Education for Sustainability: Lessons from Living Systems Governance

References

[1] Almaas E. Biological impacts and context of network theory. The Journal of Experimental Biology, 2007, 210: 1548–1558.10.1242/jeb.003731Suche in Google Scholar PubMed

[2] Bricage P. La survie des organismes vivants. AFSCET Systemique & Biologie, Fac. Medecine, Paris, France, 2000, 44. CC-License http://www.afscet.asso.fr/SURVIVRE.pdf.Suche in Google Scholar

[3] Bricage P. La nature de la violence dans la nature : déterminismes écologique, physiologique et génétique de l’adaptation aux changements aux différents niveaux d’organisation des systèmes végétaux. In La Violence. AFSCET, Andé, France, 2000, 7. CC-License http://www.afscet.asso.fr/pbviolW98.pdf.Suche in Google Scholar

[4] Bricage P. Systemes biologiques: le jeu de la croissance et de la survie. Quelles regles? Quelles decisions? Quels bilans? La Decision Systemique. AFSCET, I.I.A.P., Paris, France, 2000, 6. CC-License http://www.afscet.asso.fr/JdVie1.pdf.Suche in Google Scholar

[5] Eisler Z, Bartos I, Kertesz J. Fluctuation scaling in complex systems: Taylor’s law and beyond. Adv. Physics, 2008, 57: 89–142.10.1080/00018730801893043Suche in Google Scholar

[6] Kaltz O, Escobar-Paramo P, Hochberg M E, et al. Bacterial microcosms obey Taylor’s law: Effects of abiotic and biotic stress and genetics on mean and variance of population density. Ecological Processes, 2012, 1(5): 1–6.10.1186/2192-1709-1-5Suche in Google Scholar

[7] Bricage P. L’évolution créatrice: métamorphoses et phylotagmotaphologie du vivant. Teilhard: Lire L’Évolution. Centre de Sèvres, Paris, France, 2009, 109. CC-License, http://hal.archives-ouvertes.fr/hal-00423730/fr.Suche in Google Scholar

[8] Straatsma G, Egli S. Stretched exponential as one of the alternatives for the power law to fit ranked species abundance data. Matters, 2017, 2: 1–6.10.19185/matters.201612000009Suche in Google Scholar

[9] Bricage P. La nature de la decision dans la nature? Systemes biologiques: Production, consommation, croissance et survie. La Decision Systemique. Colloque AFSCET, Ande, France, 2001, 16. CC-License http://www.afscet.asso.fr/Decision.pdf.Suche in Google Scholar

[10] Miller J H, Page S E. Complex adaptive systems: An introduction to computational models of social life. Princeton Studies in Complexity, PUP, Princeton, USA, 288, 2007.Suche in Google Scholar

[11] Bricage P. Pour survivre et se survivre, la vie est d’abord un flux, ergodique, fractal et contingent, vers des macro-etats organises de micro-etats, a la suite de brisures de symetrie. Atelier AFSCET Systemique & Biologie, Institut International d’Administration Publique, Paris, France, 2001, 11. CC-License http://www.afscet.asso.fr/ergodiqW.pdf.Suche in Google Scholar

[12] Miller J H. A crude look at the whole: The science of complex systems in business, life, and society. Basic Books, New York, 272, 2016.Suche in Google Scholar

[13] Bricage P. Mobilisation de la matière et de l’énergie, et croissance, aux différents niveaux d’organisation des systèmes vivants. Thermodynamique du Changement. AFSCET, Andé, France, 2013, 63. https://hal.archives-ouvertes.fr/hal-00830425.Suche in Google Scholar

[14] Bricage P. Pigmentation and soluble peroxidase isozyme patterns of leaves of Pedilanthus tithymaloides L. variegatus as a result of daily temperature differences. Plant Physiology, 1982, 69: 668–671.10.1104/pp.69.3.668Suche in Google Scholar PubMed PubMed Central

[15] Bricage P. Isoperoxidases, markers of surrounding and physiological changes, in situ in leaves and in vitro in calli of Pedilanthus tithymaloides L. variegatus. In Molecular and Physiological Aspects of Plant Peroxidases, Greppin H, et al., eds. Geneva, Switzerland, 1986, 261–265.Suche in Google Scholar

