Evolution of episodic memory

One prominent view holds that episodic memory emerged recently in humans and lacks a “(neo)Darwinian evolution” [Tulving E (2002) /Annu Rev Psychol/ 53:1-25]. Here, we review evidence supporting the alternative perspective that episodic memory has a long evolutionary history. We show that fundamental features of episodic memory capacity are present in mammals and birds and that the major brain regions responsible for episodic memory in humans have anatomical and functional homologs in other species. We propose that episodic memory capacity depends on a fundamental neural circuit that is similar across mammalian and avian species, suggesting that protoepisodic memory systems exist across amniotes and, possibly, all vertebrates. The implication is that episodic memory in diverse species may primarily be due to a shared underlying neural ancestry, rather than the result of evolutionary convergence. We also discuss potential advantages that episodic memory may offer, as well as species-specific divergences that have developed on top of the fundamental episodic memory architecture. We conclude by identifying possible time points for the emergence of episodic memory in evolution, to help guide further research in this area.

Key words: Animal models, hippocampus, prefrontal cortex, parahippocampal region, entorhinal cortex.

Addis, D. R., A. T. Wong y D. L. Schacter (2007), “Remembering the past and imagining the future: Common and distinct neural substrates during event construction and elaboration”, Neuropsychologia 45(7): 1363–1377.

Allen, T. A., S. C. Furtak y T. H. Brown (2007), “Single-unit responses to 22 kHz ultrasonic vocalizations in rat perirhinal cortex”, Behav Brain Res 182(2): 327– 336.

Amaral, D. G. y M. P. Witter (1989), “The three-dimensional organization of the hippocampal formation: A review of anatomical data”, Neuroscience 31(3): 571–591.

Atoji, Y. y J. M. Wild (2004), “Fiber connections of the hippocampal formation and septum and subdivisions of the hippocampal formation in the pigeon as revealed by tract tracing and kainic acid lesions”, J Comp Neurol 475(3): 426–461.

Atoji, Y. y J. M. Wild (2006), “Anatomy of the avian hippocampal formation”, Rev Neurosci 17(1-2): 3–15.

Babb, S. J. y J. D. Crystal (2006), “Episodic-like memory in the rat”, Curr Biol 16(13): 1317–1321.

Banta Lavenex, P. y P. Lavenex (2009), “Spatial memory and the monkey hippocampus: Not all space is created equal”, Hippocampus 19(1): 8–19.

Bingman, V. P. y P. E. Sharp (2006), “Neuronal implementation of hippocampalmediated spatial behavior: A comparative evolutionary perspective”, Behav Cogn Neurosci Rev 5(2): 80–91.

Brennan, P. A. y K. M. Kendrick (2006), “Mammalian social odours: Attraction and individual recognition”, Philos Trans R Soc Lond B Biol Sci 361(1476): 2061–2078.

Broglio, C., et al. (2005), “Hallmarks of a common forebrain vertebrate plan: Specialized pallial areas for spatial, temporal and emotional memory in actinopterygian fish”, Brain Res Bull 66(4-6): 277–281.

Brown, M. W. y J. P. Aggleton (2001), “Recognition memory: What are the roles of the perirhinal cortex and hippocampus?”, Nat Rev Neurosci 2(1): 51–61.

Brown, V. J. y E. M. Bowman (2002), “Rodent models of prefrontal cortical function”, Trends Neurosci 25(7): 340–343.

Buhusi, C. V. y W. H. Meck (2005), “What makes us tick? Functional and neural mechanisms of interval timing”, Nat Rev Neurosci 6(10): 755–765.

Burgess, N., E. A. Maguire y J. O’Keefe (2002), “The human hippocampus and spatial and episodic memory”, Neuron 35(4): 625–641.

Burwell, R. D. (2000), “The parahippocampal region: Corticocortical connectivity”, Ann N Y Acad Sci 911: 25–42.

Buzsáki, G. y E. I. Moser (2013), “Memory, navigation and theta rhythm in the hippocampal-entorhinal system”, Nat Neurosci 16(2): 130–138.

Cabeza, R. y P. St Jacques (2007), “Functional neuroimaging of autobiographical memory”, Trends Cogn Sci 11(5): 219–227.

