BioSystems, 26 (1992) 25-9 26 0 Elsevier Scientific Publishers Ireland Ltd. Subject Index Volume 26 adaptability, biological information processing, distributed critical state, life game, cellular automata, self-organization, control, distributed information processing, hierarchical evolution, 135 systems, implicit control, 139 amplification, bistability, irreversible transitions, metabolic Delaware Bay plankton community, community modeling, regulation, 159 population roles, loop analyis, stability patterns, trophic ATP hydrolysis, flagellum, the Third Law of Mechanics, 223 structure, 75 dinoflagellate, ribosomal gene, in situ detection, non- bifurcatin analysis, epigenetic system, negative cross- radioactive probe, electron microscopy cryosections, 61 diffusion, dissipative structure, Liapunov stability, 211 discrete-time systems, periodic diseases, epidemic models, biological classification, power law distribution of size of oscillations, 193 taxa, fractals, 89 dissipative structure, epigenetic system, negative cross- biological information processing, adaptability, distributed diffusion, bifurcatin analysis, Liapunov stability, 211 control, distributed information processing, hierarchical distributed control, adaptability, biological information pro- systems, implicit control, 139 cessing, distributed information processing, hierarchical biological systems, state space approach, modeling, dynamic systems, implicit control, 139 simulation, 31 distributed information processing, adaptability, biological biomass, information processing, neuromass, stream information processing, distributed control, hierarchical ecosystem, 155 systems, implicit control, 139 bistability, amplification, irreversible transitions, metabolic dynamic simulation, biological systems, state space ap- regulation, 159 proach, modeling, 31 Brownian algebra, oscillator function, recognition, 99 early evolution, replicator equation, mutation, 1 cellular automata, life game, self-organization, critical state, electron microscopy cryosections, ribosomal gene, in situ evolution, 135 detection, non-radioactive probe, dinoflagellate, 61 cellular automata, non-linear dynamics, chaos, stem-cells, endemic states, Chagas’ disease, mathematical model, 127 colony forming units, 231 epidemic models, periodic diseases, discrete-time systems, cellular kinetics, mathematical modeling, T-lymphocytes, oscillations, 193 human immunodeficiency virus, 177 epigenetic system, negative cross-diffusion, dissipative Chagas’ disease, mathematical model, endemic states, 127 structure, bifurcatin analysis, Liapunov stability, 211 chaos, cellular automata, non-linear dynamics, stem-cells, evolution, life game, cellular automata, self-organization, colony forming units, 231 critical state, 135 ciliate evolution, phylogeny, ciliate kinetome, ultrastruc- ture, morphogenesis, 239 ciliate kinetome, phylogeny, ciliate evolution, ultrastruc- feedback, stability, loop analysis, simulation, network, Lotka-Volterra systems, 21 ture, morphogenesis, 239 colony forming units, cellular automata, non-linear fertility, correlated fluctuations, heredity, non-Markovian stochastic branching process, 185 dynamics, chaos, stem-cells, 231 community modeling, population roles, loop analyis, stabili- fetus, oxygenation, placental metabolism, mathematical model, 45 ty patterns, trophic structure, Delaware Bay plankton flagellum, ATP hydrolysis, the Third Law of Mechanics, 223 community, 75 fractals, biological classification, power law distribution of computer ecosystems, computer evolution model, symbiosis, size of taxa, 89 parasitism, 199 computer evolution model, computer ecosystems, symbiosis, parasitism, 199 heredity, correlated fluctuations, fertility, non-Markovian correlated fluctuations, fertility, heredity, non-Markovian stochastic branching process, 185 stochastic branching process, 185 hierarchical systems, adaptability, biological information cortisol secretion system, modelling fluctuation phenomena, processing, distributed control, distributed information 117 processing, implicit control, 139 260 human immunodeficiency virus, mathematical modeling, oscillations, periodic diseases, epidemic models, discrete- cellular kinetics, T-lymphocytes, 177 time systems, 193 oscillator function, Brownian algebra, recognition, 99 implicit control, adaptability, biological information process- oxygen delivery to tissue, mathematical model, oxygen ing, distributed control, distributed information process- dissociation curve, kinetics of O02 with haemoglobin, 171 ing, hierarchical systems, 139 oxygen dissociation curve, mathematical model, oxygen in situ detection, ribosomal gene, non-radioactive probe, delivery to tissue, kinetics of