Territorial dynamics of Mexican Ant‐thrushes Formicarius moniliger revealed by individual recognition of their songs

The ability to monitor interactions between individuals over time can provide us with information on life histories, mating systems, behavioural interactions between individuals and ecological interactions with the environment. Tracking individuals over time has traditionally been a time‐ and often a cost‐intensive exercise, and certain types of animals are particularly hard to monitor. Here we use canonical discriminant analysis (CDA) to identify individual Mexican Ant‐thrushes using data extracted with a semi‐automated procedure from song recordings. We test the ability of CDA to identify individuals over time, using recordings obtained over a 4‐year period. CDA correctly identified songs of 12 individual birds 93.3% of the time from recordings in one year (2009), while including songs of 18 individuals as training data. Predicting singers in one year using recordings from other years indicated some instances of variation, with correct classification in the range of 67–88%; one individual was responsible for the great majority (66%) of classification errors. We produce temporal maps of the study plot showing that considerably more information was provided by identifying individuals from their songs than by ringing and re‐sighting colour‐ringed individuals. The spatial data show site fidelity in males, but medium‐term pair bonds and an apparently large number of female floaters. Recordings can be used to monitor intra‐ and intersexual interactions of animals, their movements over time, their interactions with the environment and their population dynamics.     

The influence of kinship and dominance hierarchy on grooming partner choice in free-ranging <Emphasis Type="Italic">Macaca mulatta brevicaudus</Emphasis>

In group-living animals, individuals do not interact uniformly with their conspecifics. Among primates, such heterogeneity in partner choice can be discerned from affiliative grooming patterns. While the preference for selecting close kin as grooming partners is ubiquitous across the primate order, the selection of higher-ranking non-kin individuals as grooming partners is less common. We studied a group of provisioned rhesus macaques (Macaca mulatta brevicaudus) on Hainan Island, China, to examine rank-related benefits of grooming exchanges and the influence of kin relationships. We tested four hypotheses based on Seyfarth’s model: (1) there will be kin preference in grooming relationships; (2) grooming between non-kin individuals will be directed up the dominance rank; (3) grooming between non-kin individuals will reduce aggression from higher-ranking ones; and (4) non-kin individuals will spend more time grooming with adjacent ranked ones. We found that grooming relationships between kin individuals were stronger than those between non-kin individuals. For non-kin relationships, lower-ranking individuals received less aggression from higher-ranking ones through grooming; a benefit they could not derive through grooming exchanges with individuals related by kinship. Individuals spent more time grooming adjacent higher-ranking non-kin individuals and higher-ranking individuals also received more grooming from non-kin individuals. Our results supported Seyfarth’s model for predicting partner choice between non-kin individuals. For relationships between kin individuals, we found results that were not consistent with prediction for the exchanges of aggression and grooming, indicating the importance to control for the influence of kinship in future studies.     

东方田鼠社群气味对家族群成员个体觅食行为的影响

东方田鼠家族群成员个体的觅食行为是否因食物斑块存有家族群自身及非亲缘家族群气味而发生变异,进而影响其摄入率。在新鲜马唐叶片构建的均质密集食物斑块上,分别配置家族群自身巢垫物及非亲缘家族群巢垫物作为社群气味,测定东方田鼠家族群在食物斑块觅食时,其成员个体觅食行为的序列过程及参数,检验家族群自身气味及非亲缘家族群气味对成员个体觅食行为的影响。结果表明,家族群自身气味能显著地缩短本群成员个体的觅食决定时间,通过减少成员个体的嗅闻及直立扫视动作时间比例、增大一般扫视、盯视及静听动作时间比例,降低觅食中断时间比例,提高其摄入率;而非亲缘家族群气味则能显著地延长家族群成员个体的觅食决定时间,通过增大家族群成员个体的嗅闻和一般扫视动作时间比例、减小直立扫视、盯视及静听动作时间比例,增大觅食中断时间比例,降低其摄入率。结果揭示,熟悉的社群气味会促使觅食活动中的家族群成员个体,在监测环境风险时,将精力更多地用于观察和监听群内其他成员个体的行为及其发出的警报信息,以便在有效规避环境风险的同时减缓个体间因干扰性竞争对觅食活动所造成的不利影响;而陌生的社群气味会迫使成员个体,将精力由依赖群内其他成员个体的行为转向凭借自身直接警觉周围环境。     