Clayton, N. S., T. J. Bussey y A. Dickinson (2003), “Can animals recall the past and plan for the future?”, Nat Rev Neurosci 4(8): 685–691.

Clayton, N. S. y A. Dickinson (1998), “Episodic-like memory during cache recovery by scrub jays”, Nature 395(6699): 272–274.

Clayton, N. S. y A. Dickinson (1999), “Memory for the content of caches by scrub jays (Aphelocoma coerulescens)”, J Exp Psychol Anim Behav Process 25(1): 82–91.

Clayton, N. S., D. P. Griffiths, N. J. Emery y A. Dickinson (2001), “Elements of episodic-like memory in animals”, Philos Trans R Soc Lond B Biol Sci 356(1413): 1483–1491.

Clayton, N. S., K. S. Yu y A. Dickinson (2003), “Interacting Cache memories: Evidence for flexible memory use by Western Scrub-Jays (Aphelocoma californica)”, J Exp Psychol Anim Behav Process 29(1): 14–22.

Colombo, M., S. Cawley, y N. Broadbent (1997), “The effects of hippocampal and area parahippocampalis lesions in pigeons. II. Concurrent discrimination and spatial memory”, Q J Exp Psychol B 50(2): 172–189.

Crystal, J. D. (2010), “Episodic-like memory in animals”, Behav Brain Res 215(2): 235–243.

Davidson, P. S., H. Drouin, D. Kwan, M. Moscovitch y R. S. Rosenbaum (2012), “Memory as social glue: Close interpersonal relationships in amnesic patients”, Front Psychol 3: 531.

Day, M., R. F. Langston y R. G. Morris (2003) “Glutamate-receptor-mediated encoding and retrieval of paired-associate learning”, Nature 424(6945): 205– 209.

Dere, E., J. P. Huston y M. A De Souza Silva (2005), “Integrated memory for objects, places, and temporal order: Evidence for episodic-like memory in mice”, Neurobiol Learn Mem 84(3): 214–221.

Deshmukh, S. S., J. L. Johnson y J. J. Knierim (2012) “Perirhinal cortex represents non-spatial, but not spatial, information in rats foraging in the presence of objects: Comparison with lateral entorhinal cortex”, Hippocampus 22(10): 2045–2058.

Dix, S. L. y J. P. Aggleton (1999) “Extending the spontaneous preference test of recognition: Evidence of object-location and object-context recognition”, Behav Brain Res 99(2): 191–200.

Doeller, C. F., C. Barry y N. Burgess (2010), “Evidence for grid cells in a human memory network”, Nature 463(7281): 657–661.

Duff, M. C. y S. Brown-Schmidt (2012), “The hippocampus and the flexible use and processing of language”, Front Hum Neurosci 6: 69.

Eacott, M. J. y A. Easton (2010), “Episodic memory in animals: Remembering which occasion”, Neuropsychologia 48(8): 2273–2280.

Eacott, M. J., A. Easton y A. Zinkivskay (2005), “Recollection in an episodic-like memory task in the rat”, Learn Mem 12(3): 221–223.

Eichenbaum, H., P. Dudchenko, E. Wood, M. Shapiro y H. Tanila (1999), “The hippocampus, memory, and place cells: Is it spatialmemory or amemory space?”, Neuron 23(2): 209–226.

Eichenbaum, H. y N. Fortin (2003), “Episodic memory and the hippocampus: It’s about time”, Curr Dir Psychol Sci 12: 53–57.

Eichenbaum, H. y N. Fortin (2005), “Bridging the gap between brain and behavior: Cognitive and neural mechanisms of episodic memory”, J Exp Anal Behav 84(3): 619–629.

Eichenbaum, H. y N. Fortin (2009), “The neurobiology of memory based predictions”, Philos Trans R Soc Lond B Biol Sci 364(1521): 1183–1191.

Eichenbaum, H., N. J. Fortin, C. Ergorul, S. P. Wright y K. L. Agster (2005), “Episodic recollection in animals: ’If it walks like a duck and quacks like a duck...’”, Learn Motiv 36(2): 190–207.

Eichenbaum, H., N. J. Fortin, M. Sauvage, R. J. Robitsek y A. Farovik (2010), “An animal model of amnesia that uses Receiver Operating Characteristics (ROC) analysis to distinguish recollection from familiarity deficits in recognition memory”, Neuropsychologia 48(8): 2281–2289.

