Self-Organization and Collective Behavior in Vertebrates
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[1] J. Deneubourg,et al. The blind leading the blind in army ant raid patterns: Testing a model of self-organization (Hymenoptera: Formicidae) , 1991, Journal of Insect Behavior.
[2] J. Deneubourg,et al. The blind leading the blind: Modeling chemically mediated army ant raid patterns , 1989, Journal of Insect Behavior.
[3] J. Heinze. Dominance behavior among ant females , 2005, Naturwissenschaften.
[4] J. Godin,et al. Context-dependent group size choice in fish , 2004, Animal Behaviour.
[5] J. Krause,et al. Effects of parasites on fish behaviour: a review and evolutionary perspective , 2000, Reviews in Fish Biology and Fisheries.
[6] D. Grünbaum. Schooling as a strategy for taxis in a noisy environment , 1998, Evolutionary Ecology.
[7] E. DeBlois,et al. Cross-shoal variability in the feeding habits of migrating Atlantic cod (Gadus morhua) , 1996, Oecologia.
[8] Jens Krause,et al. The relationship between foraging and shoal position in a mixed shoal of roach (Rutilus rutilus) and chub (Leuciscus cephalus): a field study , 1993, Oecologia.
[9] B. Hōlldobler,et al. Dominance orders in the ponerine ant Pachycondyla apicalis (Hymenoptera, Formicidae) , 1990, Behavioral Ecology and Sociobiology.
[10] J. Parrish. Layering with depth in a heterospecific fish aggregation , 1989, Environmental Biology of Fishes.
[11] A. Bourke. Dominance orders, worker reproduction, and queen-worker conflict in the slave-making ant Harpagoxenus sublaevis , 1988, Behavioral Ecology and Sociobiology.
[12] N. G. Wolf. Odd fish abandon mixed-species groups when threatened , 1985, Behavioral Ecology and Sociobiology.
[13] B. Partridge,et al. The structure of schools of giant bluefin tuna in Cape Cod Bay , 1983, Environmental Biology of Fishes.
[14] P. Hogeweg,et al. The ontogeny of the interaction structure in bumble bee colonies: A MIRROR model , 1983, Behavioral Ecology and Sociobiology.
[15] B. Seghers. Facultative schooling behavior in the spottail shiner (Notropis hudsonius): possible costs and benefits , 1981, Environmental Biology of Fishes.
[16] T. Pitcher,et al. The sensory basis of fish schools: Relative roles of lateral line and vision , 1980, Journal of comparative physiology.
[17] T. Pitcher,et al. The three-dimensional structure of fish schools , 1980, Behavioral Ecology and Sociobiology.
[18] L. Dill,et al. The three-dimensional structure of airborne bird flocks , 1978, Behavioral Ecology and Sociobiology.
[19] W. H. Neill,et al. Magnitude and ecological implications of thermal inertia in skipjack tuna,Katsuwonus pelamis (Linnaeus) , 1976, Environmental Biology of Fishes.
[20] J. Godin,et al. Effects of nutritional state on the shoaling tendency of banded killifish, Fundulus diaphanus, in the field , 2003, Animal Behaviour.
[21] I. Couzin,et al. Mechanisms underlying shoal composition in the Trinidadian guppy, Poecilia reticulata , 2003 .
[22] R. R. Krausz. Living in Groups , 2013 .
[23] I. Couzin,et al. Collective memory and spatial sorting in animal groups. , 2002, Journal of theoretical biology.
[24] E. Tibbetts. Visual signals of individual identity in the wasp Polistes fuscatus , 2002, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[25] L. J. Anthony. The New Encyclopedia of Mammals , 2002 .
[26] I. Whishaw,et al. Rats can track odors, other rats, and themselves: implications for the study of spatial behavior , 2002, Behavioural Brain Research.
[27] Yoshinobu Inada,et al. Order and flexibility in the motion of fish schools. , 2002, Journal of theoretical biology.
[28] Neha Bhooshan,et al. The Simulation of the Movement of Fish Schools , 2001 .
[29] Iain D. Couzin,et al. The effects of parasitism and body length on positioning within wild fish shoals , 2001 .
