for the ecosystem", in: "Amer. Sci." 48:1-8.
* 1960b, "Ten classroom sessions in ecology" in: "The American Biology Teacher". 22 (2): 71-78.
* 1958, with C.M. Hoskin, "Comparative studies of the metabolism of Texas bays", in: "Publ. Inst. Mar. Sci.", Univ. tex., 5:16-46.
* 1955, with E.P. Odum, "Trophic structure and productivity of a winward coral reef community on Eniwetok Atoll", in: "Ecological Monographs." 35, 291-320.
* 1950, "The Biogeochemistry of Strontium: With Discussion on the Ecological Integration of Elements", A Dissertation presented to the Faculty of the Graduate School of Yale University in Candidacy for the Degree of Doctor of Philosophy.
About Howard T. Odum
* Beyers, R.J. 1964. The Microcosm Approach to Ecosystem Biology. "The American Biology Teacher". 26 (7): 491-498.
* Bocking, S. 1997. "Ecologists and environmental politics: a history of contemporary ecology", Yale University.
* Cevolatti, D., and Maud, S., 2004, " [http://www.energybulletin.net/docs/RealisingTheEnlightenment.pdf Realising the Enlightenment: H. T. Odum's Energy Systems Language "qua" G. W. v. Leibniz's "Characteristica Universalis",] " "Ecological Modelling 178": 279-92.
* Costanza, R. 1997. " [http://books.google.com.au/books?id=W8IrfPJLihEC&pg=PP1&ots=ub-_DX_ccA&dq=introduction+to+ecological+economics&sig=0h845xbpYPZt3jGkF9DYpHDV-Us An Introduction to Ecological Economics] ", CRC Press.
* Ewel, John J. 2003. Resolution of Respect: Howard Thomas Odum "Bulletin of the Ecological Society of America". January 2003: 12-15 [http://www.esa.org/history/obits/Odum_HT.pdf (PDF)]
* Gilliland, M.W. ed. (1978) [http://books.google.com.au/books?id=e6aTAAAACAAJ&dq=Energy+Analysis:+A+New+Public+Policy+Tool Energy Analysis: A New Public Policy Tool] , AAA Selected Symposia Series, Westview Press, Boulder, Colorado.
* Golley, F. 1993. "A History of the Ecosystem Concept in Ecology: More than the sum of the parts", Yale University Press.
* Hagen, J.B. 1992. " [http://books.google.com.au/books?id=OutzDuiOajcC&pg=PP1&ots=kqw3-yX2AW&dq=An+Entangled+Bank:+The+Origins+of+Ecosystem+Ecology.&sig=_Xw9fmyWJjSjsW9CiWxTjEMBZVE An Entangled Bank: The Origins of Ecosystem Ecology] ". Rutgers University Press.
* Hall, C.A.S. (ed.) 1995. "Maximum Power: The Ideas and applications of H.T.Odum". Colorado University Press.
Debora Hammond, 1997. [http://www.ingentaconnect.com/content/whp/eh/1997/00000003/00000002/art00006?crawler=true Ecology and Ideology in the General Systems Community] , "Environment and History", Volume 3, Number 2, pp. 197-207(11)
* Hammond, G. 2007. Energy and sustainability in a complex world: Reflections on the ideas of Howard T. Odum, "Int. J. Energy Res." (in press).
* Kangas, P. 1995. Contributions of H.T.Odum to Ecosystem Simulation Modelling, in Hall (ed.) "Maximum Power: the Ideas and Applications of H.T.Odum", Colorado University Press, Colorado.
* Kangas P. 2004. The role of passive electrical analogs in H.T. Odum's systems thinking, "Ecological Modelling", v 178 (1-2), 101-106.
* Kangas P. 2004b. Ecological economics began on the Texas bays during the 1950s, "Ecological Modelling", v 178 (1-2), 179-181.
* Kitching R.L. 1983. " [http://books.google.com.au/books?id=VZ-yAQAACAAJ&dq=systems+ecology+intitle:Systems+intitle:ecology+inauthor:Kitching Systems Ecology: An Introduction to Ecological Modelling] ", University of Queensland Press.
* Lugo, A. E. 1995. A review of Dr. Howard T. Odum's early publications: From bird migration studies to Scott Nixon's turtle crass model. In Hall (ed.) "Maximum Power: The Ideas and applications of H.T.Odum". Colorado University Press.
* Madison, M.G. 1997. [http://www.ingentaconnect.com/content/whp/eh/1997/00000003/00000002/art00007?crawler=true 'Potatoes Made of Oil': Eugene and Howard Odum and the Origins and Limits of American Agroecology] , "Environment and History", Volume 3, Number 2, June 1997, pp. 209-238 (30
*Mitsch, W.J. 1994. Energy flow in a pulsing system: Howard T. Odum. "Ecological Engineering", v.3, 77-83.
*Mitsch, W.J. and J.W. Day, Jr. 2004. Thinking big with whole ecosystem studies and ecosystem restoration—A legacy of H.T. Odum. Ecological Modelling, v 178, 133-155.
* Odum, E.C. 1995. H.T. Odum as a Husband and Colleague, in Hall (ed.), "Maximum Power: The Ideas and applications of H.T. Odum". Colorado University Press, pp.360-361.
* Taylor, Peter J. 1988. Technocratic optimism, H.T. Odum and the partial transformation of ecological metaphor after World War 2. Journal of the History of Biology 21:213-244.
* [http://www.crafoordprize.se/press/arkivpressreleases/5.32d4db7210df50fec2d800016978.html The Craford prize 1987] for Eugene P. Odum and Howard T. Odum, with an overview of H.T. Odum's career.
* [http://www.cep.ees.ufl.edu/ Center for Environmental Policy]
* [http://www.cfw.ufl.edu/ (H.T. Odum) Center for Wetlands]
* [http://www.eoearth.org/article/Howard_T._Odum_Collection Photo archive and H.T. Odum collection] in the [http://www.eoearth.org/ Encyclopedia of Earth]
* [http://grove.ufl.edu/~wetlands/index_011.htm H.T. Odum Cypress Dome Wetland]
* Photo of the inside of the Mars Society's [http://www.marssociety.org/MDRS/fs02/1114/index.asp H.T. Odum Greenhouse]
* Photo of the outside of the Mars Society's [http://www.marssociety.org/mdrs/fs02/1117/index.asp H.T. Odum Greenhouse]
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Howard W. Odum — Howard Washington Odum (born May 24, 1884 near Bethlehem, Georgia; died November 8, 1954 in Chapel Hill, North Carolina) was an American sociologist. He graduated from Emory University and received his first doctorate, in psychology, at Clark… … Wikipedia
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