Eichenbaum, H., A. P. Yonelinas y C. Ranganath (2007), “The medial temporal lobe and recognition memory”, Annu Rev Neurosci 30: 123–152.

Ekstrom, A. D., et al. (2003), “Cellular networks underlying human spatial navigation”, Nature 425(6954): 184–188.

Emery, N. J. y N. S. Clayton (2004), “The mentality of crows: Convergent evolution of intelligence in corvids and apes”, Science 306(5703): 1903–1907.

Ergorul, C. y H. Eichenbaum (2004), “The hippocampus and memory for “what,” “where,” and “when”“, Learn Mem 11(4): 397–405.

Feeney, M. C., W. A. Roberts y D. F. Sherry (2009), “Memory for what, where, and when in the black-capped chickadee (Poecile atricapillus)”, Anim Cogn 12(6): 767–777.

Feinberg, L. M., T. A. Allen, D. Ly y N. J. Fortin (2012), “Recognition memory for social and non-social odors: Differential effects of neurotoxic lesions to the hippocampus and perirhinal cortex”, Neurobiol Learn Mem 97(1): 7–16.

Ferkin, M. H., A. Combs, J. del Barco-Trillo, A. Pierce y S. Franklin (2008), “Meadow voles, Microtus pennsylvanicus, have the capacity to recall the “what”, “where”, and “when” of a single past event”, Anim Cogn 11(1): 147–159.

Fortin, N. J., K. L. Agster y H. B. Eichenbaum (2002), “Critical role of the hippocampus in memory for sequences of events”, Nat Neurosci 5(5): 458–462.

Fortin, N. J., S. P. Wright y H. Eichenbaum (2004), “Recollection-like memory retrieval in rats is dependent on the hippocampus”, Nature 431(7005): 188– 191.

Fried, I., K. A. Cameron, S. Yashar, R. Fong y J. W. Morrow (2002), “Inhibitory and excitatory responses of single neurons in the human medial temporal lobe during recognition of faces and objects”, Cereb Cortex 12(6): 575–584.

Friedman, W. J. (1993), “Memory for the time of past events”, Psychol Bull 113: 44–66.

Furtak, S. C., S-M. Wei, K. L. Agster y R. D. Burwell (2007), “Functional neuroanatomy of the parahippocampal region in the rat: The perirhinal and postrhinal cortices”, Hippocampus 17(9): 709–722.

Fuster, J. M. (2001), “The prefrontal cortex—an update: Time is of the essence”, Neuron 30(2): 319–333.

Fyhn, M., S. Molden, M. P. Witter, E. I. Moser y M-B Moser (2004), “Spatial representation in the entorhinal cortex”, Science 305(5688): 1258–1264.

Gaffan, D. (1994), “Scene-specific memory for objects: A model of episodic memory impairment in monkeys with fornix transection”, J Cogn Neurosci 6: 305–320.

Gagliardo, A., P. Ioalé y V. P. Bingman (1999), “Homing in pigeons: The role of the hippocampal formation in the representation of landmarks used for navigation”, J Neurosci 19(1): 311–315.

Gilbert, P. E. y R. P. Kesner (2002), “Role of the rodent hippocampus in pairedassociate learning involving associations between a stimulus and a spatial location”, Behav Neurosci 116(1): 63–71.

Gilbert, P. E. y R. P. Kesner (2003), “Localization of function within the dorsal hippocampus: The role of the CA3 subregion in paired-associate learning”, Behav Neurosci 117(6): 1385–1394.

Goldman-Rakic, P. S. (1996), “Regional and cellular fractionation of working memory”, Proc Natl Acad Sci USA 93(24): 13473–13480.

González-Gómez, P. L., F. Bozinovic y R. A. Vásquez (2011), “Elements of episodic-like memory in free-living hummingbirds, energetic consequences”, Anim Behav 81: 1257–1262.

Güntürkün, O. (2005), “The avian ‘prefrontal cortex’ and cognition”, Curr Opin Neurobiol 15(6): 686–693.

Hampton, R. R. y S. J. Shettleworth (1996), “Hippocampal lesions impair memory for location but not color in passerine birds”, Behav Neurosci 110(4): 831–835.