[30] Susan C. Roberts,et al. Scent-marking by male mammals: Cheat-proof signals to competitors and mates , 2001 .
[31] D. Macdonald. New encyclopedia of mammals , 2001 .
[32] Tamás Viczek,et al. Fluctuations and Scaling in Biology , 2001 .
[33] P. Maini,et al. Mathematical Models for Biological Pattern Formation , 2001 .
[34] I. Couzin,et al. Improving secondary pick up of insect fungal pathogen conidia by manipulating host behaviour , 2000 .
[35] J. Krause,et al. The social organization of fish shoals: a test of the predictive power of laboratory experiments for the field , 2000, Biological reviews of the Cambridge Philosophical Society.
[36] G D Ruxton,et al. Fish shoal composition: mechanisms and constraints , 2000, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[37] Dirk Helbing,et al. Simulating dynamical features of escape panic , 2000, Nature.
[38] J. Godin,et al. The social organization of free‐ranging fish shoals , 2000 .
[39] Charlotte K. Hemelrijk,et al. Towards the integration of social dominance and spatial structure , 2000, Animal Behaviour.
[40] Joakim Hjältén,et al. Truncated power laws: a tool for understanding aggregation patterns in animals? , 2000 .
[41] Charlotte K. Hemelrijk,et al. Leadership in fish shoals , 2000 .
[42] Vicsek,et al. Freezing by heating in a driven mesoscopic system , 1999, Physical review letters.
[43] Guy Theraulaz,et al. Dominance orders in animal societies: The self-organization hypothesis revisited , 1999, Bulletin of mathematical biology.
[44] Paul R. Moorcroft,et al. Home range analysis using a mechanistic home range model , 1999 .
[45] E Bonabeau,et al. Scaling in animal group-size distributions. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[46] L. Edelstein-Keshet,et al. Complexity, pattern, and evolutionary trade-offs in animal aggregation. , 1999, Science.
[47] L. L. Wolf,et al. The winner and loser effect: integrating multiple experiences , 1999, Animal Behaviour.
[48] A. Klimley,et al. School fidelity and homing synchronicity of yellowfin tuna, Thunnus albacares , 1999 .
[49] C. Hemelrijk. An individual–orientated model of the emergence of despotic and egalitarian societies , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[50] Iain D. Couzin,et al. Coupled oscillators and activity waves in ant colonies , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[51] T. Vicsek,et al. Collective Motion , 1999, physics/9902023.
[52] T. Vicsek,et al. Collective motion of organisms in three dimensions , 1999, physics/9902021.
[53] Simon A. Levin,et al. Fragile Dominion: Complexity and the Commons , 1999 .
[54] J. Hutchinson. Animal groups in three dimensions , 1999 .
[55] Iain D. Couzin. Collective animal behaviour. , 1999 .
[56] G. F.,et al. From individuals to aggregations: the interplay between behavior and physics. , 1999, Journal of theoretical biology.
[57] Hiro-Sato Niwa,et al. School size statistics of fish , 1998, Journal of theoretical biology.
[58] J. Atema,et al. Individual recognition and memory in lobster dominance , 1998, Animal Behaviour.
[59] Eric Bonabeau,et al. LETTER TO THE EDITOR: Space dimension and scaling in fish school-size distributions , 1998 .
[60] D C Krakauer,et al. Spatial scales of desert locust gregarization. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[61] Charlotte K. Hemelrijk,et al. Spatial Centrality of Dominants Without Positional Preference , 1998 .
[62] J. Steffensen,et al. Energy savings in sea bass swimming in a school : measurements of tail beat frequency and oxygen consumption at different swimming speeds , 1998 .
[63] Niwa. Migration Dynamics of Fish Schools in Heterothermal Environments. , 1998, Journal of theoretical biology.
[64] D. Helbing,et al. Active Walker Model for the Formation of Human and Animal Trail Systems , 1997, cond-mat/9806097.
[65] D. Helbing,et al. Modelling the evolution of human trail systems , 1997, Nature.
[66] J. Gerhart,et al. Cells, Embryos and Evolution , 1997 .
[67] E. Bonabeau,et al. Self-organization in social insects. , 1997, Trends in ecology & evolution.
