Thursday, 6 November 2014

Obituary - Emilio Del Giudice

It is with great regret that we announce the sudden death of our friend and colleague Emilio del Giudice, (Prigogine Medallist 2009). He was a very active member of the Editorial Board of the International Journal of Design and Nature with Ecodynamics, as well as supporter of other activities of the Wessex Institute and WIT Press. He was engaged in writing an article with another of our colleagues, Vladimir Voeikov (Prigogine Medallist 2013) at the time of his death on 31st January 2014.
Emilio was a member of the International Institute of Biophysics at Neuss in Germany, having previously worked at the National Institute of Nuclear Physics in Milano; the University of Naples; the Massachusetts Institute of Technology; the European Centre for Nuclear Research (CERN); and the Niels Böhr Institute.
His 2009 Prigogine lecture in the Aula Magna of the University of Siena dealt with the Interplay of Quantum Field Theory and the thermodynamics of Irreversible Processes. The studies presented during the address were characteristic of the wide breadth of his research, relating the behaviour of collective processes and living organisms with Quantum Electromagnetic Field Theory. His innovative approach to any scientific problem included numerous studies on the structure of liquid water.
Giorgio Masiero, a close friend and collaborator of Emilio, has described the importance of his work as follows: "The classical mechanics was based on the concept of isolated bodies, in such manner that a complex system was explained as an aggregate of isolated microscopic parts, interacting with each other under the influence of external forces. This classical, naturalistic and reductionist explanation was however proved to be in contradiction with the experimental behaviour of atomic matter, remaining valid only as an approximation at the macroscopic level of a more accurate theory valid in all scales, ie the Quantum Field Theory."
Giorgio Masiero also stated that Emilio embarked, throughout his life, on a scientific journey, without any pre-conditioning or prejudice, a journey motivated only by searching for knowledge. This has encompassed from the quantum theory to the homeopathy and his study on the memory of water, from cold fusion to the effect of electromagnetic fields on living organisms, which are the foundations of the complex process of self organisation.
Emilio frequently referred to the spirit of scientific curiosity that drives us to investigate how nature works by decomposing its products into a series of basic elements. Once a living system has been divided into those elements down to the atomic or molecular level, the next question is to understand how the system can be rebuilt again. This indeed was the challenge, as Emilio said, of modern science.
"How can all individual composites be made to evolve in the right direction and become a living organism? There ought to be a code by which the atoms are made to fulfil their biological functions. Atoms are seen to interact in a primarily random way in physical systems but not in the case of biological systems. In living organisms, the atoms are arranged in accordance with a coding. This code is based on electromagnetic fields and the frequency of those fields made the interaction of different atoms possible. These forces are the basis of selection and the mechanism that supports the field is water."
Larissa Brizhik (Prigogine Medallist 2011), another of his many friends and collaborators, expressed Emilio's unique qualities by saying that "the outstanding personality of Emilio was manifested in everything he was doing, and everything he was doing in his life, he did with great joy. He was highly educated in many areas – from physics and mathematics to sociology, psychology, medicine and music. Emilio believed that the most complicated concepts could be explained in a very simple way".
Mae-wan Ho, another distinguished colleague, is of the opinion that "Emilio was the most brilliant scientist alive; his pioneering work in quantum field theory of condensed matter, specially water, was a major inspiration for many of us".
The originality of Emilio's ideas was based on what Robert Ulanowicz (Prigogine Medallist 2007) called "his bold challenge of orthodoxy in ways that support Popper's calls for falsifiability in science".
The answer to how the electromagnetic field varies in water is what Emilio called "the Quantum Physics miracle!" The change in configuration is produced by exciting the atoms by photons which become 'trapped' in the system. The capture of successive numbers of photons will contribute to the oscillations of the atoms, resulting in the creation of a field that will attract other atoms. This means that water as an electromagnetic field can be seen as the source of all life. In this manner, water provides energy to the living matter.
Emilio's departure is a great loss to modern science as well as to his many friends and colleagues. He will be sorely missed and it will be difficult – if not impossible – to find another scientist who comprehends so many different fields and interdisciplinary concepts; his ability to explain them in a clear and precise manner was his trademark as a great teacher.
Carlos A. Brebbia, Wessex Institute, UK
Larissa Brizhik (Prigogine Medal 2011), Ukraine
Robert Ulanowicz (Prigogine Medal 2007), USA
Mae-wan Ho, UK
Giorgio Masiero, Italy