Why time-limited individuals can make populations more vulnerable to disturbance

Individual variation in disturbance vulnerability (i.e. the likelihood that disturbance negatively affects an individual's fitness) can affect how disturbance impacts animal populations, as even at low disturbance levels some individuals could be severely affected and die. Individual variation in vulnerability can arise due to different responses to disturbance. We propose a new hypothesis that even when individuals respond similarly to disturbance, time-limited individuals are more at risk that their condition deteriorates since they have limited ability to extend their foraging time to compensate for disturbance. We investigate this ‘time-limitation hypothesis' both empirically and mathematically by studying how individuals that differ in their average foraging time (presumably due to differences in foraging efficiency) are affected by disturbance. We used tracking data of 22 wintering Eurasian oystercatchers Haematopus ostralegus to compare time budgets between disturbed and undisturbed tidal periods. In three tidal periods with severe disturbance by transport airplanes, more than a third of the variation in additional flight time and foraging time loss was explained by individual differences. Inefficient individuals that foraged longer in undisturbed tidal periods experienced higher costs in disturbed tidal periods, since they lost more foraging time. We next used an analytical energy balance model to study how time-limited individuals differed in their maximum disturbance thresholds. Both our theoretical model and empirical study suggest that inefficient individuals in a time-limited environment may be unable to increase their foraging time to compensate for the effects of disturbance. Consequently, the magnitude of individual variation in time budgets strongly determines what proportion of the population is at risk that their condition deteriorates due to disturbance. Our hypothesis implies that, when assessing disturbance effects on a population, it is not only important to consider individual variation in disturbance responses, but also variation in time budgets that determine the consequences of disturbance.     

Genotyping faeces links individuals to their diet

The detection of individual variation in foraging behaviour within wild mammal populations requires large sample sizes and relies on the multifold re-sampling of individuals. However, limits for observational studies are posed by the rarity and nocturnal or otherwise elusive habits of many mammals. We propose that the detection of foraging variation within populations of mammals may be facilitated if conventional diet analysis from faeces is combined with DNA-based individual identification methods using "genetic fingerprinting" from faeces. We applied our approach to a coyote ( Canis latrans ) population, and showed how individuals may vary from one another in their diet profiles. Two main groups of coyotes were distinguished on the basis of their relative use of small mammals and "other vertebrates" as primary food sources, and these two groups were further subdivided on the basis of their relative use of "other vertebrates" and fruit as secondary food sources. We show that, unless a faecal sampling scheme is used that maximizes the number of different individuals included in a survey, individual foraging variation that is left unaccounted for may result in downwardly biased faecal diet diversity estimates. Our approach allows the re-sampling of individuals over time and space, and thus may be generally useful for the testing of optimal foraging theory hypotheses in mammals and also has conservation applications.     

Toward an individual-level understanding of vigilance: the role of social information

A gregarious lifestyle affords the benefit of collective detectionof predators through the many-eyes effect. Studies of vigilanceare generally concerned with exploring the relationship betweenvigilance rates and group size. However, a mechanistic understandingof the rules individual animals use to achieve this group-levelbehavior is lacking. Building on a previous modeling approach,we suggest that individuals reconcile their own private informationagainst the social information they receive from their groupmates in order to decide whether to feed or be vigilant at anyone time. We present a novel modeling approach utilizing a Markovchain Monte Carlo process to describe the transition betweenvigilant and nonvigilant states. Many of our assumptions arebased qualitatively on recently published experimental observations.We vary the amount of social information and the fidelity withwhich individuals process this information and show that thishas a profound effect on the individual vigilance rate, theindividual vigilant bout length, and the proportion of vigilantindividuals at any one time. A wide range of group-level vigilancepatterns can be obtained by varying simple behavioral characteristicsof individual animals. We find that generally, increasing theamount of, and sensitivity to, social information generatesa more cooperative vigilance behavior. This model potentiallyprovides a theoretical and conceptual framework for examiningspecific real-life systems. We propose analyzing individual-baseddata from real animals by considering their group to be a connectednetwork of individuals, with information transfer between them.     

