scholarly journals A meerkat (Suricata suricatta) acting as sentinel, warning foraging group members via functionally referential alarm calls whether a predator is approaching from the air or on the ground. Photo reproduced by permission of Stephan Reber, University of Zuri

Ethology ◽  
2012 ◽  
Vol 119 (1) ◽  
pp. i-i
Keyword(s):  
Alarm Calls ◽  
Suricata Suricatta ◽  
Group Members ◽  
Functionally Referential

Vocalize to localize

2005 ◽  
Vol 5 (3) ◽  
pp. 327-344 ◽  
Author(s):  
Marta B. Manser ◽  
Lindsay B. Fletcher
Keyword(s):  
Visual Cues ◽  
Gaze Direction ◽  
Alarm Calls ◽  
General Behaviour ◽  
Acoustic Structure ◽  
Suricata Suricatta ◽  
High Urgency ◽  
High Stimulus ◽  
Functionally Referential ◽  
Stimulus Specificity

In this study of the functionally referential alarm calls in the meerkats (Suricata suricatta), we tested the hypothesis that the ability to refer to a specific location was an important factor in the evolution of discrete vocalizations. We investigated what information receivers gained about the location of the predator from alarm calls with high stimulus specificity compared to alarm calls with low stimulus specificity. Furthermore, we studied whether visual cues about the localization of the predator may be available from the posture of the caller. We described the general behaviour of the caller, the caller’s posture, and in particular its gaze direction. We then observed receivers responding to the different call types, to determine whether the acoustic structure of the calls was enough for them to respond in the appropriate way, or whether they used additional visual cues from the caller. We tested this with specific manipulation experiments, using three set ups of playback experiments: (1) no caller visible; (2) model guard with specific gaze direction; and (3) live sentinel. Natural observations and experiments confirmed that in high urgency situations the meerkats have enough information from the acoustic structure of the call to respond appropriately. When hearing low urgency calls that are less stimuli specific, meerkats used visual cues as an additional source of information in a few cases. This may indicate that functionally referential calls evolved to denote the location of the predator, rather than the predator type or its velocity of approach. However, when discussing this result in comparison to other functionally referential calls, such as the food associated calls and recruitment calls, this localization hypothesis does not appear to apply to the functionally referential calls in general.

THE EFFECT OF CHANGING CALL DURATION AND CALLING BOUTS ON VIGILANCE IN BRANTS' WHISTLING RAT, PAROTOMYS BRANTSII

Behaviour ◽  
2001 ◽  
Vol 138 (10) ◽  
pp. 1287-1302 ◽  
Author(s):  
Aliza Le Roux ◽  
Michael Cherry ◽  
Tim Jackson
Keyword(s):  
High Risk ◽  
Low Risk ◽  
Alarm Calls ◽  
Playback Experiments ◽  
Call Duration ◽  
Alarm Calling ◽  
Functionally Referential ◽  
Long Calls

AbstractThe function of variation in single call duration and alarm calling bouts was investigated in Brants' whistling rat, Parotomys brantsii, by means of playback experiments and video analyses of the vigilance displayed. Short calls are produced in high-risk situations, and long calls in low-risk encounters, but these calls apparently do not communicate this variance in risk to conspecifics. Both short and long single calls induced heightened vigilance in receivers, but rats did not respond differentially to the two call types, and it was concluded that P.brantsii alarm calls are not functionally referential. Multiple calls maintained a state of increased alertness in receivers for a longer period than single calls, even after the bouts had ended, but long bouts (duration: 64 s) did not lead to longer periods of vigilance than short bouts (29 s). Thus the tonic communication hypothesis is only partially supported by our study.

scholarly journals Drought decreases cooperative sentinel behavior and affects vocal coordination in meerkats

2019 ◽  
Vol 30 (6) ◽  
pp. 1558-1566 ◽  
Author(s):  
Ramona Rauber ◽  
Tim H Clutton-Brock ◽  
Marta B Manser
Keyword(s):  
Small Groups ◽  
Cooperative Behavior ◽  
Drought Condition ◽  
Drought Period ◽  
Suricata Suricatta ◽  
Naturally Occurring ◽  
Dry Conditions ◽  
Group Members ◽  
Fitness Benefits ◽  
Cooperative Behaviors

Abstract Cooperative breeding often evolved in harsh and arid habitats characterized by high levels of environmental uncertainty. Most forms of cooperative behavior have energetic costs and previous studies have shown that the contributions of individuals to alloparental provisioning are conditional on their food intake. However, the effect of naturally occurring, extreme environmental conditions on the persistence of costly forms of cooperative behaviors and their coordination by communication remain unknown. Here, we show that in meerkats (Suricata suricatta) the probability to act as sentinel, a cooperative vigilance behavior, was the same for typically occurring dry and wet conditions, but significantly reduced during a drought condition with almost no rain, especially in young individuals, members of small groups and groups with pups. The duration an individual stayed on sentinel guard, however, was most reduced during dry conditions. Besides reductions in sentinel behavior, the vocal coordination of foraging meerkats differed when comparing drought and wet conditions. Individuals responded more strongly to playbacks of sentinel “all-clear” calls and close calls, resulting in less vigilance and more foraging behavior during the drought condition. We conclude that while meerkats are adapted to commonly occurring dry periods with low rainfall, the extreme drought period with almost no rain, led to a decrease of the frequency of costly forms of cooperative behaviors in favor of behaviors that maximize direct fitness benefits and also affected the vocal coordination among group members.