Monday, 3 November 2014

Memories of Enzo Tiezzi

Walter Hermann Nernst (1864-1941), the great German scientist, winner of the Nobel Prize in Chemistry (1920) and father of the third principle of thermodynamics, had a Florentine pupil, Giorgio Piccardi (1895-1972), Professor of Physical Chemistry at the University of Florence. Piccardi launched the studies of oscillating phenomena, which were then undertaken by Ilya Prigogine (1917-2003), the scientist awarded the Nobel Prize in Chemistry in 1977. Piccardi’s best pupil and scientific successor was Enzo Ferroni (1921-2007), who took over his chair at the Department of Physical Chemistry at the University of Florence. Enzo Ferroni had a young, enterprising researcher from Siena as his pupil, Enzo Tiezzi, who then became Full Professor of Physical Chemistry and founder of the Sienese School of Chemistry. Mindful of this lineage and extremely respectful of the role of his teachers, Enzo Tiezzi often spoke proudly of having been a pupil of Giorgio Piccardi, Enzo Ferroni, and Ilya Prigogine.


Enzo passed away June 25th, 2010.

Enzo Tiezzi was a scientist, an internationally famous physical chemist. In order to tell about his academic career, we would have to mention hundreds of publications and university lectures. His research was a journey, a series of adventures undertaken with the spirit of a passionate pioneer. From his years studying magnetic resonance imaging to his research in the sectors of evolutionary and ecological sciences, Enzo Tiezzi was an authentic precursor of the sciences and new disciplines for the environment, up to his recent studies on the complex properties of water [1].

It is impossible to summarize, in just a few lines, the work of Enzo Tiezzi, and the immense, protean, colorful baggage of knowledge gained and transmitted in these years of passionate scientific research. Wishing to identify a general, preeminent aspect of his thought, we believe we must refer to his great ability to observe and explain, in theoretical terms, the behavior of complex dynamic systems. In his thought, thermodynamics is the science that predominantly allows for the explanation of the general processes that regulate the functions of living systems, and that allows us to face existential issues such as the origin and maintenance of life on planet Earth, or the complexity and emergence of novelties in nature. With this basic direction, the scientific investigations of Enzo Tiezzi have ranged from laboratory studies of a number of particular oscillating chemical reactions, to the systemic vision of networks of processes in living organisms, ecosystems, economic and social systems. An accurate and articulate scientific treatment of the recent developments of evolutionary sciences and the epistemology of science is gathered in the volume “Steps Towards an Evolutionary Physics”[2], which furthers the work undertaken by Prigogine.

Prigogine defined these systems as dissipative structures for their ability to organize themselves into coherent forms and to maintain them over time. These properties are due to two essential and necessary characteristics. The first is that a dissipative system is an open system, that is related to the external environment with which it activates exchanges of energy and matter. The second is that a dissipative structure is a complex system with a group configuration that is coherent and able to adapt itself to stimuli from the surrounding environment and to self-organize. Tiezzi investigated the main properties of living systems, starting with the thermodynamics of Prigogine. In recent years, in order to more simply identify and communicate the basic principles of an ecological theory of systems that is able to orientate new techniques for observing nature, Tiezzi focused attention on a concept that he synthetically expressed with the acronym COOS, with reference to the name of the Greek island that is the home of Hippocrates. COOS means “Confined Ontic Open System”, indicating that every living system or grouping of living systems – which could be a garden or a barena in the lagoon of Venice – is one of a kind, insofar as it is the result of an epigenetic evolutionary process in which different elements and systems have combined in a succession of random choices and events. The self-organization of a system is guaranteed by the presence of a border, an interface that allows for the modulation of the relations and exchanges between the system and the external environment and conditions its evolution. The idea was born in Morocco, in February 2009, when Enzo was in the house of his friend Sergio Caroli, built renewing an ex-caravanserai in the Tighmert oasis.

While speaking of Tiezzi’s work, a colleague and friend, Prof. Enrico Falqui, said, “his last years were spent in attempting to track down ‘universal values’ in the field of his complex and countless investigations into the link between Biology and Development; when Enzo did track them down, he then chose new tools and new means for ‘communicating’, to an increasingly wider audience, his ideas for the future and the ethics of responsibility, which he always knew how to convey to his pupils.” In these years, Enzo Tiezzi founded and directed the Ecodynamics Group. Today, this group has the honor of availing itself of the strong imprinting that Enzo Tiezzi entrusted to his pupils in these years of collaboration and research. Enzo Tiezzi’s perspective and inheritance, gathered in particular in his books and publications, is today the common key for interpreting all the interdisciplinary works and projects undertaken by this research group, in remembrance of his first teachings (quoting Seneca): “If one does not know to which port one is sailing, no wind is favorable.”