Experimental Density-Related Emigration in the Cranberry Fritillary Boloria aquilonaris

Studies on sedentary butterflies often show that most individuals cover only short distances and rarely leave their original patch. An important question for metapopulation dynamics and conservation is “When and why do sedentary species disperse?” To imitate high population densities I harassed individuals of the sedentary butterfly Boloria aquilonaris with a dummy and recorded the time that passed until they emigrated from their original bogpatch of 800 m². Harassed individuals emigrated significantly sooner than unharassed ones. Repeated harassment following their return to the marked patch led to an increase in the residence times of these individuals outside the patch. Individuals receiving a potentially detrimental stimulus (e.g., harassment) are more likely to emigrate sooner than other individuals. The results support the hypothesis that emigration is density dependent in this butterfly, such that gene flow and colonization may be episodic.     

Causes of homing behaviour in a group living reef fish

Homing is a common feature in fish, where for instance many freshwater species return to their place of birth to reproduce. Homing in marine species is, however, less understood. Such homing behaviour may be explained by fitness advantages from staying in a known physical environment as well as a known social environment. Cardinalfish of the family of Apogonidae are small, schooling fish, common in shallow waters in temperate and tropical seas. They form apparently stable group structures both in space and time and it has been shown that they may return to their home site after being experimentally removed up to several kilometres. In order to disentangle whether this homing behaviour in one such cardinalfish species, the Banggai cardinalfish, is driven by preference for the home locality or their original social group, I performed a two part field experiment. Firstly, individuals were allowed to choose between known individuals from their original group and unknown individuals from another group. Secondly, individuals were allowed to choose between their original location inhabited by unknown individuals from another group, and a new location inhabited by individuals from their original group. I discuss the evolution of homing behaviours in fish in light of these experiments.     

Human matching behavior in social networks: an algorithmic perspective

We argue that algorithmic modeling is a powerful approach to understanding the collective dynamics of human behavior. We consider the task of pairing up individuals connected over a network, according to the following model: each individual is able to propose to match with and accept a proposal from a neighbor in the network; if a matched individual proposes to another neighbor or accepts another proposal, the current match will be broken; individuals can only observe whether their neighbors are currently matched but have no knowledge of the network topology or the status of other individuals; and all individuals have the common goal of maximizing the total number of matches. By examining the experimental data, we identify a behavioral principle called prudence, develop an algorithmic model, analyze its properties mathematically and by simulations, and validate the model with human subject experiments for various network sizes and topologies. Our results include i) a [Formula: see text]-approximate maximum matching is obtained in logarithmic time in the network size for bounded degree networks; ii) for any constant [Formula: see text], a [Formula: see text]-approximate maximum matching is obtained in polynomial time, while obtaining a maximum matching can require an exponential time; and iii) convergence to a maximum matching is slower on preferential attachment networks than on small-world networks. These results allow us to predict that while humans can find a "good quality" matching quickly, they may be unable to find a maximum matching in feasible time. We show that the human subjects largely abide by prudence, and their collective behavior is closely tracked by the above predictions.     