O. with haemoglobin, 171 electron microscopy cryosections, dinoflagellate, 61 oxygenation, fetus, placental metabolism, mathematical information processing, biomass, neuromass, stream model, 45 ecosystem, 155 irreversible transitions, amplification, bistability, metabolic parasitism, computer evolution model, computer regulation, 159 ecosystems, symbiosis, 199 periodic diseases, epidemic models, discrete-time systems, kinetics of O2 with haemoglobin, mathematical model, oxy- oscillations, 193 gen dissociation curve, oxygen delivery to tissue, 171 phylogeny, ciliate evolution, ciliate kinetome, ultrastruc- ture, morphogenesis, 239 Liapunov stability, epigenetic system, negative cross- placental metabolism, fetus, oxygenation, mathematical diffusion, dissipative structure, bifurcatin analysis, 211 model, 45 life game, cellular automata, self-organization, critical state, population roles, community modeling, loop analyis, stabili- evolution, 135 ty patterns, trophic structure, Delaware Bay plankton loop analyis, community modeling, population roles, stabili- community, 75 ty patterns, trophic structure, Delaware Bay plankton power law distribution of size of taxa, biological classifica- community, 75 tion, fractals, 89 loop analysis, stability, feedback, simulation, network, Lotka-Volterra systems, 21 recognition, Brownian algebra, oscillator function, 99 Lotka-Volterra systems, stability, feedback, loop analysis, replicator equation, early evolution, mutation, 1 simulation, network, 21 ribosomal gene, in situ detection, non-radioactive probe, electron microscopy cryosections, dinoflagellate, 61 mathematical model, Chagas’ disease, endemic states, 127 mathematical model, fetus, oxygenation, placental self-organization, life game, cellular automata, critical state, metabolism, 45 evolution, 135 mathematical model, oxygen dissociation curve, oxygen simulation, stability, feedback, loop analysis, network, delivery to tissue, kinetics of O. with haemoglobin, 171 Lotka-Volterra systems, 21 mathematical modeling, cellular kinetics, T-lymphocytes, stability, feedback, loop analysis, simulation, network, human immunodeficiency virus, 177 Lotka-Volterra systems, 21 metabolic regulation, amplification, bistability, irreversible stability patterns, community modeling, population roles, transitions, 159 loop analyis, trophic structure, Delaware Bay plankton modeling, biological systems, state space approach, dynamic community, 75 simulation, 31 state space approach, biological systems, modeling, dynamic modelling fluctuation phenomena, cortisol secretion system, simulation, 31 117 morphogenesis, phylogeny, ciliate evolution, ciliate stem-cells, cellular automata, non-linear dynamics, chaos, kinetome, ultrastructure, 239 colony forming units, 231 mutation, early evolution, replicator equation, 1 stream ecosystem, biomass, information processing, neuromass, 155 negative cross-diffusion, epigenetic system, dissipative symbiosis, computer evolution model, computer ecosystems, structure, bifurcatin analysis, Liapunov stability, 211 parasitism, 199 network, stability, feedback, loop analysis, simulation, Lotka-Volterra systems, 21 T-lymphocytes, mathematical modeling, cellular kinetics, neuromass, biomass, information processing, stream human immunodeficiency virus, 177 ecosystem, 155 the Third Law of Mechanics, ATP hydrolysis, flagellum, 223 non-Markovian stochastic branching process, correlated trophic structure, community modeling, population roles, fluctuations, fertility, heredity, 185 loop analyis, stability patterns, Delaware Bay plankton non-radioactive probe, ribosomal gene, in situ detection, community, 75 electron microscopy cryosections, dinoflagellate, 61 non-linear dynamics, cellular automata, chaos, stem-cells, ultrastructure, phylogeny, ciliate evolution, ciliate kine- colony forming units, 231 tome, morphogenesis, 239 BioSystems, 26 (1992) 261 Elsevier Scientific Publishers Ireland Ltd. Author Index Volume 26 Agur, Z. Kampfner, R.R. Kangas, P.C. Bailey, J.J. Kimler, V.A. Berlin, Y.A. Kuz’min, V.V. Blamire, J. Bodini, A. Lenbury, Y. Bottoni, P. Brambilla, F. Matsuno, K. Mehr, R. Caserta, C. Mickens, R.E. Cefalo, A. Minelli, A. Chattopadhyay, J. Mukherjee, D. Chuck, E.T. Mussio, P. Conrad, M. Nakamura, T. Dioguardi, N. Drobnitsky, D.O. O’Callaghan, J. s Pacheenburawana, P. Fisler, K. Pietrogrande, M. Pilette, R. Fassy, F. Fletcher, J.E. Randetti, M. Fusco, G. Renard, C. Sartori, S. Géraud, M.-L. Selvakumar, S. Goldanskii, V.I. Sharan, M. Groome, L.J. Shrager, R.I. Gunji, Y.-P. Gunji, Y.-P. Sigal, R. Soyer-Gobillard, M.-O. Stadler, P.F. Hervagault, J.-F. Herzog, M. Tapaswi, P.K. Honda, H. Vanover, L. Imai, E. Velasco-Hernandez, J.X. Iryu, Y. Ito, K. Watanabe, A.