Abstract
We examined inferential reasoning by exclusion in the Clark’s nutcracker (Nucifraga columbiana) using two-way object-choice procedures. While other social scatter-hoarding corvids appear capable of engaging in inferential reasoning, it remains unclear if the relatively less social nutcracker is able to do so. In an initial experiment, food was hidden in one of two opaque containers. All of the birds immediately selected the baited container when shown only the empty container during testing. We subsequently examined the nutcrackers in two follow-up experiments using a task that may have been less likely to be solved by associative processes. The birds were trained that two distinctive objects were always found hidden in opaque containers that were always positioned at the same two locations. During testing, one of the two objects was found in a transparent “trash bin” and was unavailable. The birds were required to infer that if one of the objects was in the “trash,” then the other object should still be available in its hidden location. Five out of six birds were unable to make this inference, suggesting that associative mechanisms likely accounted for our earlier results. However, one bird consistently chose the object that was not seen in the “trash,” demonstrating that nutcrackers may have the ability to use inferential reasoning by exclusion to solve inference tasks. The role of scatter hoarding and social organization is discussed as factors in the ability of corvid birds to reason.
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References
Aust U, Range F, Steurer M, Huber L (2008) Inferential reasoning by exclusion in pigeons, dogs and humans. Anim Cogn 11(4):587–597
Balda RP, Kamil AC, Bednekoff PA (1996) Predicting cognitive capacity from natural history: examples from four species of corvids. In: Nolan V, Ketterson JR (eds) Current ornithology, vol 13. Plenum Press, New York, pp 33–66
Bednekoff PA, Balda RP (1996) Observational spatial memory in Clark’s nutcrackers and Mexican jays. Anim Behav 52:833–839
Beran MJ, Washburn DA (2002) Chimpanzee responding during matching to sample: control by exclusion. J Exp Anal Behav 78:497–508
Bond AB, Kamil AC, Balda RP (2003) Social complexity and transitive inference in corvids. Anim Behav 65:479–487
Bossema L (1979) Jays and oaks: an eco-ethological study of a symbiosis. Behaviour 70:1–117
Boysen ST, Berntson GG (1995) Responses to quantity: perceptual vs. cognitive mechanisms in chimpanzees (Pan troglodytes). J Exp Psychol Anim Behav Process 21:83–86
Bräuer J, Kaminski J, Riedel J, Call J, Tomasello M (2006) Making inference about the location of hidden food: social dog, causal ape. J Comp Psychol 120(1):38–47
Bugnyar T, Heinrich B (2005) Ravens, Corvus corax, differentiate between knowledgeable and ignorant conspecifics. Proc R Soc Lond B Biol Sci 272:1641–1646
Bugnyar T, Kotrschal K (2002) Leading a conspecific away from food in ravens, Corvus corax? Anim Cogn 7:69–76
Burnell KL, Tomback DF (1985) Stellar’s jays steal gray jay caches: field and laboratory observations. The Auk 102:417–419
Byrne RW, Whiten A (eds) (1988) Machiavellian intelligence: social expertise and the evolution of intellect in monkeys. Apes and Humans, Clarendon, pp 1–23
Call J (2004) Inferences about the location of food in the great apes (Pan paniscus, Pan troglodytes, Gorilla gorilla, and Pongo pygmaeus). J Comp Psychol 118(2):232–241
Clarkson K, Eden SF, Sutherland WJ, Houston AI (1986) Density dependence and magpie food hoarding. J Anim Ecol 55:11–121
Clayton NS, Dickinson A (1998) Episodic-like memory during cache recovery by scrub jays. Nature 395:272–278
Correia SP, Dickinson A, Clayton NS (2007) Western scrub-jays anticipate future needs independently of their current motivational state. Curr Biol 17(10):856–861
Cramp S, Perrins C (1994) Handbook of the birds of Europe, the Middle East and North Africa: the birds of the Western Palearctic. Vol VIII crows to finches. Oxford University Press, Oxford, pp 12–19
Dally JM, Emery NJ, Clayton NS (2004) Cache protection strategies by western scrub-jays (Aphelocoma californica): hiding food in the shade. Proc Roy Soc Lond B 271:S387–S390