Evolving robots able to integrate sensory-motor information over time

Summary We will discuss in which conditions we can expect the emergence of agents able to integrate sensory-motor information over time and later use this information to modulate their behavior accordingly. In doing so we will illustrate the problems that these agents should be able to solve and the processes that might lead to a transition from simple agents that only rely on sensory information or on their internal dynamic to agents that are also able to integrate information over time. The analysis of evolved individuals revealed that: (1) individuals able to integrate information over time rely on mixed strategy in which basic sensory-motor mechanisms are complemented and enhanced with additional internal mechanisms; (2) evolved individuals tend to rely on partial, action-oriented, and action-mediated representations of the external environment.     

Reconstructing pedigrees: a combinatorial perspective

A pedigree is a directed graph that displays the relationship between individuals according to their parentage. We derive a combinatorial result that shows how any pedigree-up to individuals who have no extant (present-day) ancestors-can be reconstructed from (sex-labelled) pedigrees that describe the ancestry of single extant individuals and pairs of extant individuals. Furthermore, this reconstruction can be done in polynomial time. We also provide an example to show that the corresponding reconstruction result does not hold for pedigrees that are not sex-labelled. We then show how any pedigree can also be reconstructed from two functions that just describe certain circuits in the pedigree. Finally, we obtain an enumeration result for pedigrees that is relevant to the question of how many segregating sites are needed to reconstruct pedigrees.     

Time is money. Waiting costs explain why selection favors steeper time discounting in deprived environments

Individuals exposed to deprivation tend to show a characteristic behavioral syndrome suggestive of a short time horizon. This pattern has traditionally been attributed to the intrinsically higher unpredictability of deprived environments, which renders waiting for long term rewards more risky (i.e. collection risks are high). In the current paper, based on a simple dynamic life history model, we show that a significant portion of individuals' propensity to discount future rewards might have a completely distinct origin. Upon collecting a resource, individuals have the opportunity to accumulate “capital” (e.g. grow muscular tissue, build a protective shelter, buy a car, etc.), which eventually increases their productivity and/or their chances of survival. As a result, delaying the collection of a resource creates an opportunity cost in the sense that during the waiting time, the benefits otherwise generated by the increment in capital are lost. These forgone benefits are independent of collection risks and constitute waiting costs per se. Using optimal control theory we show that these costs can lead to the evolution of short time horizons even in the complete absence of collection risks. Moreover, assuming diminishing returns to capital, we show that the evolutionarily stable time horizon increases with the amount of capital already owned by individuals. When individuals possess little capital, they have a lot of room to improve their productivity and/or survival, hence they should be impatient to collect resources; that is, their time horizon should be short. On the contrary, when individuals already possess a lot of capital, the benefits of further accumulation are plateauing, hence patience becomes a more profitable strategy and individuals should lengthen their time horizon. This means that individuals get more patient as they age and that people in deprivation, who still have important productive and survival needs that can be satisfied, should have a shorter time horizon. This result leads us to interpret the behavioral constellation of deprivation in a new way.     

社群学习对植食性鸟类和哺乳动物觅食行为的作用

社群学习是动物的一种可塑性行为表现型式。综述了社群学习对植食性鸟类和哺乳动物觅食行为的作用,并述评了其学习机制。社群同伴对动物个体觅食地点、时间和取食方式均有影响,母体摄食的食物信息可通过胎盘和乳汁显著影响幼体的食物选择。动物通过观察学习、嗅闻学习以及味觉厌恶学习,不仅能更快找到食物资源,提高觅食效率,而且能有效降低中毒与被捕食的风险,从而提高其适合度。     