[16] Bricage P. Chronobiology of the multiple molecular steps and pathways of in situ anthocyanin biosynthesis of Lathyrus macrorhizus Wimm leaves. Bulletin G E R B, 1985, 17: 16–17.Suche in Google Scholar

[17] Bricage P. Les Caracteristiques des Organismes Vivants. APIDS, Fac. Sci. UPPA, Pau, France, 1991, 44 CC-License.Suche in Google Scholar

[18] Bricage P. Héritage génétique, héritage épigénétique et héritage environnemental: de la bactérie à l’homme, le transformisme, une systémique du vivant In Évolution du Vivant et du Social. Colloque AFSCET, Andé, France, 2002, 20. CC-License, http://www.afscet.asso.fr/heritage.pdf.Suche in Google Scholar

[19] Bricage P. The evolutionary shuttle of the living systems. In UES-EUS Congress, Hersonissos, Creta, Greece, Res-Systemica, 2002, 2: 1–6. CC-License, http://www.afscet.asso.fr/resSystemica/Crete02/Bricage.pdf.Suche in Google Scholar

[20] Bricage P. Win-win not a solution. What next? In Avant Garde. Blachfellner S, Werner T M, eds. BCSSS, Vienna, Austria, 2016, 21–24.Suche in Google Scholar

[21] Bricage P. Associations for the Reciprocal and Mutual Sharing of Advantages and DisAdvantages ARMSADA. The way, to be resilient and self-sustainable, the living systems are running through. In Go- vernance for a Resilient Planet, ISSS International Congress, Waterloo, Canada, 2010, 12. CC-License http://journals.isss.org/index.php/proceedings54th/article/view/1491.Suche in Google Scholar

[22] Bricage P. Organisation, intégration et espace-temps des systèmes vivants In Intégration du Vivant et du Social: Analogies et Différences, Colloque AFSCET, Andé, France, 31 p., 2003, CC-License, http://www.afscet.asso.fr/pbAnde03.pdf.Suche in Google Scholar

[23] Bricage P. La survie des systèmes vivants. In Prendre Soin de l’Homme, MCX20, CHG Pau, Pau, France, 1998, 2, CC-License, http://web.univ-pau.fr/∼bricage/VivantPauMCX20.pdf.Suche in Google Scholar

[24] Bricage P. A new evolutionary paradigm: the Associations for the Mutual Sharing of Advantages and of Disadvantages. In The Creation of a Sustainable Society Depends on Innovative Systems Thinking. 100th Anniversary of Karl Ludwig von Bertalanffy’s International Conference on Systems Thinking ‘Unity through Diversity’, Vienna, Austria, 2001, 1.Suche in Google Scholar

[25] Margulis L. Symbiosis in Cell Evolution. Freeman W H & Co Ltd, Macmillan Publishers, London, UK, 1981, 419.Suche in Google Scholar

[26] Bricage P. La semi-autonomie du vivant: Pour que l’un survive, il faut d’abord que l’autre survive, et réciproquement. In Crises et Réponses Systémiques, UES-EUS Congress, Bruxelles, Belgique, Acta Europeana Systemica, 2011, 1(2b): 1–28. CC-License, http://www.armsada.eu/files/pbARMSADA.pdf.Suche in Google Scholar

[27] Hom E F Y, Murray A W. Niche engineering demonstrates a latent capacity for fungal-algal mutualism. Science, 2014, 345(6192): 94–98.10.1126/science.1253320Suche in Google Scholar PubMed PubMed Central

[28] Chen B, Akusobi C, Fang X, et al. Environmental T4-family bacteriophages evolve to escape abortive infection via multiple routes in a bacterial host employing altruistic suicide through type III toxin-antitoxin systems. Frontiers in Microbiology, 2017, 8(1006): 1–11.10.3389/fmicb.2017.01006Suche in Google Scholar PubMed PubMed Central

[29] Erez Z, Steinberger-Levy I, Shamir M, et al. Communication between viruses guides lysis-lysogeny decisions. Nature, 2017, 541: 488–493.10.1038/nature21049Suche in Google Scholar PubMed PubMed Central

[30] Bricage P. Cancer is a breaking of the cell’s ARMSADA through an aggression that results in a lack of non-autonomy. UES-EUS Congress APOCOSIS, Lisboa, Portugal, Res-Systemica, 2008, 6: 1–8, CC-License.Suche in Google Scholar