In these years of passionate collaboration, we have seen Enzo Tiezzi receive all kinds of awards and recognitions, each time with the pride and gratitude of one who still knows how to be amazed by the approval he has gathered. He always held this spirit, for occasions of great prestige among international scientists – such as for the Blaise Pascal Medal of the European Academy of Science, or for the Prigogine Medal of the Wessex Institute of Technology – as much as for all other cases, which were just as important in his eyes – such as for the Mantova Award for Arts and Sciences, or the ‘Mangia d’Oro’, a recognition granted by the city of Siena to its greatest representatives. 

Books by Enzo Tiezzi, scientific essays written with the sensibility of a narrator enchanted by nature – such as “The End of Time” [3], “Beauty and Science” [4], “The Essence of Time” [5], among others [6-8] – have influenced hundreds of young researchers and have been translated and published all over the world. An interview with him was included in the International Show "Les Yeux ouverts. Stock exchange visions" [9] and presented at the Centre Pompidou in Paris, at the Milan Triennial, and at the Shanghai Arts Festival: this is a set of interviews of 54 personalities, including scientists and world-famous intellectuals, accredited with and chosen for giving a “vision of the future world”.

In his attempt to identify the reasons for the global environmental crisis, Enzo Tiezzi directed our gazes towards the difference between the extremely fast times of technology and the slow times of biology; here we are dealing with a formidable scientific intuition – as Enrico Falqui writes again – that underlines the reversal between the scale of Historical Times and that of Biological Times, caused by the imbalances and uncontrolled growth provoked by human activity since the 1950’s. His most celebrated book carries the “trademark” of this pioneering idea: The End of Time [3], on the eve of the referendum on the use of nuclear energy in Italy and the terrible incident that occurred in Russia at the Chernobyl nuclear reactor. Enzo Tiezzi taught that the problem of sustainability is therefore a problem of time, and in particular of the distance that is growing between Historical Times and Biological Times. As to this breach, he wrote in 1984 in the first edition of his book: “Entropy means waste of resource and pollution, energy crises and destruction of the environment. […]Dominant economic theory, based as it is on mechanistic principles, remains ignorant of the law of entropy and the role of the time variable. The classical dynamic concept of time and its reversibility, has nothing to do with reality and nature. Time is not without its preferred directions (it is not isotropic) as is space. Time has a direction. […] Not only is economics ignorant of these concepts, but it introduces another concept which can be summed up as «time is money». Progress is measured by speed of production. It has even been suggested that the faster we use up nature's resources, the greater the advance of progress. In other words, the faster we transform nature, the more time we save. This technological or economic concept of time is exactly the opposite to «entropic time». Nature obeys different laws to economics, it works in «entropic time»: the faster we consume natural resources and the energy available in the world, the less time is left for our survival. «Technological time» is inversely proportional to «entropic time»; «economic time» is inversely proportional to «biological time».

Our limited resources and the limited resistance of our planet and its atmosphere clearly indicate that the more we accelerate the energy and matter flow through our Earth system, the shorter is the life span of our species. An organism which consumes faster than the environment produces cannot survive, it has chosen a dead branch of the evolutionary tree; it has chosen the road taken by the dinosaurs. Money time and clock time are not the scales on which a correct relationship with nature can be established. Paradoxically the clock which is a symbol of order, strikes the hours of disorder; frenetic consumerism and growth of production advance the hour of global disorder. The natural order has other rhythms, another time scale. Man cannot stop time but he can slow down the process of entropy and evolution which will favour a transition to a state of minimum entropy production and, in the long run, favour the future of our species”.

His journeys, from India to Patagonia, from Guatemala to Cappadocia, and his observations of the infinite diversities among nature, cultures, and civilizations, always inspired his work, aimed at the constant search for beauty in this “blue orange” – as Enzo defined our magnificent planet – and at an authentic harmonious relationship with it. His wisdom was expressed in a thousand ways, with great coherence, such as in his photographs [10], which have often been exhibited in various cities in Italy, and in his poetry [11,12], which testifies to his being both a meticulous scientist and a passionate creative artist.