Hannesson, D. K., J. G. Howland y A. G. Phillips (2004), “Interaction between perirhinal and medial prefrontal cortex is required for temporal order but not recognition memory for objects in rats”, J Neurosci 24(19): 4596–4604.

Hassabis, D., D. Kumaran, S. D. Vann, y E. A. Maguire (2007), “Patients with hippocampal amnesia cannot imagine new experiences”, Proc Natl Acad Sci USA 104(5): 1726–1731.

Hayne, H. y K. Imuta (2011), “Episodic memory in 3- and 4-year-old children”, Dev Psychobiol 53(3): 317–322.

Herold, C., et al. (2011), “The receptor architecture of the pigeons’ nidopallium caudolaterale: An avian analogue to the mammalian prefrontal cortex”, Brain Struct Funct 216(3): 239–254.

Hoffman, M. L., M. J. Beran y D. A. Washburn (2009), “Memory for “what”, “where”, and “when” information in rhesus monkeys (Macaca mulatta)”, J Exp Psychol AnimBehav Process 35(2): 143–152.

Holland, S. M. y T. V. Smulders (2011), “Do humans use episodic memory to solve a what-where-when memory task?”, Anim Cogn 14(1): 95–102.

Insausti, R. (1993), “Comparative anatomy of the entorhinal cortex and hippocampus in mammals”, Hippocampus 3(Spec No): 19–26.

Jung, M. W., Y. Qin, B. L. McNaughton y C. A. Barnes (1998), “Firing characteristics of deep layer neurons in prefrontal cortex in rats performing spatial working memory tasks”, Cereb Cortex 8(5): 437–450.

Kart-Teke, E., M. A. De Souza Silva, J. P. Huston y E. Dere (2006), “Wistar rats show episodic like memory for unique experiences”, Neurobiol Learn Mem 85(2): 173–182.

Kennedy, P. J. y M. L. Shapiro (2004), “Retrieving memories via internal context requires the hippocampus”, J Neurosci 24(31): 6979–6985.

Kesner, R. P. (1998), “Neural mediation of memory for time: Role of the hippocampus and medial prefrontal cortex”, Psychon Bull Rev 5: 585–596.

Kesner, R. P., P. E. Gilbert y L. A. Barua (2002), “The role of the hippocampus in memory for the temporal order of a sequence of odors”, Behav Neurosci 116(2): 286–290.

Killian, N. J., M. J. Jutras, E. A. Buffalo (2012), “A map of visual space in the primate entorhinal cortex”, Nature 491(7426): 761–764.

Kim, J., S. Delcasso y I. Lee (2011), “Neural correlates of object-in-place learning in hippocampus and prefrontal cortex”, J Neurosci 31(47): 16991–17006.

Knierim, J. J., I. Lee y E. L. Hargreaves (2006), “Hippocampal place cells: Parallel input streams, subregional processing, and implications for episodic memory”, Hippocampus 16(9): 755–764.

Komorowski, R. W., Manns, J. R., Eichenbaum, H. (2009). “Robust conjunctive item-place coding by hippocampal neurons parallels learning what-happenswhere”, J Neurosci 29(31): 9918–9929.

Kouwenberg, A-L., C. J. Walsh, B. E. Morgan y G. M. Martin (2009), “Episodic-like memory in crossbred Yucatan minipigs (Sus scrofa)”, Appl Anim Behav Sci 117: 165–172.

Kumaran, D. y E. A. Maguire (2006), “An unexpected sequence of events: Mismatch detection in the human hippocampus”, PLoS Biol 4(12): e424.

Lavenex, P. y D. G. Amaral (2000), “Hippocampal-neocortical interaction: A hierarchy of associativity”, Hippocampus 10(4): 420–430.

Lehn, H., et al. (2009), “A specific role of the human hippocampus in recall of temporal sequences”, J Neurosci 29(11): 3475–3484.

MacDonald, C. J., K. Q. Lepage, U. T. Eden y H. Eichenbaum (2011), “Hippocampal “time cells” bridge the gap in memory for discontiguous events”, Neuron 71(4): 737–749.

Mankin, E. A., et al. (2012), “Neuronal code for extended time in the hippocampus”, Proc Natl Acad Sci USA 109(47): 19462–19467.