[68] T. Vicsek,et al. Spontaneously ordered motion of self-propelled particles , 1997, cond-mat/0611741.
[69] J. Hurst,et al. Behavioural mechanisms underlying the spatial dispersion of commensal Mus domesticus and grassland Mus spretus , 1997, Animal Behaviour.
[70] J. Osborn. Animal Groups in Three Dimensions: Analytical and digital photogrammetry , 1997 .
[71] Animal Groups in Three Dimensions: Metabolic models of fish school behavior – the need for quantitative observations , 1997 .
[72] Jens Krause,et al. Mortality risk of spatial positions in animal groups: The danger of being in the front , 1997 .
[73] F. Heppner,et al. Animal Groups in Three Dimensions: Three-dimensional structure and dynamics of bird flocks , 1997 .
[74] J. Parrish,et al. Animal Groups in Three Dimensions: Individual decisions, traffic rules, and emergent pattern in schooling fish , 1997 .
[75] D. Ritz. Animal Groups in Three Dimensions: Costs and benefits as a function of group size: Experiments on a swarming mysid Paramesopodopsis rufa Fenton , 1997 .
[76] Hidehiko Okabe,et al. Animal Groups in Three Dimensions: Three-dimensional measurements of swarming mosquitoes: A probabilistic model, measuring system, and example results , 1997 .
[78] P. Sherman,et al. Naked mole-rats recruit colony mates to food sources , 1996, Animal Behaviour.
[79] F. Huntingford,et al. Parasite infection alters schooling behaviour: deviant positioning of helminth-infected minnows in conspecific groups , 1996, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[80] S. Gueron,et al. The Dynamics of Herds: From Individuals to Aggregations , 1996 .
[81] J. Godin,et al. Phenotypic Variability within and between Fish Shoals , 1996 .
[82] Guy Theraulaz,et al. Mathematical model of self-organizing hierarchies in animal societies , 1996 .
[83] L. L. Buckley,et al. Use of foraging trails by Norway rats , 1996, Animal Behaviour.
[84] T. Seeley. The Wisdom of the Hive , 1995 .
[85] Vicsek,et al. Novel type of phase transition in a system of self-driven particles. , 1995, Physical review letters.
[86] G Theraulaz,et al. Coordination in Distributed Building , 1995, Science.
[87] S. Gueron,et al. The dynamics of group formation. , 1995, Mathematical biosciences.
[88] Guy Theraulaz,et al. Self-organization of hierarchies in animal societies: the case of the primitively eusocial waspPolistes dominulusChrist , 1995 .
[89] E. Bonabeau,et al. Possible universality in the size distribution of fish schools. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[90] Helbing,et al. Social force model for pedestrian dynamics. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[91] J. Viitala,et al. Attraction of kestrels to vole scent marks visible in ultraviolet light , 1995, Nature.
[92] A. Magurran,et al. The Behavioral Diversity and Evolution of Guppy, Poecilia reticulata, Populations in Trinidad , 1995 .
[93] Hiro-Sato Niwa. Self-organizing Dynamic Model of Fish Schooling , 1994 .
[94] Influence of parasitism on the shoaling behaviour of banded killifish, Fundulus diaphanus , 1994 .
[95] Jens Krause. DIFFERENTIAL FITNESS RETURNS IN RELATION TO SPATIAL POSITION IN GROUPS , 1994, Biological reviews of the Cambridge Philosophical Society.
[96] T. Vicsek,et al. Generic modelling of cooperative growth patterns in bacterial colonies , 1994, Nature.
[97] E. Ranta,et al. A theoretical exploration of antipredatory and foraging factors promoting phenotype-assorted fish schools , 1994 .
[98] S. Gueron,et al. Self-organization of front patterns in large wildebeest herds , 1993 .
[99] D. Elliott,et al. Football stadia disasters in the United Kingdom: learning from tragedy? , 1993 .
[100] J. Krause. The effect of 'Schreckstoff' on the shoaling behaviour of the minnow: a test of Hamilton's selfish herd theory , 1993, Animal Behaviour.