[31] Bonfante P, Genre A. Mechanism underlying beneficial plant–fungus interactions in mycorrhizal symbiosis. Nature Communications, 2010, 1(48): 1–11.10.1038/ncomms1046Suche in Google Scholar PubMed

[32] Bricage P. The cell originated through successive outbreaks of networking and homing into Associations for the Reciprocal and Mutual Sharing of Advantages and of Disadvantages, between the partners, with a benefit only for their wholeness. UES-EUS Congress, Paris, France, Res-Systemica, 2005, 5: 1–11 CC-License.Suche in Google Scholar

[33] Bricage P. Les systèmes agoantagonistes: l’origine endosyncénotique de la cellule. In La Gouvernance dans les Systèmes. AFSCET, Polimetrica, Milan, Italy, 2007, 67–72, CC-License, http://www.afscet.asso.fr/resSystemica/Paris05/bricage.pdf.Suche in Google Scholar

[34] Bricage P, Duverger-Nedellec A, Larroche D. Appraisement of the defoliator Lepidoptera associations in a hardwood forest. Acta Entomologica Vasconae, 1990(1): 5–26.Suche in Google Scholar

[35] Bricage P. Thinking and teaching systemics: Bio-systemics in higher education. Proceedings IASCYS General Assembly. Eds. by Gu J, Xu J. Sichuan University, Chengdu, China, 2010: 1–14.Suche in Google Scholar

[36] Bricage P. Approche systémique de l’évolution du vivant. Teilhard Aujourd’hui, 2010, 33: 31–39, CC-License, http://hal.archives-ouvertes.fr/docs/00/42/37/30/PDF/phylotagmotaphologie.pdf.Suche in Google Scholar

[37] Bricage P. Evaluation des interactions entre les densite et diversite des chenilles de lepidopteres et les diversite et degre de defoliation des feuillus d’un bois. Acta Entomologica Vasconae, 1991, 2: 5–21.Suche in Google Scholar

[38] Bricage P. Le langage du vivant: plurilinguisme, transfrontaliérité et associativité. Congrès national ANLEA, UPPA, Pau, 9 p., 2005, CC-License, http://bricage.perso.unvi-pau.fr/VivantModularite.pdf.Suche in Google Scholar

[39] Bricage P. The metamorphoses of the living systems: The associations for the reciprocal and mutual sharing of advantages and of disadvantages. 6th European Systems Science Congress, BioSystemics, Res-Systemica, 2005, 5(4): 1–10 CC-License.Suche in Google Scholar

[40] Bricage P. Living and banking systems comparison. Prisoners’ dilemma “win-win” is not the solution. Advances in Systems Science and Applications, 2015, 15(2): 150–165.Suche in Google Scholar

[41] Bricage P. About man Interventions in the living networks: modelling with a qualitative animated semiological holistic point of view, a systemic approach, an holistic way of education. UES-EUS, Bruxelles, Belgique, IASCYS Workshop, Acta Europeana Systemica, 2011, 1(3u): 1–25, CC-License, http://aes.ueseus.eu/aes2011/iascysWS_Bricage_text.pdf.Suche in Google Scholar

[42] Bricage P. An approach of organizations and management: systemic ethics, democracy and sustainability. ARMSADA, International Journal of Public and Private Management, 2014, 1(1): 90–113.Suche in Google Scholar

[43] Bricage P. Local versus global and individual versus whole competition between and within living systems. ARMSADA Emergence and Breaking, Acta Europeana Systemica, 2014, 4(2): 1–15.Suche in Google Scholar

[44] Madsen L H, et al. The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus. Nature Communications, 2010, 1(10): 1–12.10.1038/ncomms1009Suche in Google Scholar PubMed PubMed Central

[45] Bricage P. L’organisation spatiotemporelle des systemes vivants. Temps et Systemes, AFSCET, Ande, France, 2015, 25, CC-License, http://www.afscet.asso.fr/Ande15/pbTimesAnde2015.pdf.Suche in Google Scholar

