ࡱ>  bjbj ;% /////CCC8{|<C"533"UUUN.$R44444447:j4/  4//UU4$%%% /U/U4% 4%%V,@E-U@rgC!, 44<"5,T:?$:E-"g-(://fvT%0Dtfff44$fff"5 :fffffffff :  How do African grey parrots (Psittacus erithacus) perform on a delay of gratification task? SarahJane Vick1, Dalila Bovet2 and James R. Anderson1 1 Department of Psychology, 鶹ýAV, Scotland. 2 Laboratoire dEthologie et de Cognition Compares, Universit Paris X-Nanterre, France ABSTRACT Humans and other animals often find it difficult to choose a delayed reward over an immediate one, even when the delay leads to increased pay-offs. Using a visible incremental reward procedure, we tested the ability of three grey parrots to maintain delay of gratification for an increasingly valuable food pay-off. Up to 5 sunflower seeds were placed within the parrots reach, one at a time, at a rate of 1 seed per second. When the parrot took a seed the trial was ended and the birds consumed the accumulated seeds. Parrots were first tested in daily sessions of 10 trials and then with single daily trials. For multiple trial sessions, all three parrots showed some limited improvement across 30 sessions. For single trial sessions, only one parrot showed any increase in seed acquisition across trials. This parrot was also able to consistently obtain two or more seeds per trial (across both multiple and single trial conditions) but was unable to able to wait 5 seconds to obtain the maximum number of seeds. This parrot was also tested on a slower rate of seed presentation, and this significantly reduced her mean seed acquisition in both multiple and single trial conditions, suggesting that both value of reward available and delay duration impact upon self-control. Further manipulation of both the visibility and proximity of seeds during delay maintenance had little impact upon tolerance of delays for both parrots tested in this condition. This task demanded not just a choice of delayed reward but the maintenance of delayed gratification and was clearly difficult for the parrots to learn; additional training or alternative paradigms are required to better understand the capacity for self-control in this species. KEY WORDS: Parrots; self-control; delay maintenance; cognitive ornithology ESM: http://www.springerlink.com/content/r7qjxg7364684733/10071_2009_Article_284_ESM.html INTRODUCTION Humans and other animals often find it difficult to suppress the urge for immediate gratification, even if waiting will lead to greater overall rewards. Making such inter-temporal decisions may be difficult because time is often related to probability; there is some uncertainty about future outcomes as compared to opting for immediate gratification (see Kalenscher and Pennantz 2008). Rewards may become subjectively less valuable the longer the delay, and this temporal discounting means that rewards are not be maximized. Of course, an animals ecology may largely determine the ability to delay gratification and plan for the future, as shown most dramatically in caching birds (e.g. Raby et al. 2007). In many species and contexts, impulsivity may be the best strategy and it has been argued that in more ecologically valid contexts (outside the laboratory setting) a preference for short term rewards may be adaptive (Kalenscher and Pennantz 2008). Nonetheless, the ability to monitor and switch responses would contribute to increased behavioural flexibility in relation to resource exploitation and competition (Murray et al. 2005). For example, chimpanzees have been shown to engage in more hunting, a high-risk strategy with potentially high pay-offs, when fruit is more abundant; this may seem counterintuitive, but when a hunt is unsuccessful the costs are offset by a readily available alternative (Gilby and Wrangham 2007). A key aspect of making these types of decisions is the need to inhibit response biases, such as taking immediate rewards (Ainslie 1974), or consistently choosing the largest reward visible (Boysen and Bernston 1995). Evidence of reward optimization on experimental tasks, such as delay of gratification (choosing to wait for a larger reward) or reversed contingency (choosing the smaller amount of two presented in order to receive the larger reward), allows us some insight into the cognitive control of impulsivity (Logue 1988). In most delay of gratification tasks, once an initial choice is made the outcome is fixed; depending on their response, the individual either receives a small reward immediately or a larger (or preferred) reward after a delay (delay-choice tasks; Ainslie 1974). As the duration of the delay increases, the value of the preferred reward diminishes in relation to the immediate or less preferred reward; when a delay threshold is reached, individuals opt for the smaller or less preferred proximal reward over distal rewards (Abeyesingh et al. 2005; Rosati et al. 2007; Stevens et al. 2005). An alternative approach focuses upon the ability to maintain delay of gratification (Mischel 1974); the subject can respond at any point, and the delayed rewards value may increase with the passing of time (delay maintenance tasks). This seems to be a more ecologically valid approach, as it requires not only