[101] Glazier,et al. Simulation of the differential adhesion driven rearrangement of biological cells. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[102] Jens Krause,et al. Front Individuals Lead in Shoals of Three-Spined Sticklebacks (Gasterosteus Aculeatus) and Juvenile Roach (Rutilus Rutilus) , 1993 .
[103] D. Helbing. A Fluid-Dynamic Model for the Movement of Pedestrians , 1998, Complex Syst..
[104] A. Huth,et al. The simulation of the movement of fish schools , 1992 .
[105] F. Heppner,et al. Structure of Turning in Airborne Rock Dove (Columba livia) Flocks , 1992 .
[106] S. B. Datta,et al. Effects of Group Demography on Dominance Relationships Among Female Primates. I. Mother-Daughter and Sister-Sister Relations , 1991, The American Naturalist.
[107] R. Hilborn. Modeling the Stability of Fish Schools: Exchange of Individual Fish between Schools of Skipjack Tuna (Katsuwonus pelamis) , 1991 .
[108] R. Tranquillo. Models of Chemical Gradient Sensing by Cells , 1990 .
[109] H. Takayasu,et al. Steady-state distribution of generalized aggregation system with injection. , 1989, Physical review letters.
[110] J. Parrish. Re-examining the selfish herd: are central fish safer? , 1989, Animal Behaviour.
[111] C. Theodorakis. Size segregation and the effects of oddity on predation risk in minnow schools , 1989, Animal Behaviour.
[112] R. Keynes,et al. Mechanisms of vertebrate segmentation. , 1988, Development.
[113] S. Benhamou,et al. Spatial analysis of animals' movements using a correlated random walk model* , 1988 .
[114] N. van Havre,et al. Shoaling and kin recognition in the threespine stickleback (Gasterosteus aculeatus L.) , 1988 .
[115] W. Wieser,et al. To Switch or Not to Switch: Partitioning of Energy between Growth and Activity in Larval Cyprinids (Cyprinidae: Teleostei) , 1988 .
[116] Craig W. Reynolds. Flocks, herds, and schools: a distributed behavioral model , 1987, SIGGRAPH.
[117] Anne E. Magurran,et al. Size-segregative behaviour in minnow shoals , 1986 .
[118] T. Pitcher,et al. Species segregation during predator evasion in cyprinid fish shoals , 1986 .
[119] J. Terborgh,et al. Oddity and the ‘confusion effect’ in predation , 1986, Animal Behaviour.
[120] P. J. B. Slater,et al. Individual differences and dominance hierarchies , 1986, Animal Behaviour.
[121] T. Pitcher. Behaviour of Teleost Fishes , 1986 .
[122] Uwe Kils,et al. Verhaltensphysiologische Untersuchungen an pelagischen Schwärmen : Schwarmbildung als Strategie zur Orientierung in Umwelt-Gradienten, Bedeutung der Schwarmbildung in der Aquakultur , 1986 .
[123] T. Pitcher. Functions of Shoaling Behaviour in Teleosts , 1986 .
[124] A. Ōkubo. Dynamical aspects of animal grouping: swarms, schools, flocks, and herds. , 1986, Advances in biophysics.
[125] Anne E. Magurran,et al. Schooling mackerel and herring choose neighbours of similar size , 1985 .
[126] P. Hogeweg,et al. Socioinformatic processes: MIRROR modelling methodology , 1985 .
[127] Ivan D. Chase,et al. The sequential analysis of aggressive acts during hierarchy formation: an application of the ‘jigsaw puzzle’ approach , 1985, Animal Behaviour.
[128] René Zayan,et al. An experimental model of aggressive dominance in Xiphophorus Helleri (pisces, poeciliidae). , 1985, Behavioural Processes.
[129] B. Thierry,et al. Patterns of agonistic interactions in three species of macaque (Macaca mulatta, M. fascicularis, M. tonkeana) , 1985 .
[130] Frank H. Heppner,et al. Visual Angle and Formation Flight in Canada Geese (Branta canadensis) , 1985 .
[131] D. Macdonald,et al. Social odours in mammals , 1985 .
[132] G. Helfman. School fidelity in fishes: The yellow perch pattern , 1984, Animal Behaviour.
[133] W. Potts. The chorus-line hypothesis of manoeuvre coordination in avian flocks , 1984, Nature.