东方田鼠家族群对成员个体觅食行为的影响

植食性哺乳动物在分享社群觅食带来好处的同时,是否因个体间的相互干扰而影响其摄入率。在新鲜马唐叶片构建的均质密集食物斑块上,测定东方田鼠家族群成员个体在食物斑块上的觅食行为序列过程及行为参数,检验家族群存在对成员个体觅食行为的影响。结果发现,东方田鼠家族群雌、雄成员个体的觅食行为参数均无显著差异。然而,与单只个体相比,家族群觅食尽管能显著地缩短成员个体的觅食决定时间,但却显著地降低了成员个体的摄入率。分析觅食行为参数觅食中断时间发现,相较于单只个体,家族群成员个体间因相互干扰而引起的觅食中断时间的增加,不但增大了收获每口食物的时间,而且导致其摄入率下降。检测家族群成员个体各警觉行为动作参数,发现,成员个体间的相互干扰能引致个体的一般扫视、盯视及嗅闻动作时间比例显著增大,尽管直立扫视和静听动作时间比例减少显著,但并未使个体的觅食中断时间减小。结果充分说明,东方田鼠家族群成员个体间的相互干扰能使个体觅食行为参数发生变异,导致觅食中断时间增加,摄入率降低。     

The effect of dominance on food hoarding: a game theoretical model

Many food hoarding animals live in small groups structured by rank. The presence of conspecifics in the hoarding area increases the risk of losing stored supplies. The possibility of stealing from others depends on a forager's rank in the group. Highly ranked individuals can steal from subordinates and also protect their own caches. Since storing incurs both costs and benefits, the optimal hoarding investment will differ between individuals of different rank. In a game theoretical model, we investigate how dominant and subordinate individuals should optimize their hoarding effort. Our model imagines animals that are large-scale hoarders in autumn and dependent on stored supplies for winter survival. Many examples can be found in the bird families Paridae and Corvidae, but the model can be used for any hoarding species that forage in groups. Predictions from the model are as follows: First, subordinates should store more than dominants, but in a predictable environment, this difference will decrease as the environment gets harsher. Under harsh conditions, dominants should store almost as much as subordinates and, later, spend almost as much time retrieving their own caches as subordinates. Second, if on the other hand, bad winter conditions were not expected when storing, dominants should spend more time pilfering caches from subordinates. Third, in populations that are highly dependent on stored supplies, dominants should store relatively more than in populations that are less dependent on stored supplies. Fourth, harsher environments will favor hoarding. And finally, if dominant individuals store, it implies that hoarders have a selfish recovery advantage over conspecific pilferers.     

甘南亚高山草甸群落的物候谱研究──兼论群落种多样性维持的机制

本文研究了亚高山草甸群落中常见的４２种植物的物候期。研究结果表明,此４２种植物在返青时间顺序、进入生殖生长的个体数量比例和进入生殖生长阶段的起始时间、历期上各不相同。根据返青顺序可将４２种植物分为三类。以单子叶禾莎草的返青时间为最早,多年生双子叶植物的返育时间较晚。根据进入生殖生长的个体占种群总个体数量的比例可分为：（１）生殖生长的个体比例在２０％以下,主要靠营养繁殖的种类;（２）具有双重繁殖特性的种类;（３）生殖个体占５０％以上的种类和（４）完全依靠有性繁殖的种类共四类。根据进入生殖生长的起始时间可分为三类。以上结果在一定程度上说明了植物种间由于在生长发育时间上的错位,减缓了种间对资源（如土壤矿物质营养）的竞争,使得群落中有多个种共存。     

Withholding Age as Putative Deception in Mate Search Tactics

Mate choice is a process of negotiation in which individuals make decisions about whether or not to allow a relationship with a prospective mate to develop into a long-term relationship. In some cases, this process begins with opening bids between strangers. Although each individual may have a clearly perceived set of preferred options, frequency-dependent effects and constraints on available search time often mean that individuals have to settle for less than ideal partners. Age is a criterion that males use in judging the mate value of prospective female partners, because it correlates with fertility. In this paper, we analyze personal advertisements to show that women may decline to declare their age in order to appear younger than they really are. This allows them to be more demanding than they would otherwise be able to be. A comparison of trait profiles with those of women of known age suggests that individuals who disguise their ages are likely to be in the age range 35 to 50 years. Three alternative explanations for this can be suggested: such behavior might be an attempt to find a high-quality partner (1) before their reproductive opportunities are foreclosed by menopause, (2) to replace lost paternal investment, or (3) to reduce the burden on the children of caring for aging parents by obtaining companionship and assistance from a new partner.     