Manns, J. R. y H. Eichenbaum (2006), “Evolution of declarative memory”, Hippocampus 16(9): 795–808.

Manns, J. R., M. W. Howard y H. Eichenbaum (2007), “Gradual changes in hippocampal activity support remembering the order of events”, Neuron 56(3): 530–540.

Martin-Ordas, G., D. Haun, F. Colmenares y J. Call (2010), “Keeping track of time: Evidence for episodic-like memory in great apes”, Anim Cogn 13(2): 331–340.

Matsumura, N., et al. (1999), “Spatial- and task-dependent neuronal responses during real and virtual translocation in the monkey hippocampal formation”, J Neurosci 19(6): 2381–2393.

McClelland, J. L. y N. H. Goddard (1996), “Considerations arising from a complementary learning systems perspective on hippocampus and neocortex”, Hippocampus 6(6): 654–665.

McGaugh, J. L. (2013), “Making lasting memories: Remembering the significant”, Proc Natl Acad Sci USA 10.1073/pnas.1301209110.

Meck, W. H., R. M. Church y D. S. Olton (1984), “Hippocampus, time, and memory”, Behav Neurosci 98(1): 3–22.

Mishkin, M., W. A. Suzuki, D. G. Gadian y F. Vargha-Khadem (1997), “Hierarchical organization of cognitive memory”, Philos Trans R Soc Lond B Biol Sci 352(1360): 1461–1467.

Morris, R. G. M. (2001), “Episodic-like memory in animals: Psychological criteria, neural mechanisms and the value of episodic-like tasks to investigate animal models of neurodegenerative disease”, Philos Trans R Soc Lond B Biol Sci 356(1413): 1453–1465.

Mulcahy, N. J. y J. Call (2006), “Apes save tools for future use”, Science 312(5776): 1038–1040.

Naqshbandi, M. y W. A. Roberts (2006), “Anticipation of future events in squirrel monkeys (Saimiri sciureus) and rats (Rattus norvegicus): Tests of the BischofKohler hypothesis”, J Comp Psychol 120(4): 345–357.

Naya, Y. y W. A. Suzuki (2011), “Integrating what and when across the primate medial temporal lobe”, Science 333(6043): 773–776.

Ninokura, Y., H. Mushiake y J. Tanji (2003), “Representation of the temporal order of visual objects in the primate lateral prefrontal cortex”, J Neurophysiol 89(5): 2868–2873.

Nishijo, H., T. Ono, S. Eifuku y R. Tamura (1997), “The relationship between monkey hippocampus place-related neural activity and action in space”, Neurosci Lett 226(1): 57–60.

O’Keefe, J. y J. Dostrovsky (1971), “The hippocampus as a spatial map: Preliminary evidence from unit activity in the freely-moving rat”, Brain Res 34(1): 171–175.

O’Keefe, J. y L. Nadel (1978), The Hippocampus as a Cognitive Map. Oxford: Clarendon Press.

Osvath, M. y H. Osvath (2008), “Chimpanzee (Pan troglodytes) and orangutan (Pongo abelii) forethought: Self-control and pre-experience in the face of future tool use”, Anim Cogn 11(4): 661–674.

Pastalkova, E., V. Itskov, A. Amarasingham y G. Buzsáki (2008), “Internally generated cell assembly sequences in the rat hippocampus”, Science 321(5894): 1322–1327.

Petrides, M. (1995), “Impairments on nonspatial self-ordered and externally ordered working memory tasks after lesions of the mid-dorsal part of the lateral frontal cortex in the monkey”, J Neurosci 15(1 Pt 1): 359–375.

Raby, C. R., D. M. Alexis, A. Dickinson, N. S. Clayton (2007), “Planning for the future by western scrub-jays”, Nature 445(7130): 919–921.

Rajji, T., D. Chapman, H. Eichenbaum y R. Greene (2006), “The role of CA3 hippocampal NMDA receptors in paired associate learning”, J Neurosci 26(3): 908–915.

Rattenborg, N. C. y D. Martínez-González (2011), “A bird-brain view of episodic memory”, Behav Brain Res 222(1): 236–245.

Roberts, W. A. (2002), “Are animals stuck in time?”, Psychol Bull 128(3): 473–489.

Rodríguez, F., et al. (2002), “Conservation of spatial memory function in the pallial forebrain of reptiles and ray-finned fishes”, J Neurosci 22(7): 2894–2903.