to a choice of strategy, but also the maintenance of self-control over time. For example, human children were offered a preferred reward after a fixed delay (15 minutes) or an immediate but less preferred reward at any point; they were more likely to wait for the preferred reward when either given a distraction or the rewards were not visible during delays (Mischel 1974). Pigeons tested on a variant of the Mischel paradigm waited for access to preferred food, by resisting pecking a key that allowed immediate access to a less valued food; performance improved when the food items were not visible, or a distractor key was provided, whereas waiting was reduced when the salience of the food items was enhanced (Grosch and Neuringer 1981). However, although the pigeons could opt for the less preferred reward at any time in the trial, the reward value for both pecking and waiting was fixed at 3 seconds of access to grain, resulting in a dichotomous choice task with fixed rewards (as in a standard delay-choice task). Using similar fixed reward values, chimpanzees were able to wait several minutes to exchange a small piece of cookie for a larger piece, waiting longer for much larger pieces (Dufour et al. 2007) but capuchins tested with a similar task were only able to wait around 20 seconds (Ramseyer et al. 2005). However, chimpanzees, and to a lesser extent rhesus monkeys, can also refrain from taking an increasingly valuable reward; desirable food items were added to an accessible container until the primate takes the accumulated food items and the trial ends (delays of up to 30 seconds were recorded for rhesus and 11 minutes for chimpanzees; Beran and Evans 2006; Evans and Beran 2007). This task is cognitively demanding, as the amount available increases so should the difficulty of inhibiting behavioural responses. We know little about species differences on this measure of impulsivity and self-control, or how effective these methods are with non-primates; it is not clear what mechanisms underlie performance or how these relate to socio-ecological factors and species typical patterns of self control. Among avian species, corvids and parrots have received particular attention concerning their learning and cognition (Pepperberg 1999; Emery 2006). Having a large cortical area, relative to both the rest of the brain and to body size, is associated with increased cognitive abilities. Relative brain size and cognitive abilities in birds have been examined in relation to both social and mating systems, though it remains unclear which selection pressures best explain the observed differences between species (Emery et al. 2007). A larger cortical area allows for cognitive flexibility which is adaptive in terms of the capacity to better respond to environmental challenges. For example, birds with relatively larger brains have been shown to have reduced adult mortality (controlling for factors such as body size, habitat, migratory behaviours, mating strategies and parental care, Sol et al. 2007). At the neuroanatomical level, executive functions which underlie the inhibitory control of behaviour are served by the mammalian pre-frontal cortex (PFC). It has been proposed that the nidopallium caudolaterale (NCL) area in the bird brain has a similar relative size to the primate forebrain, and it appears to serve analogous functions (Emery 2006; Gntrkn 2005; Jarvis et al. 2005; Reiner 1986). For example, the activity of single neurons in the pigeon NCL was mediated by both reward delay and size of rewards (Kaleschner and Pennartz 2008, but see also Izawa et al. 2005). African grey parrots (Psittacus erithacus) are known to have advanced cognitive abilities, including impressive use of labels and the flexible categorization of objects according to different characteristics (reviewed in Pepperberg 1999) and relatively large brains, suggesting a repertoire characterized by behavioural flexibility. They have previously shown an ability to discriminate between amounts (continuous and discrete arrays including up to six items, Pepperberg and Gordon 2005; Pepperberg 2006; see also Al An et al. 2009). However, they have never been assessed on a task which requires the ability to delay of gratification, a task which requires the discrimination of differing amounts over time. METHODS Subjects: The subjects were Lo (male, 47m), Shango (male, 24m) and Zo (female, 47m). All three parrots were captive bred and hand reared (by DB) from 3 months of age. Shango is dominant over Zo but subordinate to Lo, while there is a less clear dominance relationship between Zo and Lo. They have been trained and tested on a variety of cognitive tasks, including label acquisition (Giret et al. submitted), object-permanence tasks, counting, and use of experimenter given cues in an object choice task (Giret et al. 2009). They were housed together in a well-furnished aviary (340 x 330 x 300cm, maintained at 25C). Fruit, vegetables and parrot formula (Nutribird A21) were given to the parrots once a day. The sunflower seeds used for testing were highly preferred dietary treats; during training and testing the parrots had ad libitum access to their regular food (Nutribird