[46] Bricage P. Living networks of networks: The societal and environmental responsibility of humanity in the fight between humans and the wild. Social Responsibility Beyond Neoliberalism and Charity. Eds. by Dyck R G, Mulej M. Bentham Science, New York, USA, 2014, 3: 257–277.10.2174/9781608059068114030016Suche in Google Scholar

[47] Barabási A L, Bonabeau É. Les réseaux invariants d’échelle. Pour La Science, 2003, 314: 58–63.Suche in Google Scholar

[48] Bricage P. Agoantagonisme, rétrocession et émergence: Organisation des systèmes vivants, éducation à la systémique, santé et sociétalité. AFSCET-AEIS, CNAM, Paris, Res-Systemica, 2014, 10(11): 1–19 CC-License.Suche in Google Scholar

[49] Bricage P. Modelling space-time-action modularity and evolution of living systems. Advances in Complex Societal, Environmental and Engineered Systems. Eds. by Nemiche M, Essaaidi M. Springer, Berlin, Germany, 2017, 269–297.10.1007/978-3-319-46164-9_13Suche in Google Scholar

[50] Lee A H, Werning S. Sexual maturity in growing dinosaurs does not fit reptilian growth models. PNAS, 2008, 105: 582–587.10.1073/pnas.0708903105Suche in Google Scholar PubMed PubMed Central

[51] Bricage P. Lathyrus macrorhizus: Influence des facteurs stationnels sur la floraison in situ. Canadian Journal of Botany, 1984, 62: 241–245.10.1139/b84-039Suche in Google Scholar

[52] Bricage P. Loi puissance d’invariance spatiotemporelle des systems vivants. Revista Internacional de Sistemas, 2014, 19: 5–33.Suche in Google Scholar

[53] Hulbert A J, Pamplona R, Buffenstein R, et al. Life and death: metabolic rate, membrane composition, and life span of animals. Physiol. Rev., 2007, 87: 1175–1213.10.1152/physrev.00047.2006Suche in Google Scholar PubMed

[54] Marquet P A, Quinones R A, Abades S, et al. Scaling and power-laws in ecological systems. The Journal of Experimental Biology, 2005, 208: 1749–1769.10.1242/jeb.01588Suche in Google Scholar PubMed

[55] Kant S, Kumar V. Dynamics of a prey-predator system with infection in prey. Electronic Journal of Differential Equations, 2017, 209: 1–27.Suche in Google Scholar

[56] Bricage P. Man next challenge for survival. Las Asociaciones con Ventajas e Inconvenientes Reciprocos y Partidos. Eds. by Los Valores del Quijote, Gimenez Chornet V, Colomer Viadel A. Universitat Politècnica de València, 2017, 263–273.Suche in Google Scholar

[57] Tzur A, Kafri R, LeBleu V S, et al. Cell growth and size homeostasis in proliferating animal cells. Science, 2009, 325: 167–171.10.1126/science.1174294Suche in Google Scholar PubMed PubMed Central

[58] Lloyd D, Legendre S, Harremöes P. Evolutionary entropy: A predictor of body size, metabolic rate and maximal life span. Bulletin of Mathematical Biology, 2009, 71: 800–818.10.1007/s11538-008-9382-6Suche in Google Scholar PubMed PubMed Central

[59] Dodds P, Rothman D H, Weitz J S. Re-examination of the 3/4-law of metabolism. J. Theor. Biol., 2010, 209: 9–27.10.1006/jtbi.2000.2238Suche in Google Scholar PubMed

[60] Nasir A, Kim K M, Caetano-Anolles G. Phylogenetic tracings of proteome size support the gradual accretion of protein structural domains and the early origin of viruses from primordial cells. Frontiers in Microbiology, 2017, 8(1178): 1–18.10.3389/fmicb.2017.01178Suche in Google Scholar PubMed PubMed Central

[61] Kahane J P. Le mouvement brownien et son histoire, réponses à quelques questions. Images des Mathématiques, CNRS, oct. 2006, http://images.math.cnrs.fr/Le-mouvement-brownien-et-son.html.Suche in Google Scholar

[62] Di Rienzo C, Piazza V, Gratton E, et al. Probing short-rang protein Brownian motion in the cytoplasm of living cells. Nature Communications, 2014, 5(5891): 1–8.10.1038/ncomms6891Suche in Google Scholar PubMed PubMed Central