Dally JM, Emery NJ, Clayton NS (2005a) Cache protection strategies by western scrub-jays, Aphelocoma californica: implications for social cognition. Anim Behav 70:1251–1263
Dally JM, Emery NJ, Clayton NS (2005b) The social suppression of caching in western scrub-jays (Aphelocoma californica). Behaviour 142:961–977
de Kort SR, Clayton NS (2006) An evolutionary perspective on caching by corvids. Proc R Soc Lond B 273:417–423
Ekman J, Ericson GP (2006) Out of Gondwanaland; the evolutionary history of cooperative breeding and social behavior among crows, magpies, jays and allies. Proc Royal Soc Lond B 273:1117–1125
Emery NJ (2006) Cognitive ornithology: the evolution of avian intelligence. Philos Tran Roy Soc B 361:23–43
Emery NJ, Clayton NS (2001) Effects of experience and social context on prospective caching strategies by scrub jays. Nature 414:443–446
Emery NJ, Clayton NS (2004) The mentality of crows: convergent evolution of intelligence in corvids and apes. Science 306(5703):59–84
Erdöhegyi A, Topál J, Virányi Z, Miklósi A (2007) Dog-logic: inferential reasoning in a two-way choice task and its restricted use. Anim Behav 74(4):725–737
Ericson GP, Jansen A, Johansson US, Ekman J (2005) Inter-generic relationships of the crows, jays, magpies and allied groups (Aves: Corvidae) based on nucleotide sequence data. J Avian Biol 36:222–234
Gibson BM, Kamil AC (2001) Search for a hidden goal by Clark’s nutcrackers (Nucifraga columbiana) is more accurate inside than outside a landmark array. Anim Learn Behav 29:234–249
Gibson BM, Kamil AC (2005) The fine-grained spatial abilities of three seed-caching corvids. Learn Behav 33:59–66
Goodwin D (1955) Jays and crows recovering hidden food. Br Bird 48:181–183
Gould-Beierle K (2000) A comparison of four corvid species in a working and reference memory task using a radial maze. J Comp Psychol 114(4):347–356
Heinrich B, Pepper J (1998) Influence of competitors on caching behaviour in the common raven, Corvus corax. Anim Behav 56:1083–1090
Hermann LM, Richards DG, Wolz JP (1984) Comprehension of sentences by bottlenose dolphins. Cognition 16:129–219
Holm S (1979) A simple sequentially rejective multiple test procedure. Scand J Stat 6:65–70
Holyoak KJ, Morrison RG (eds) (2005) Cambridge handbook of thinking and reasoning. Cambridge University Press, Cambridge, MA, p 763
Hunt GR, Gary RD (2004) Direct observations of pandanus-tool manufacture and use by a New Caledonian crow (Corvus moneduloides). Anim Cogn 7(2):114–120
Hunt GR, Rutledge RB, Gary RD (2006) The right tool for the job: what strategies do wild New Caledonian crows use? Anim Cogn 9:307–316
James PC, Verbeek NAM (1984) Temporal and energetic aspects of food storage in northwestern crows. Ardea 72:207–216
Kamil AC (1988) A synthetic approach to the study of animal intelligence. In: Ledger DW (ed) Comparative perspectives in modern psychology, Nebraska symposium on motivation, vol 35, pp 230–257
Kaminski J, Call J, Fischer J (2004) Word learning in a domestic dog: evidence for ‘‘fast mapping’’. Science 304:1682–1683
Kastak CR, Schustermann RJ (2002) Sea lions and equivalence: expanding classes by exclusion. J Exp Anal Behav 78:449–465
Köhler W (1951) The mentality of apes. Translated from the second revised edition by Ella Winter Routledge, Kegan (eds), Humanities Press Inc., Imprint New York, London, p 190
Lanner RM (1996) Made for each other a symbiosis of birds and pines. Oxford University Press, New York NY, pp 38–48
Ludbrook J (1998) Multiple comparison procedures updated. Clin Exp Pharmacol Physiol 25:1032–1037
Mikolasch S, Kotrschal K, Schloegl C (2011) African grey parrots (Psittacus erithacus) use inference by exclusion to find hidden food. Biol Lett 7(6):875–877. doi:10.1098/rsbl.2011.0500
Mikolasch S, Kotrschal K, Schloegl C (2012) Is caching the key to exclusion in corvids? The case of carrion crows (Corvus corone corone). Anim Cogn 15:73–82. doi:101007/s10071-011-0434-1
Mischel W, Shoda Y, Rodriguez ML (1989) Delay of gratification in children. Sci 244:933–937
Paukner A, Anderson JR, Fujita K (2006) Redundant food searches by capuchin monkeys (Cebus apella): a failure of metacognition? Anim Cogn 9:110–117