P15) and water. Apparatus: The apparatus was a laminated cardboard tray (28cm x 40cm). For the 10 trial sessions, each parrot was videotaped during one session per each week using a Canon mini-DV camera. Training : Parrots can be neophobic and so they were first habituated to accepting seeds presented on the tray (this took the following number of 10 minute sessions for each parrot: Lo = 1, Shango = 1, Zo = 7). For training sessions, the experimenter stood in front of the parrots perch and placed 5 seeds in the centre of the tray and then visibly moved each seed forward, to near the front edge of the tray, at a rate of approximately 1 seed per second. The tray was held about 5cm beneath the parrots perch. Once all seeds were in place, the tray was raised level with the perch and the parrot was allowed to eat the seeds. The parrots were given demonstration sessions (4-10 trials each) until they were able to wait on the perch for the tray to be raised, rather than moving away by climbing to another part pf their perch (sessions: Lo = 4, Shango = 6, Zo = 2). Testing: The birds sat upon a perch (1.5 m high and 1m from the door to their aviary). The other parrots were either moved to a large holding cage in another area of the aviary, or taken into another familiar room. During testing, the parrots were free to fly around the aviary, so their participation was voluntary. In the first condition, parrots were tested in daily 10- trial testing sessions before subsequently being tested on a single daily test trial. In the latter trials the cost of acting impulsively were greater as there were no further opportunities to gain seeds. Finally, we modified our procedures to examine the impact of both food visibility and proximity on self control. For multiple trial sessions, each session started with a demonstration trial, as described for training trials above with seeds placed before the tray was raised to be within reach, followed by 5 test trials, a mid-session demonstration trial (omitted for Zo after session 8), 5 more test trials, and a final demonstration trial. Demonstrations were used to facilitate learning of the number of seeds potentially available for each trial but also served to assess motivation to gain seeds during each session. Test trials started with 5 seeds in the centre of the tray, which was held just below the perch and within the parrots reach. The seeds were out of reach until they were individually moved forward and placed at the front of the tray. The experimenter moved the seeds forward one by one, stopping the trial as soon as the parrot took a seed. The experimenter then waited (using her hand to shield any remaining seeds) until the parrot had removed the presented seeds, before leaving the testing area for a 30 second inter-trial interval. As the number of trials and inter-trial intervals were fixed; the failure to delay gratification led to reduced seed intake across the session. Lo participated in fewer than 5 trials in two test sessions and these data are excluded from analyses. Given that even without waiting the parrots would obtain one seed on each of the 10 trials and 15 more on the demonstration trials, following testing with the 10-test trial sessions described above, we subsequently presented the parrots with a single daily trial so that the relative cost of taking the first seed was higher (6 seeds obtained in total instead of the maximum of 10 available). The same general procedure was used for the single trial session, with the test trial preceded by a single demonstration trial. This new testing regime commenced 6 months after the completion of the 10-trial sessions. In order to examine whether food visibility and proximity impacted on ability to maintain delay of gratification, the procedure was then modified in two ways. To reduce the visibility and salience of all 5 seeds being visible on the tray from the start of each trial, the seeds were kept out of view in a small dish held under the presentation tray. Seeds were then individually placed as before, at a rate of approx 1 seed per second. To reduce the proximity of the seeds to the parrot during the delay, we introduced a small bell, which the parrots had previously been trained to ring in order to gain seeds. There were 10 trials in addition to the initial demonstration trial within a session and one session was conducted daily. The tray was held out of reach (approximately 20cm beneath the perch) until the bell was rung; the parrots needed to refrain from ringing the bell, rather than refrain from taking seeds within reach as in previous test trials. The parrots were still able to gain access to the seeds at any point within the trial. When the bell was rung, the tray was immediately raised and the parrot was allowed to consume the seeds which had accumulated. The experimenter then left the test room for a 30 sec inter trial interval as before. If the parrot rang the bell before any seeds were placed (this sometimes occurred, especially during initial sessions), the empty tray was raised for 5 seconds and then lowered before the trial continued as above. If the parrot failed to ring the bell within 5 seconds