In order to give an idea of the eclectic personality of Enzo Tiezzi, we must refer to numerous meetings with him and how much was absorbed from each of them, if they were with Nobel Award-winners or world-famous intellectuals and scientists, or with his youngest pupils. Many have treasured his teachings for studies and applications in numerous sectors and disciplines, grateful for the passion for science and life that he was able to convey.

Much of his exuberant nature manifests itself between the lines of his stories. Enzo is in all and in none of the various characters, only partly real or completely imaginary, that populate the pages of his novels [13-15], each of which, in some way, represent an aspect of his multifaceted personality. In order to tell you about him, we would have to quote Rosaluna, born February 4th in a thermal tub, Altair the horse, the sketched character Indaco de Lunas, the city and the young girl Asmara, a talking pelican named Polibio, the dreamer Isidro Pavòn, the king of the gypsies and the pirate Morgan, and, finally, we would have to tell you about his casual encounter with a two-tailed mermaid.


The Pupils - Ecodynamics Group.


[1] Special issue of the International Journal of Ecodynamics, 5 (1), 2010.
[2] E. Tiezzi. Verso una fisica evolutiva. Donzelli, Roma, 2006; Steps Towards an Evolutionary Physics. WIT Press, Southampton, UK, and Boston, USA, 2006.
[3] E. Tiezzi. Tempi Storici, Tempi Biologici: venticinque anni dopo. Donzelli, Roma, 2005; The End of Time. WIT Press, Southampton, UK, and Boston, USA, 2003.
[4] E. Tiezzi. La Bellezza e la Scienza. Cortina, Milano, 1998; Beauty and Science. WIT Press, Southampton, UK, and Boston, USA, 2004.
[5] E. Tiezzi. Fermare il Tempo. Un’interpretazione estetico-scientifica della natura. Raffaello Cortina, Milano, 1996; The Essence of Time. WIT Press, Southampton, UK and Boston, USA, 2003.
[6] E. Tiezzi e N. Marchettini. Che cos’è lo sviluppo sostenibile? Donzelli, Roma, 1999.
[7] F. Pulselli, S. Bastianoni, N. Marchettini, E. Tiezzi. La Soglia della Sostenibilità. Ovvero quello che il Pil non dice. Donzelli, Roma, 2007; The Road to Sustainability. GDP and the Future Generations. WIT Press, Southampton, UK, and Boston, USA.
[8] R. M. Pulselli, E. Tiezzi. Città Fuori dal Caos. La sostenibilità dei sistemi urbani. Donzelli, Roma; City Out of Chaos: Self Organization and Sustainability. WIT Press, Southampton, UK, and Boston, USA.
[9] Les Yeux ouverts. Stock exchange visions. Available at: http://www.stockexchangeofvisions.org/
[10] E. Tiezzi. Lo sguardo sul pianeta. Immagini di biodiversità planetaria tra sostenibilità ambientale e sacralità naturale. Laris ed., Colle Val d’Elsa, Italy, 2010.
[11] E. Tiezzi. Di terra, di aria, di mare. Marcos y Marcos, Milano, 2006.
[12] G. Moro, E. Tiezzi. Canto e controcanto. Marcos y Marcos, Milano, 2009.
[13] E. Tiezzi. Rosaluna. Donzelli, Roma, 2006; Rosaluna. WIT Press, Southampton, UK, and Boston,  USA, 2010.
[14] E. Tiezzi. Isidro Pavòn. Ovvero la storia del canale che mai fu. Donzelli, Roma, 2008.
[15] E. Tiezzi. Asmara. Donzelli, Roma, 2009.
WIT's Memories of Enzo Tiezzi
The Wessex Institute of Technology immensely regrets the death of our friend and colleague Professor Enzo Tiezzi. He was a towering personality in the ecological systems field and through his pioneering work following Prigogine’s ideas. Enzo’s official title was Professor of Chemistry at the University of Siena, but his interests were wider, ranging from poetry to chemistry. He was a true Renaissance man, bringing new ideas and deeper insight to all fields of knowledge. He was able to discover the essence of different phenomena. His contributions to evolutionary processes and ecosystems in particular have been enormous.