The evolution of functionally referential alarm communication

1999 ◽  
Vol 3 (2) ◽  
pp. 135-147 ◽  
Author(s):  
Daniel T. Blumstein
Keyword(s):  
Alarm Call ◽  
Referential Communication ◽  
Alarm Calls ◽  
Repertoire Size ◽  
Motor Abilities ◽  
Antipredator Responses ◽  
Tight Association ◽  
Functionally Referential ◽  
Alarm Communication ◽  
Call Repertoire

Many species produce specific alarm vocalizations when they encounter predators. There is considerable interest in the degree to which bird, ground-dwelling sciurid rodent, and primate alarm calls denote the species or type of predator that elicited the vocalization. When there is a tight association between the type or species of predator eliciting an alarm call, and when a played-back alarm call elicits antipredator responses qualitatively similar to those seen when individuals personally encounter a predator, the alarm calls are said to be functionally referential. In this essay I aim to make two simple points about the evolution of functionally referential alarm communication. Firstly, functionally referential communication is likely to be present only when a species produces acoustically distinct alarm vocalizations. Thus, to understand its evolution we must study factors that influence the evolution of alarm call repertoire size. Secondly, and potentially decoupled from the ability to produce acoustically distinctive alarm vocalizations, species must have the perceptual and motor abilities to respond differently to acoustically-distinct alarm vocalizations. Thus, to understand the evolution of functionally referential communication we also must study factors that influence the evolution of context-independent perception. While some factors may select for functionally referential alarm communication, constraints on production or perception may prevent its evolution.

scholarly journals The determinants of dominance relationships among subordinate females in the cooperatively breeding meerkat

Behaviour ◽  
2014 ◽  
Vol 151 (1) ◽  
pp. 89-102 ◽  
Author(s):  
N.K. Thavarajah ◽  
M. Fenkes ◽  
T.H. Clutton-Brock
Keyword(s):  
Reproductive Success ◽  
Competitive Advantage ◽  
Reproductive Skew ◽  
Breeding Female ◽  
Suricata Suricatta ◽  
Dominance Relationships ◽  
Dominance Structure ◽  
Starting Point ◽  
Cooperatively Breeding ◽  
Group Members

In cooperatively breeding species with high reproductive skew, a single breeding female is dominant to all other group members, but it is not yet known if there are consistent dominance relationships among subordinates. In this study on meerkats (Suricata suricatta), we used naturally observed dominance assertions and submissive interactions within dyads of subordinate females to investigate: (i) whether or not a dominance structure exists among them and what factors influence dominance relationships; and (ii) how dominance may influence the future reproductive success of subordinate females. Our study indicates that superiority in age and weight provide a competitive advantage during conflicts among subordinate females and that females who consistently dominate in these contests are subsequently more likely to attain a dominant breeding position. This provides a starting point for further investigations into dominance structure among subordinates in meerkat societies and other cooperative breeders.

scholarly journals Male blue monkeys alarm call in response to danger experienced by others

2008 ◽  
Vol 4 (5) ◽  
pp. 472-475 ◽  
Author(s):  
Sarah Papworth ◽  
Anne-Sophie Böse ◽  
Jessica Barker ◽  
Anne Marijke Schel ◽  
Klaus Zuberbühler
Keyword(s):  
Alarm Call ◽  
Alarm Calls ◽  
Panthera Pardus ◽  
Playback Experiments ◽  
Cercopithecus Mitis ◽  
Group Members ◽  
Blue Monkeys ◽  
Budongo Forest

Male blue monkeys ( Cercopithecus mitis stuhlmanni ) of Budongo Forest, Uganda, produce two acoustically distinct alarm calls: hacks to crowned eagles ( Stephanoaetus coronatus ) and pyows to leopards ( Panthera pardus ) and a range of other disturbances. In playback experiments, males responded to leopard growls exclusively with a series of pyows and to eagle shrieks predominantly with hacks. Responses to playbacks of these alarm call series matched the responses to the corresponding predators, suggesting that the calls conveyed something about the nature of the threat. When responding to a series of hacks, indicating an eagle, males responded predominately with hacks, but produced significantly more calls if their group members were close to the playback stimulus than far away, regardless of their own position. When responding to a series of pyows, indicating a range of disturbances, males responded with pyows, but call rates were independent of the distance of other group members. The results suggest that males took into account the degree of danger experienced by other group members.

Are the alarm calls of North American red squirrels (Tamiasciurus hudsonicus) functionally referential?

Behaviour ◽  
2010 ◽  
Vol 147 (9) ◽  
pp. 1201-1218
Author(s):  
Shannon Digweed ◽  
Drew Rendall
Keyword(s):  
North American ◽  
Alarm Call ◽  
Alarm Calls ◽  
Tamiasciurus Hudsonicus ◽  
Red Squirrels ◽  
Call Production ◽  
Solitary Living ◽  
North American Red Squirrels ◽  
Functionally Referential ◽  
Necessary And Sufficient

AbstractNorth American red squirrels are a small-bodied and solitary-living species that faces a diversity of predators and produces two different variants of alarm calls in response to them. Recent studies have yielded conflicting interpretations of the predator-specific and functionally referential nature of these alarm call variants. We undertook a systematic set of playback experiments to quantify the responses of red squirrels to alarm calls produced by other squirrels during encounters with different predators. The experiment was designed to test a core requirement of functionally referential alarm calls, namely that different alarm call types induce distinct and functionally appropriate escape responses in listeners. Results indicated that squirrels registered and responded to alarm calls produced by others; however, their responses were not differentiated according to the type of alarm call they heard and, thus, did not provide evidence that the different alarm call variants hold any predator-specific, referential value. These outcomes are discussed in light of complementary work on alarm call production in red squirrels and broader aspects of this species' life history in an effort to better understand the necessary and sufficient pressures promoting the evolution of referential call systems in animals.

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