of all 5 seeds being placed, the trial was ended and there was an ITI of 30 seconds before the trial was repeated (this occurred on only 7 trials in total). The first trial in each session was a demonstration trial, with all 5 seeds in place before the tray was presented, the tray was held 20 cm below the perch and it was raised as soon as the parrot rang the bell; the parrot was then allowed to consume the accumulated seeds. Shango completed 23 sessions and Zo 28 sessions, but Lo failed to learn to use the bell so he was not tested in this new condition. RESULTS Multiple trial sessions: The parrots consumed most of the seeds available on the demonstration trials (mean number of seeds: Lo = 4.95, Shango = 4.98, Zo = 4.99) indicating good motivation during testing. Lo particpated in 29 sessions, Shango in 32 and Zo in 26 with an additional 5 sessions at a slower rate of seed presentation. There was considerable individual variation in performance on test trials (see Figure 1). In order to examine improvement across sessions, the number of seeds obtained was correlated with session number (Pearson correlation, two tailed). All three parrots obtained more seeds in later sessions: for Zo, r = 0.67, n = 26, p < 0.01; Lo r = 0.74, n = 29, p <0.01; Shango, r = 0.51, n= 32, p <0.01. In their last 5 sessions, the mean number of seeds obtained per trial was 2.62 for Zo, 1.12 for Shango and 1.43 for Lo; paired t-tests compared first 5 and last 5 trials and showed that more seeds were obtained in later trials by all three parrots (Zo t(4) = 7.06 p < 0.01; Lo t (4) = 3.2, p = 0.03; Shango t(4) 3.67 p = 0.02) . However, Shango took the first seed presented on the majority of trials (272/320 = 85%), as did Lo (180/290 trials, 62%). In contrast, Zo took the first seed on only a small proportion of trials, mostly within the first three sessions (43/260 = 16.5%). Although Zo was usually able to wait for more than one seed to be placed, she rarely waited for all five seeds (8/260 trials, 3.1%). For Zos final 5 sessions, seeds were placed at the slower rate of 1 seed every 2 seconds, in order to determine whether number of seeds or duration of the delay acted as a constraint on her performance. There was a significant difference between the mean number of seeds obtained on the final 5 regular rate sessions (mean = 3.2) compared to the 5 slower sessions (mean = 2.6, t(4) = 3.34, p = 0.029). Single trial sessions: During initial sessions with the single daily trial (sessions 1-14) neither Zo nor Lo took all the seeds available on the demonstration trial, suggesting that they were uncertain of the procedure after the break of several months between conditions. Trials 1-14 were therefore excluded from their analyses (as were three other trials in which the seeds were not taken during demonstration trial, see Figure 2b and 2c). There was a significant correlation between trial number and number of seeds obtained for Zo (r = 0.66, n = 43, p <0.01) but there was no improvement across sessions for Lo (r = -0.19, n = 44, p = 0.21) or Shango (r = -0.031, n = 60 p = 0.81). The mean number of seeds obtained on these single test trials was 1.1 for Shango, 1.1 for Lo and 2.1 for Zo (see Figure 2A-C). Paired sample t-tests comparing the first and last five trials again showed that Zo obtained significantly more seeds in the final sessions (t (4) = -6.53, p<0.01; t tests could not be conducted for Shango and Lo as both took the first seed on all 10 trials). Zo was again tested at a slower presentation rate (1 seed every 2 seconds for the final 12 trials) and her mean was 1.8 seeds per trial, significantly less than her final 12 one-seed per-second trials, mean = 2.5 (t (11) = 2.96, p = 0.01). Modified visibility and proximity sessions: On trials in which seeds remained out of view until placement and which also required the ringing of a bell for access to placed seeds, Zo obtained a mean of 1.9 seeds over 29 sessions and Shango obtained a mean of 1.7 seeds over 27 sessions. There was no correlation between number of seeds and session for Zo (r = -0.27, N = 28, p = 0.162) or Shango (r = - 0.249, N = 26, p = 0.251), that is, performance did not improve across sessions. DISCUSSION The results of this study indicate that parrots found maintaining a delay of even a few seconds difficult, at least on this specific task. There was considerable individual variation in their ability with one parrot (Zo) consistently able to wait 2 or 3 seconds to gain more than one seed, regardless of testing conditions. Although both Lo and Shango showed a slight improvement during multiple trial sessions they were unable to reach a mean of 2 seeds per trial within a session. Unlike Zo, these two did not show any improvement across the single trial condition and manipulating the visibility and proximity of the seeds did not enhance tolerance of delays across sessions for the two parrots tested in this condition. It is important to note that all three parrots had opportunities to learn that a short delay led to more seeds, for example, all three experienced test trials on which they obtained more than the first seed due to brief inattention (due to self-grooming or some