[134] Patricia R. Barchas. Social hierarchies : essays toward a sociophysiological perspective , 1984 .
[135] T. Caraco,et al. Living in groups: is there an optimal group size? , 1984 .
[136] R. Sibly. Optimal group size is unstable , 1983, Animal Behaviour.
[137] N. Franks,et al. Dominance and reproductive success among slave-making worker ants , 1983, Nature.
[138] Sally P. Mendoza,et al. Behavioral processes leading to linear status hierarchies following group formation in rhesus monkeys , 1983 .
[139] Richard C. Francis,et al. Experiential Effects On Agonistic Behavior in the Paradise Fish, Macropodus Opercularis , 1983 .
[140] B L Partridge,et al. The structure and function of fish schools. , 1982, Scientific American.
[141] I. Chase,et al. Behavioral Sequences During Dominance Hierarchy Formation in Chickens , 1982, Science.
[142] I. Aoki. A simulation study on the schooling mechanism in fish. , 1982 .
[143] I. Chase,et al. DYNAMICS OF HIERARCHY FORMATION: THE SEQUENTIAL DEVELOPMENT OF DOMINANCE RELATIONSHIPS , 1982 .
[144] J. Murray. A Pre-pattern formation mechanism for animal coat markings , 1981 .
[145] I. Chase,et al. Social Process and Hierarchy Formation in Small Groups: A Comparative Perspective , 1980 .
[146] J. Michael Davis,et al. The coordinated aerobatics of dunlin flocks , 1980, Animal Behaviour.
[147] W. Alt. Biased random walk models for chemotaxis and related diffusion approximations , 1980, Journal of mathematical biology.
[148] B. Partridge,et al. The effect of school size on the structure and dynamics of minnow schools , 1980, Animal Behaviour.
[149] 明 大久保,et al. Diffusion and ecological problems : mathematical models , 1980 .
[150] T. Pitcher,et al. Evidence against a hydrodynamic function for fish schools , 1979, Nature.
[151] J. Krebs,et al. Behavioural Ecology: An Evolutionary Approach , 1978 .
[152] A. Sinclair,et al. The African Buffalo: A Study of Resource Limitation of Populations , 1978 .
[153] Martin W. Schein,et al. Social hierarchy and dominance , 1975 .
[154] J. Magnuson,et al. Sensitivity of restrained skipjack tuna (Katsuwonus pelamis) to abrupt increases in temperature. , 1974, Comparative biochemistry and physiology. A, Comparative physiology.
[155] J. L. Albright,et al. Social Rank and Social Index as Related to Age, Body Weight and Milk Production in Dairy Cows , 1973 .
[156] S. Tyler. The Behaviour and Social Organization of the New Forest Ponies , 1972 .
[157] W. Hamilton. Geometry for the selfish herd. , 1971, Journal of theoretical biology.
[158] L. F. Henderson,et al. The Statistics of Crowd Fluids , 1971, Nature.
[159] L. Segel,et al. Model for chemotaxis. , 1971, Journal of theoretical biology.
[160] H. A. Baldwin,et al. Methods for measuring the three-dimensional structure of fish schools. , 1965, Animal behaviour.
[161] H. Kelley,et al. Collective behavior in a simulated panic situation , 1965 .
[162] H. Crofton. Nematode parasite populations in sheep on lowland farms VI. Sheep behaviour and nematode infections , 1958, Parasitology.
[163] B. Ginsburg,et al. Some Effects of Conditioning on Social Dominance and Subordination in Inbred Strains of Mice , 1942, Physiological Zoology.
[164] S. Fiske,et al. The Handbook of Social Psychology , 1935 .
[165] E. Selous. Thought Transference (or What ?) in Birds , 1932, Nature.
[166] T. Schjelderup-Ebbe,et al. Beiträge zur Sozialpsychologie des Haushuhns. , 1922 .
[167] dominulus Christ. Self-organization of Hierarchies in Animal Societies: The Case of the Primitively Eusocial Wasp Polsites dominulus Christ , 2022 .
[168] N H-S,et al. Newtonian Dynamical Approach to Fish Schooling , 2022 .