[63] Dunbar S R. The definition of Brownian motion and the Wiener process. Stochastic Processes and Advanced Mathematical Finance. Lincoln, Nebraska, USA, 2014, 17, http://www.math.unl.edu.Suche in Google Scholar

[64] Perrin F. Étude mathématique du mouvement Brownien de rotation. Ann Sci Ec Normale Super, #3, 1928(45): 1–51.10.24033/asens.782Suche in Google Scholar

[65] Schilling R L, Partzsch L. Brownian Motion. An Introduction to Stochastic Processes. De Gruyter Textbook, Berlin, Germany, 2014, 408.10.1515/9783110307306Suche in Google Scholar

[66] Robredo J F. Le big bang, une idée tombée du ciel. La Recherche, 2018, HS24: 40–43.Suche in Google Scholar

[67] Clauset A, Shalizi C R, Newman M E. Power-law distributions in empirical data. SIAM Review, 2009, 51(4): 661–703.10.1137/070710111Suche in Google Scholar

[68] Pareto V. Un applicazione di teorie sociologiche. Rivista Italiana di sociologia, 1971, 1901: 402–456.Suche in Google Scholar

[69] Almaas E, Barabási A L. Power laws in biological networks. Power Laws, Scale-Free Networks and Genome Biology, Eds. by Koonin E V, Wolf Y I, Karev G P, Springer, Korea, 2006, 1–11.10.1007/0-387-33916-7_1Suche in Google Scholar

[70] Dan Y, Moriya T. Analysis and simulation of power law distribution of file types in file sharing systems. The Third International Conference on Advances in System Simulation, SIMUL, 2011, 108–113.Suche in Google Scholar

[71] Reed W J, Hughes B D. From gene families and genera to incomes and internet file sizes: Why power laws are so common in nature. Physical Review, 2002, 66(6): 67–103.10.1103/PhysRevE.66.067103Suche in Google Scholar PubMed

[72] Auerbach F. Das Gesetz der Bevölkerungskonzentration. Petermanns Geographische Mitteilungen, 1913, 59: 74–76.Suche in Google Scholar

[73] Mandelbrot B. Les objets fractals: Forme, hasard et dimension. Flammarion, Paris, 2010, 212.Suche in Google Scholar

[74] Zipf G K. Human behaviour and the principle of least effort. The Economic Journal, 1950, 60(240): 808–810.10.2307/2226729Suche in Google Scholar

[75] Zipf G K. Human Behavior and the Principle of Least Effort: An Introduction to Human Ecology. Martino Fine Books, New York, 2012, 588.Suche in Google Scholar

[76] Margulis L. The Symbiotic Planet: A New Look at Evolution. Phoenix Press Internat., Washington D.C., USA, 2001, 176.Suche in Google Scholar

[77] Van Mersbergen A M. Rhetorical prototypes in architecture: Measuring the Acropolis with a philosophical polemic. Communication Quarterly, 1998, 46(2): 194–213.10.1080/01463379809370095Suche in Google Scholar

[78] Padovan R. Proportion: Science, philosophy, architecture. Nexus Network Journal, 2002, 4(1): 113–122.10.1007/s00004-001-0008-7Suche in Google Scholar

[79] Markowsky G. Misconceptions about the golden ratio. College Mathematics Journal. Mathematical Association of America, 1992, 23(1): 2–19.10.1080/07468342.1992.11973428Suche in Google Scholar

[80] Perez J C. Codon populations in single-stranded whole human genome DNA are fractal and fine-tuned by the golden ratio 1.618. Interdisciplinary Sciences: Computational Life Science, 2010, 2(3): 228–240.10.1007/s12539-010-0022-0Suche in Google Scholar PubMed

[81] Newman M E J. Power laws, Pareto distributions and Zipf’s law. Contemporary Physics, 2005, 46: 323–351.10.1080/00107510500052444Suche in Google Scholar

[82] Snooks G D. A general theory of complex living systems: Exploring the demand side of dynamics. Complexity, 2008, 13(6): 12–20.10.1002/cplx.20225Suche in Google Scholar

[83] Bricage P. Time management by living systems: Time modularity, rhythms and conics running calendars. Methodology, theory and applications. System Research & Behavioral Science, 2013, 30(6): 677–692.10.1002/sres.2237Suche in Google Scholar