distraction); while Zo seemed to quickly learn from these errors how to gain additional seeds, the two males did not. Although the delays used here were only a few seconds in duration, this method of assessing self-control is particularly challenging for a number of reasons. In the first two conditions, the potential rewards were visible throughout the trials, operant responses were not used to indicate choices (e.g. key peck, Grosch and Neuringer 1981), and the birds could access an increasingly attractive reward at any point within a trial. In addition to the duration of delays, the visibility of rewards can affect the prepotency of the stimuli, as in reverse-contingency tasks (e.g. Kralik et al. 2002), and impact upon delay maintenance (Grosch and Neuringer 1981; Mischel 1974). While reducing proximity and visibility had little impact upon Zos performance, Shango did seem to show some improvement, although not across testing sessions. The time needed to reach and ring the bell may have been sufficient to slow down his response times and furthermore, there were no behavioural indications that he was trying to maintain delays; indeed he often rang the bell before any seeds were in place. Overall, the manipulation of visibility and proximity did not serve to enhance delay of gratification in these two parrots. The parrots always gained the first seed, so that the relative cost of impulsivity was reduced as compared to the all-or-none contingencies often used in reverse contingency tasks (e.g. Silberberg and Fujita 1996). However, presenting only one trial a day did not increase motivation to wait (Beran and Evans 2006; Mischel 1974); results were comparable across conditions. This indicates that the failure to wait was not due to a lack of motivation due to the overall number of rewards available within a session, but instead indicates a failure to inhibit responses when presented with desirable food items. The outcome of slowing down rate of presentation (in Zos final sessions with both multiple and single trials) suggests that although delay length is a limiting factor, the value of the reward also influences delay maintenance; Zos mean seed acquisition was not reduced in direct relation to the temporal delay for each seed presentation. All conditions, even single trial sessions, were preceded by a demonstration trial on which the parrots obtained 5 seeds. The aim of the demonstration trials was to allow the parrots to learn that the amount of food available increased steadily on each trial but on these trials. These trials did not allow the birds to remove any seeds until the tray was raised and as a result may have instead encouraged them to take seeds as soon as the tray was presented on test trials too; removal of these demonstration trials may have facilitated improved performance. However, demonstration trials were also important in assessing motivation during test sessions and it could also be argued that gaining 5 seeds immediately prior to test trials should have reduced arousal in response to seed presentation and enabled greater tolerance of delays. Finally, the demonstration trials also showed that these parrots are capable of quickly taking a few seeds in their beaks; indicating that the time needed to take and consume seeds should not have had a negative impact on their ability to gain more than the minimum of one seed during test trials. Demonstrating the task with another person in the same role the parrot (e.g. triadic method, Pepperberg 1999) or with a rival parrot (for example, allowing Lo and Shango to observe Zo) might be a more effective may of informing the parrots about the nature of this task. However, it is unclear how social relationships and the more competitive dimension (e.g. Hare 2001) would impact upon the task; competition may instead facilitate impulsive responses rather than increasing the motivation to maintain the delay of gratification. The presence of distractor objects or activities may also facilitate increased self-control (Evans and Beran 2007; Grosch and Neuringer 1981; Mischel 1974); comparative data across species on the impact of these various factors would further our understanding of self-control. Only primates have been tested with the maintenance of delayed gratification methodology used here; although chimpanzees were able to wait for minutes, rhesus monkeys waited for less than 30 seconds (Beran 2007; Evans and Beran 2007). For comparison, on delay choice tasks, the threshold for opting for small immediate rewards is usually less than 1 minute and often a matter of much less even in primates, for example, less than 20 seconds for marmosets and less than 10 seconds for tamarins (Stevens et al. 2005). There was considerable individual variation in performance as also reported for other species tested on delay-choice (e.g. Ainslie 1974), reverse contingency (e.g. Anderson et al. 2004) and delay maintenance tasks (e.g. Evans and Beran 2007). It is unclear whether the variation is due to temperament or other factors such as sex, age or dominance. Status is particularly interesting in relation to self-control; subordinates may be too anxious to delay