Rose, J. y M. Colombo (2005), “Neural correlates of executive control in the avian brain”, PLoS Biol 3(6): e190.

Ross, R. S., T. I. Brown y C. E. Stern (2009), “The retrieval of learned sequences engages the hippocampus: Evidence from fMRI”, Hippocampus 19(9): 790–799.

Schacter, D. L., D. R. Addis y R. L. Buckner (2007), “Remembering the past to imagine the future: The prospective brain”, Nat Rev Neurosci 8(9): 657–661.

Shapiro, M. L. (2011), “Memory time”, Neuron 71(4): 571–573.

Shettleworth, S. J. (2007), “Animal behaviour: Planning for breakfast”, Nature 445(7130): 825–826.

Singer, R. A. y T. R. Zentall (2007), “Pigeons learn to answer the question “where did you just peck?” and can report peck location when unexpectedly asked”, Learn Behav 35(3): 184–189.

Snigdha, S., et al. (2013), “A preclinical cognitive test battery to parallel the National Institute of Health Toolbox in humans: Bridging the translational gap”, Neurobiol Aging 34(7): 1891–1901.

Squire, L. R., C. E. L. Stark y R. E. Clark (2004), “The medial temporal lobe”, Annu Rev Neurosci 27: 279–306.

Suddendorf, T. y M. C. Corballis (2007), “The evolution of foresight: What is mental time travel, and is it unique to humans?”, Behav Brain Sci 30(3): 299–313, discussion 313–351.

Suzuki, W. A. y D. G. Amaral (2004), ”Functional neuroanatomy of the medial temporal lobe memory system”, Cortex 40(1): 220–222.

Székely, A. D. (1999), “The avian hippocampal formation: subdivisions and connectivity”, Behav Brain Res 98(2): 219–225.

Szpunar, K. K., J. M. Watson y K. B. McDermott (2007), “Neural substrates of envisioning the future”, Proc Natl Acad Sci USA 104(2): 642–647.

Templer, V. L. y R. R. Hampton (2013), “Cognitive mechanisms of memory for order in rhesus monkeys (Macaca mulatta)”, Hippocampus 23(3): 193–201.

Tulving, E. (1972), “Episodic and semantic memory” in E. Tulving y W. Donaldson (eds.), Organization of Memory. New York: Academic, pp. 381–402.

Tulving, E. (2002), “Episodic memory: From mind to brain”, Annu Rev Psychol 53: 1–25.

Tulving, E. y H. J. Markowitsch (1998), “Episodic and declarative memory: Role of the hippocampus”, Hippocampus 8(3): 198–204.

Uylings, H. B. M., H. J. Groenewegen y B. Kolb (2003), “Do rats have a prefrontal cortex?”, Behav Brain Res 146(1-2): 3–17.

van Strien, N. M., N. L. M. Cappaert y M. P. Witter (2009), “The anatomy of memory: An interactive overview of the parahippocampal-hippocampal network”, Nat Rev Neurosci 10(4): 272–282.

Vargha-Khadem, F., et al. (1997), “Differential effects of early hippocampal pathology on episodic and semantic memory”, Science 277(5324): 376–380.

Verwer, R. W. H., R. J. Meijer, H. F. M. Van Uum y M. P. Witter (1997), “Collateral projections from the rat hippocampal formation to the lateral and medial prefrontal cortex”, Hippocampus 7(4): 397–402.

Weintraub, S., et al. (2013), “Cognition assessment using the NIH Toolbox”, Neurology 80(Suppl 3): S54–S64.

Wilson, M. A. y B. L. McNaughton (1993), “Dynamics of the hippocampal ensemble code for space”, Science 261(5124): 1055–1058.

Wood, E. R., P. A. Dudchenko y H. Eichenbaum (1999), “The global record of memory in hippocampal neuronal activity”, Nature 397(6720): 613–616.

Yartsev, M. M., M. P. Witter y N. Ulanovsky (2011), “Grid cells without theta oscillations in the entorhinal cortex of bats”, Nature 479(7371): 103–107.

Zinkivskay, A., F. Nazir y T. V. Smulders (2009), “What-where-when memory in magpies (Pica pica)”, Anim Cogn 12(1): 119-125.