WIT will sorely miss him because of his involvement in many of the Institute’s activities. WIT Press is proud of having published scientific books co-authored by Enzo and his researchers as well as a novel, which gives an idea of the breadth of his interests. He was Co-Editor of many WIT Press books and a main Editor of the International Journal of Design & Nature and Ecodynamics, which has recently put together an outstanding issue on the Nature of Water, which Enzo expressed a special wish to see before his departure.

It will take too long to describe the major works of Enzo and his collaboration with WIT. It is important however to point out that he was the prime motivator behind the establishment of the Prigogine Gold Medal Award, instituted by the University of Siena and the Wessex Institute of Technology, following the death of Professor Ilya Prigogine in 2003. This important award has been given every year since 2004 to the best researcher working in the field of ecosystems modelling, particularly those following the work of Prigogine. Enzo received the award in 2005 at the Aula Magna of the University of Cadiz. He was also a Director and Fellow of the Wessex Institute, who awarded him the Eminent Scientist medal in 2003. Enzo received many other awards and recognitions during his career.

Enzo was a man of integrity and died in accordance with his principle. He had what Spanish speakers call a ‘good death’ (una Buena Muerte) which is an idea that conveys not death itself but a sense of closure. He was aware of the terminal nature of his disease but with tremendous courage, decided not to try to prolong it as usual by treatment or surgery. He waited patiently to the end surrounded by a loving family and community.

His life continues in the work of the many researchers that he has guided over his long and prolific career. It also perdures in his books, papers, poems and other works; a legacy that will live for ever after his departure. Finally, and equally important he was for all the members of our community a good friend in which you could always rely in times of need.

Professor Carlos A Brebbia

Director
Wessex Institute of Technology

The Life and Work of Professor Enzo Tiezzi

A special event recently took place in the Theatre of the Rizzi Academy in Siena to celebrate the life and work of Prof Enzo Tiezzi of the University of Siena, an internationally renowned scientist for his achievements in the field of ecological systems.
The event presented an opportunity to review Enzo’s prolific work in areas other than sciences and focused on three of his most important books, ie “City out of Chaos” (published in English by WIT Press, ISBN 978-1-84564-133-7, 2009); “Canto e Contracanto” (a book of poetry); and “Asmara”, a recent novel, the latter two published only in Italian to date.
The 500 seat Theatre was full, reflecting the popularity of Enzo’s work, not only among his scientific colleagues but also within the Siena community.

The event opened with a selection of classical and other pieces of music played by a guitar and flute duo. The standards of the musicians was outstanding and their selection of pieces most appropriate for the beautiful 18th Century Theatre.

The concert was followed by a video showing an interview that Tiezzi gave to the reporter Christopher Slatter, which has been shown all over the world. Enzo pointed out the need for our civilisation to understand the limits to grow and the urgency of returning to nature to find a new type of development based on a better understanding of the laws of nature, particularly relating to the thermodynamics of living systems and the way evolutionary processes work.
The next speaker was the Italian publisher of many of Enzo’s books, including his latest Asmara novel. She expressed her gratitude to Enzo for the number of excellent books her publishing firm has been involved with.
Professor Carlos Brebbia, Director of Wessex Institute of Technology (WIT) and Chairman of its associated academic publisher, WIT Press, spoke next. He said that WIT Press has published the English edition of several of Enzo’s books, including City out of Chaos.
He spoke as follows:
“In the first place, I would like to stress how important Enzo’s work has been in the development of our research. Meeting Enzo for the first time 10 years or so ago at a Conference chaired by Ilya Prigogine opened up new lines of research for us, in addition to being the start of a programme of collaboration that continues to this day.”
“Of the many academic initiatives resulting since then, I would like to mention just one: the launching of a new prize, The Prigogine Gold Medal, awarded by the University of Siena and our Institute to the best scientists in the field of Ecological Systems, with particular reference to those who have developed further the ideas of Prigogine.”
“I could continue referring to many other initiatives, especially in research, resulting from Enzo’s ideas, but it is my intention here to focus on the English versions of some of his most important books published by our academic press.”
“We started by producing the English version of his book “The End of Time” (ISBN 978-1-85312-931-5, 2002) which focuses on the coupling of historical, philosophical and scientific aspects of the struggle towards a new ecological culture”.
“That book was followed by “The Essence of Time” (ISBN 978-1-85312-949-0, 2002) where the bases was set up of an evolutionary physics; a concept that he further developed in his other book “Steps Towards an Evolutionary Physics” (ISBN 978-1-84564-035-4, 2006). The importance of this book is that it gave a new coherence to the dynamics of life on earth. It is a seminal work based on Prigogine’s Ecodynamics Theory proposing cross fertilisation between his ideas and those of Charles Darwin.”
“A further book published by our WIT Press and entitled “Beauty and Science” explains that the aim of science should be to live in harmony with nature.”
“Enzo has edited many books, some of them published by us. I cannot refer to all of them in this brief talk, but I would like to mention “The Road to Sustainability” (ISBN 978-1-84564-140-5, 2008) because of the importance of its contents. This is an interdisciplinary book with different authors investigating the physical conditions for sustainability and pointing out the limits that humans can no longer ignore.”
“More recently, we published a volume that is becoming a best seller, ie “City out of Chaos” (ISBN 978-1-84564-133-7, 2009). It is based on thermodynamics concepts, non-equilibrium organisation theory and evolutionary physics; concepts all applied to study the contemporary city.”
“Finally, I would like to mention the latest of Enzo’s publications in English, the charming story of Rosaluna (ISBN 978-1-84564-399-7, 2009). Built upon his previous book “Beauty and Science” (ISBN 978-1-85312-740-3, 2004), it takes those contents to a higher level, producing a scientific allegory with elements of evolutionary physics. Its added merit is that it introduces the general public to current scientific ideas in a beautifully written manner.”
“I trust that this brief summary of Enzo’s book in English helps to convey the depth of his knowledge, the breadth of his interests and the originality of his thoughts.”