Paz-y-Mino GC, Bond AB, Kamil AC, Balda RP (2004) Pinyon jays use transitive inference to predict social dominance. Nature 430:778–781
Petit O, Call J, Thierry B (2005) Inference about food location in Tonkean macaques. Primate Rep 72:76
Pilley JW, Reid AK (2011) Border collie comprehends object names as verbal referents. Behav Process 86(2):184–195
Pollok B, Prior H, Gtinttirktin O (2000) Development of object permanence in food-storing magpies (Pica pica). J Comp Psychol 114(2):148–157
Premack D, Premack AJ (1994) Levels of causal understanding in chimpanzees and children. Cognition 50:347–362
Rifkin S (2007) The evolution of primate intelligence. In volume 2 of the Harvard Undergraduate Society for Neuroscience’s BRAIN magazine. http://wwwhcsharvardedu/~husn/BRAIN/vol2/Primatehtml. That site (and presumably the society) is now defunct
Sabbatini G, Visalberghi E (2008) Inferences about the location of food in Capuchin monkeys (Cebus apella) in two sensory modalities. Anim Behav 122(2):156–166
Salwiczek LH, Emery NJ, Schlinger B, Clayton NS (2009) The development of caching and object permanence in Western scrub-jays (Aphelocoma californica): which emerges first? J Comp Psychol 123(3):295–303
Schloegl C (2011) What you see is what you get–reloaded: can jackdaws (Corvus monedula) find hidden food through exclusion? J Comp Psychol 125(2):162–174
Schloegl C, Dierks A, Gajdon GK, Huber L, Kotrschal K, Bugnyar T (2009) What you see is what you get? Exclusion performances in ravens and keas. PLoS ONE 4(8):1–12
Schloegl C, Kortschal K, Bugnyar T (2007) Gaze following in common ravens, Corvus corax: ontogeny and habituation. Anim Behav 74:769–778
Schloegl C, Kortschal K, Bugnyar T (2008) Do common ravens (Corvus corax) rely on human or conspecific gaze cues to detect hidden food? Anim Cogn 11:231–241
Schmitt V, Fischer J (2009) Inferential reasoning and modality dependent discrimination learning in olive baboons (Papio hamadryas anubis). J Comp Psychol 123(3):316–325
Schustermann RJ, Krieger K (1984) California sea lions are capable of semantic comprehension. Psychol Rec 34:3–23
Shettleworth SJ (2010) Cognition, evolution, and behavior. Oxford University Press, New York, pp 51–53
Shettleworth SJ, Hampton RR (1998) Adaptive specializations of spatial cognition in food-storing birds? Approaches to testing a comparative hypothesis. In: Balda RP, Pepperberg IM, Kamil AC (eds) Animal cognition in nature. RP Academic Press, San Diego, pp 65–98
Simmons KEL (1968) Food-hiding by rooks and other crows. Brit Birds 61:228–229
Simonton DK (1995) Foresight in insight? A Darwinian answer. In: Sternberg RJ, Davidson JE (eds) The nature of insight. MIT Press, Cambridge, MA, pp 465–494
Tobin H, Logue AW (1994) Self-control across species (Columba livia, Homo sapiens, and Rattus norvegicus). J Comp Psychol 108:126–133
Tomonaga M (1993) Test for control by exclusion and negative stimulus relations of arbitrary matching to sample in a ‘‘symmetry-emergent’’ chimpanzee. J Exp Anal Behav 59:215–229
Tornick JK, Gibson BM, Kispert D, Wilkinson M (2011) Clark’s nutcrackers (Nucifraga columbiana) use gestures to locate hidden food. Anim Cogn 14:117–125
Waite TA, Reeve JD (1995) Source-use decisions by hoarding gray jays: effects of local cache density and food value. J Avian Biol 26:59–66
Zucca P, Milos N, Vallortigara G (2007) Piagetian object permanence and its development in Eurasian jays (Garrulus glandarius). Anim Cogn 10(2):243–258
Acknowledgments
We thank Robert Drugan, Winsor Watson, Michelle Pellissier Scott, and Robert Mair for their advice and support; Daniel Landry, Lindsey MacMillan, Alex Politis, and Erin Cuneo for testing and animal care. Funding was provided by Summer Teaching Assistant Fellowships and a Dissertation Year Fellowship though Graduate School at the University of New Hampshire.
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Tornick, J.K., Gibson, B.M. Tests of inferential reasoning by exclusion in Clark’s nutcrackers (Nucifraga columbiana). Anim Cogn 16, 583–597 (2013). https://doi.org/10.1007/s10071-013-0595-1
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DOI: https://doi.org/10.1007/s10071-013-0595-1