[84] Naryzhny S, Maynskova M, Zgoda V, et al. Zipf’s law in proteomics. J Proteomics Bioinform, 2017, 10(3): 79–84.10.4172/jpb.1000427Suche in Google Scholar

[85] Martin F M, Uroz S, Barker D G. Ancestral alliances: Plant mutualistic symbioses with fungi and bacteria. Science, 2017, 356(6340): 1–9.10.1126/science.aad4501Suche in Google Scholar PubMed

[86] Germain M. Une thérapie génique contre la drépanocytose. La Recherche, 2018, 531: 76–77.Suche in Google Scholar

[87] Bricage P. Les communautés en Vic-Bilh: associations matrimoniales et patrimoine associatif. Journées Européennes du Patrimoine. Centenaire des Associations Loi 1901, Bull. Association ALBA, 2001, 17: 1–4.Suche in Google Scholar

[88] Bricage P. Sémiologique graphique de l’espace-temps-action du vivant: bilan épistémologique et praxéologique de sa modélisation systémique, co-déterminisme global, prédictibilité locale et imprédicativité glocale. In Vers Une Nouvelle Systémique ? AFSCET, Andé, France, 2010, 34 CC-License, http://www.afscet.asso.fr/Ande10/pbETAvivant10.pdf.Suche in Google Scholar

[89] Bricage P. Un aspect de la flore et de la faune de la côte sableuse et rocheuse des mamelles. Quelques aspects des rapports entre les êtres vivants et leur milieu de vie: Exemples d’actions des facteurs du milieu sur les êtres vivants. Bulletin A.A.S.N.S., 1976, 55: 17–41.Suche in Google Scholar

[90] Thuan T X. Le Chaos et l’Harmonie: La Fabrication du Réel. Gallimard, Paris, France, 2000, 603.Suche in Google Scholar

[91] Bricage P. Guide Enseignement de la Biologie. Écoles Africaines. UNESCO, Paris, France, Author 206925, 1981, 120.Suche in Google Scholar

[92] Bricage P. La démarche scientifique expérimentale: un langage systémique. Mise en évidence d’une phase critique d’apprentissage. Systémique et Langage, Colloque international AFSCET, Andé, France, 30 p., 2008, CC-License, http://www.afscet.asso.fr/Ande08/pbAnde08ExpSci.pdf.Suche in Google Scholar

[93] Bricage P. Engineering health and social sciences curriculum: governance of the pedagogy, pedagogy of the governance. Social Responsibility: Holistic Education for Holistic Behaviour, IRDO, Maribor, Slovenia, 2011, 9, CC-License, http://tinyurl.com/HSSengineering.Suche in Google Scholar

[94] Collective Council E.U. Recommendation On Key Competences For Lifelong Learning. European Commission, Brussels, Belgium, 2018, 18.Suche in Google Scholar

[95] Bricage P. The international academy for systems and cybernetic sciences, revista internacional de sistemas, 2014, 19: 01–04, https://www.uv.es/sesgejd/RIS/19/1.Bricage.IASCYS.pdf.Suche in Google Scholar

[96] Lawrence R J. Interdisciplinary science: A coming of age? New-York Academy of Sciences Magazine, 2016, 18.Suche in Google Scholar

[97] Bricage P. Use of chronolithotherapy for better individual healthcare and welfare. J. Syst. Sci. Syst. Eng., 2017, 26: 336–358.10.1007/s11518-017-5336-6Suche in Google Scholar

[98] Jeong H, Tombor B, Albert R, et al. Organisms from all domains of life are scale-free networks. Nature, 2000, 407: 651.10.1038/35036627Suche in Google Scholar PubMed

[99] Bricage P. Danger des representations non-systemiques et pouvoir de prediction des representations systemiques en Sciences de la Vie. Approche Systemique. Journees AFSCET, Ande, France, 2006, 39, http://www.afscet.asso.fr/pbAnde06txt.pdf.Suche in Google Scholar

[100] Bricage P. The modelling of the time modularity of the living systems: The time delay, time duration, time lag and the rhythms. UES Congress, Paris, France, Res-Systemica, 2005, 5: 1–11. http://www.afscet.asso.fr/resSystemica/Paris05/bricage2.pdf.Suche in Google Scholar