“Enzo is a truly Renaissance man and a worthy disciple of Prigogine. His curiosity – the trademark of good scientists – leads him to broaden the scope of his research in an effort to seek the links and interaction of different agents; finding patters and laws in the midst of apparent random chaos.”
“WIT and WIT Press are proud to be associated with Enzo and hope that our links will continue to develop for many years to come.”
“Thank you Enzo for the confidence you have deposited in us!”
At the end of his talk, Carlos gave Enzo an antique map of Tuscany printed in Leiden in 1714, as a token of his personal esteem and in gratitude for his friendship. Carlos hoped that the present would remind Enzo of his happy occasion.
Enzo then spoke briefly, referring to his work and in particular to the books to be described at this event.
Emilio del Giudice (Prigogine Medal winner, 2009) discussed the importance of the book “City out of Chaos”, in which thermodynamics concepts are applied to study the way in which cities grow and in particular how they can be applied to determine sustainability. He explained that the work describes how a sort of rapport within an essentially chaotic system can be established. Cities can be loved or hated by their inhabitants; some remaining alive while others die out. In order to remain alive, a city needs a flow of energy and a degree of interaction with its surroundings. These actions can be interpreted in thermodynamic terms and interaction with the complexities of nature. Understanding those principles can lead to substantial savings in the amount of energy required to run our modern cities for instance.
The book – Emilio said – is also an important example of cooperation between a younger scientist (Riccardo Pulselli) and his older mentor (Enzo) and hence a bridge between different generations. Collaboration is the essence of the book, dedicated to the laws of cooperation that ought to shape future cities.

Next, the Oscar winning actor Giuseppe Cederna read poems from “Canto e Contracanto”. The Canto represents the optimism of Enzo, while the Contracanto refers to the melancholic outlook of his co-author Giorgio Moro. The excellent performance by Giuseppe deeply moved the audience. (Giuseppe Cederna is well known through his acting in the films “Marakesh Express”, “Scola’s Family” and “Mediterraneo”, the film for which he received his Oscar.)
Finally, the new novel Asmara was introduced. The name refers to the capital of Eritrea, a country famous for its art-décor architecture as well as being the name of the heroine. The book was written by Enzo and another Sienese, Aldo Bolonini.
The evening concluded in this manner, followed by a cocktail reception; ending a most enjoyable evening in the beautiful city of Siena.
Note: For more news about other associated events, see the Press Releases of the Prigogine Awards:

The Prigogine Award 2014

The conference was opened by the University Authorities in their Aula Magna, with a special ceremony to award the 2014 Prigogine Gold Medal.
The Academic procession comprising members of the University and some of the senior members of the International Scientific Advisory Committee entered the Aula Magna, followed by the Vice Rector, Professor Francesco Frati and the Director of the Wessex Institute of Technology, Professor Carlos A Brebbia.
Prof. Brebbia & Prof. Ho
Professor Frati declared the proceedings open and described the importance of the event, welcoming the delegates in the name of the University of Siena. The Prigogine Medal was established by the University and the Wessex Institute of Technology to honour the memory of Professor Ilya Prigogine, Nobel Prize Winner of Chemistry.  He was a mentor of the work carried out in the Ecodynamics Group and Honorary Co-Chair of the Conference on Ecological Systems and Sustainable Development, organised by both institutions.
Prof Brebbia then referred to the importance of Prof Prigogine’s work.  Born in Moscow in 1917, Ilya Prigogine obtained his undergraduate and graduate education in Chemistry at the Free University of Brussels.  He was awarded the Nobel Prize for his contribution to non-equilibrium thermodynamics, particularly the theory of dissipative structures.  The main theme of his scientific work was the role of time in the physical sciences and biology.  Prigogine contributed significantly to the understanding of irreversible processes, particularly in systems far from equilibrium.  The results of his work have had profound consequences for understanding biological and ecological systems.

Prigogine’s idea established the basis for ecological systems research.  The Prigogine Medal – Carlos said – to honour his memory, is awarded annually to a leading scientist in the field of ecological systems.  All recipients have been deeply influenced by the work of Prigogine.
Previous Prigogine Laureates were:
  • 2004       Sven Jorgenson, Denmark
  • 2005       Enzo Tiezzi, Italy
  • 2006       Bernard Patten, USA
  • 2007       Robert Ulanowicz, USA
  • 2008       Ioannis Antoniou, Greece
  • 2009       Emilio Del Giudice, Italy
  • 2010       Felix Müller, Germany
  • 2011       Larissa Brizhik, Ukraine
  • 2012       Gerald Pollack, USA
  • 2013       Vladimir Voeikov, Russia
Prof. Ho receiving the medal
Prof Simone Bastianoni, from the Ecodynamics Group at the University of Siena, commented on the personality of the late Enzo Tiezzi (Prigogine 2005).  He expressed how difficult it was to accept that Enzo was no longer with us, so strong was his influence for the Science Group.
Enzo was a renaissance man, building bridges across different disciplines, his work continuously evolving, from chemical processes to biology, ecosystems and many human endeavours.
Enzo did not believe in the idea of becoming overspecialised in a very minor narrow field.  He thought that it was always important to understand the whole, to see the forest, rather than focus all our energies in researching only one particular tree.

The 2014 Medal has been awarded to Prof Mae-Wan Ho, founding Director of The Institute of Science in Society.
Prof Brebbia explained that the Dr Ho’s work provides information about biotechnological issues as well as sustainability, climate change and, in particular, the nature of water.
Prof Ho received a PhD in Biochemistry from Hong Kong University.  She was a Post-Doctoral Fellow in Biochemical Genetics at the University of California, San Diego; Senior Research Fellow at Queen Elizabeth College; Lecturer in Genetics and Reader in Biology at the Open University, UK.
Prof Ho is the author of several books and Editor of Science in Society, produced by her Institute.  She is a prolific author.  Two of her books are prominent in explaining the role of biological water in organising living processes.  She has been extremely productive with nearly 200 scientific papers, over 600 popular articles and several more books.
Moreover, she has written a book showing the lack of sustainability of genetically modified organisms.  She has also contributed significantly to the thermodynamics of complex systems, and has discussed extensively the Prigogine ideas.  A recent article of hers discusses what should be a reliable thermodynamics of living organisms, developing a Prigogine’s approach.
Following the introduction, Prof Ho was given the Medal by Prof Nadia Marchettini, widow of the late Enzo Tiezzi (Prigogine Medal 2005).
Buffet lunch after the medal ceremony
Upon receipt of the award, Prof Ho started her Special Prigogine Lecture on ‘Sustainable Cities: A New Perspective’.  She demonstrated that the circular thermodynamics based on dynamic closeness in natural space-time dimensions enable organisms to approach zero entropy production simultaneously at equilibrium and far from equilibrium conditions.  It confirms and extends Ilya Prigogine’s Principle of Minimum Entropy Production for living systems and has implications for sustainable cities and other built environments, as well as ecosystems and economic systems.

Dr Ho referred to the importance of fractals and their role in providing optimum energy consumption configurations.
This led to a discussion of why large systems are inefficient and the advantages of arranging for local energy generation and storage facilities using renewable resources, minimising emissions and CO2 generation.  This can be done by recycling the waste, and redefining urban spaces at human scale.  The modern trend is towards a more compact city, creating new spaces.