gratification due to past experiences of losing resources, or they may exercise restraint more easily in the presence of dominant individuals (e.g. Menzel 1974). In these parrots, dominance does not readily explain the pattern of performance across individuals, nor does rearing, as all birds have been raised in the same manner. However, age may go some way to explain Shangos inability to wait; he gained fewer seeds than the older parrots in all conditions. Longitudinal data would be useful to examine this possibility more fully but given that he showed little improvement across 1 year of testing it seems that age may not be the best predictor of self control. In addition to individual differences in seed acquisition, there were other clear behavioural differences in responses (see Electronic Supplementary Materials 1-3 for video clips of each parrot during trials). Shango leaned forward towards the tray, rather than wait upright as the seeds were presented, and he was also very active during the inter-trial interval (often flying away when the experimeter left the room before returning to the perch ready for the next trial). Lo showed no particular behavioural responses during trials. Zo typically approached and withdrew from the tray during seed placement, indicating her difficulty in overcoming the impulse to take available seeds. Similar strategies were not seen in the two males suggesting that these behaviours correlate with delay tolerance; this could be explored further with the addition of distractor objects during testing, for example (Evans & Beran 2007). Social and ecological factors shape competition levels between individuals, and these may result in differences in performance on self-control tasks across species, currently masked by different testing paradigms or individual variation and small sample sizes. For example, it has been suggested that the patience necessary for gum-feeding underlies better performance on a delay of gratification task in common marmosets as compared to cotton top tamarins (Stevens et al. 2005). Recent experimental work also suggests that feeding ecology in closely related primate species can determine willingness to take risks to gain larger rewards. Bonobos rely more heavily on more spatially and temporally consistent food sources than chimpanzees; when presented with a task involving a choice between a fixed and an uncertain option (either larger or smaller than the fixed reward), chimpanzees are far less risk averse and prefer the uncertain reward (Heilbronner et al. 2008). Chimpanzees, bonobos and humans tested on a delay choice task also showed different sensitivities to delays suggesting that species differences are not task specific (Rosati et al. 2007). Surprisingly little is known about the socio-ecology of wild African grey parrots, but there is no indication that their foraging entails any need to delay gratification. Parrots pair bond and show marked competition in their social interactions, as evidenced by the success of the triadic Model/Rival method, in which the parrot competes with a human during word acquisition training (Pepperberg 1999; but see Giret et al. submitted). 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Trends in Neurosci 9: 298-300 Rosati AG, Stevens JR, Hare B, Hauser MD (2007) The Evolutionary Origins of Human Patience: Temporal Preferences in Chimpanzees, Bonobos, and Human Adults. Curr Biol 17: 16631668 DOI 10.1016/j.cub.2007.08.033 Silberberg A, Fujita K (1996) Pointing at smaller amounts in an analogue of Boysen and Bernstons (1995) procedure. J Exp Anal Behav 66: 143-147 Sol D, Szkely T, Liker A, Lefebvre L (2007) Big-brained birds survive better in nature. Proc R Soc B274: 763-769 Stevens JR, Hallinan EV, Hauser MD (2005) The ecology and evolution of patience in two new world monkeys. Biol Lett 1: 223-226. DOI: 10.1098/rsbl.2004.0285 Figure 1. Graph showing mean number of seeds obtained in each test session for each parrot (maximum available 5). The final 5 trials shown for Zo were presented at a slower rate.  Figure 2a-c: Graphs showing mean number of seeds obtained in each single test trial and demonstration trial session for each parrot (maximum available for both is 5). The final 12 trials shown for Zo were presented at a slower rate.    ELECTRONIC SUPPLEMENTARY MATERIAL http://www.springerlink.com/content/r7qjxg7364684733/10071_2009_Article_284_ESM.html ESM1: Lo showed no obvious behavioural strategy during trials. ESM2: Shangos behaviour indicated that he found waiting difficult; he would learn forward as soon as the tray was presented. ESM3: During the task, Zo would approach and withdraw from the seeds while waiting suggesting that there was conflicting motivation due to a prepotent desire to take the seeds. ACKNOWLEDGEMENTS: This study was funded by a visiting researcher programme at the University of Nanterre and conducted during research leave granted to S-JV by the 鶹ýAV. We would like to thank all the staff and students at the Laboratoire dEthologie et de Cognition Compares. We also thank our anonymous reviewers for their constructive comments on this manuscript. 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