Responding to environmental change: plastic responses vary little in a synchronous breeder

The impact of environmental change on animal populations is strongly influenced by the ability of individuals to plastically adjust key life-history events. There is therefore considerable interest in establishing the degree of plasticity in traits and how selection acts on plasticity in natural populations. Breeding time is a key life-history trait that affects fitness and recent studies have found that females vary significantly in their breeding time-environment relationships, with selection often favouring individuals exhibiting stronger plastic responses. In contrast, here, we show that although breeding time in the common guillemot, Uria aalge, is highly plastic at the population level in response to a large-scale environmental cue (the North Atlantic Oscillation, NAO), there is very little between-individual variation-most individuals respond to this climate cue very similarly. We demonstrate strong stabilizing selection against individuals who deviate from the average population-level response to NAO. This species differs significantly from those previously studied in being a colonial breeder, in which reproductive synchrony has a substantial impact on fitness; we suggest that counter selection imposed by a need for synchrony could limit individuals in their response and potential for directional selection to act. This demonstrates the importance of considering the relative costs and benefits of highly plastic responses in assessing the likely response of a population to the environmental change.     

The learning and use of gestural signals by young chimpanzees: A trans-generational study

Observations of chimpanzee gestural communication are reported. The observations represent the third longitudinal time point of an ongoing study of the Yerkes Primate Center Field Station chimpanzee group. In contrast to observations at the first two time points, the current observations are of a new generation of infants and juveniles. There were two questions. The first concerned how young chimpanzees used their gestures, with special focus on the flexibility or intentionality displayed. It was found that youngsters quite often used the same gesture in different contexts, and different gestures in the same context. In addition, they sometimes used gestures in combinations in a single social encounter, these combinations did not convey intentions that could not be conveyed by the component gestures, however. It was also found that individuals adjusted their choice of signals depending on the attentional state of the recipient. The second question was how chimpanzees acquired their gestural signals. In general, it was found that there was little consistency in the use of gestures among individuals, especially for non-play gestures, with much individual variability both within and across generations. There were also a number of idiosyncratic gestures used by single individuals at each time point. It was concluded from these results that youngsters were not imitatively learning their communicatory gestures from conspecifics, but rather that they were individually conventionalizing them with each other. Implications of these findings for the understanding of chimpanzee communication and social learning are discussed.     

Migration strategies of the Baltic dunlin: rapid jump migration in the autumn but slower skipping type spring migration

Migration during spring is usually faster than during autumn because of competition for breeding territories. In some cases, however, the costs and benefits associated with the environment can lead to slower spring migration, but examples are quite rare. We compared seasonal migration strategies of the endangered Baltic population of the dunlin Calidris alpina schinzii using light‐level geolocator data from 26 individuals breeding in Finland. Autumn migration was faster, with individuals showing a ‘jump’ and ‘skipping’ migration strategy characterised by fewer stationary periods, shorter total stopping time and faster flight. Spring migration was slower, with individuals using a ‘skipping’ strategy. The duration of migration was longer for early departing birds during spring but not during autumn suggesting that early spring migrants are prevented from arriving to the breeding areas or that fueling conditions are worse on the stopover sites for early arriving individuals. Dunlins showed high migratory connectivity. All individuals had one long staging at the Wadden Sea in the autumn after which half of the individuals flew 4500 km non‐stop to Banc d’Arguin, Mauritania. The other half stopped briefly on the Atlantic coast on their way to Mauritania. One bird wintered on the coast of Portugal. Nine individuals that carried geolocators for two years were site faithful to their final non‐breeding sites. Based on the strategies during the non‐breeding period we identified, Baltic dunlin may be especially vulnerable to rapid environmental changes at the staging and non‐breeding areas. Consequently, the preservation of the identified non‐breeding areas is important for their conservation.