Alarmsignaler hos terrestra sniglar : Påverkar en attackerad artfrände försvarsbeteendet? / Alarm signals among terrestrial slugs : Does an attacked conspecific affect the defence mechanisms?

Ekman, Johanna

January 2021

Försvarsmekanismer är vanligt förekommande svar på predation och aggression bland djur. Till exempel uppvisar många terrestra sniglar en högre aktivitet och förändrat rörelsemönster när de identifierar kemiska signaler från predatorer. I denna studie undersökte jag hur kemiska signaler från en attackerad artfrände påverkade försvarsbeteenden hos trädgårdssnigel (Arion distinctus), där pantersnigel (Limax maximus) representerade aggressor. Ett laboratorieexperiment utfördes med fyra behandlingar (totalt 48 replikat): med slemspår av en trädgårdssnigel, med spår av en pantersnigel, med spår av båda arter tillsammans, samt utan spår. Jag förutspådde att spår av en attackerad artfrände (det vill säga spår från båda arter tillsammans) skulle medföra högre aktivitet och undvikande beteende hos trädgårdssnigeln, samt att båda arter under förberedelsen för behandlingarna skulle uppvisa en högre aktivitet vid närvaro av den andra arten än ensamma. Resultaten visade ingen signifikant effekt av behandling på trädgårdssniglarnas aktivitet eller rörelsemönster, eller på någon av arternas aktivitet vid närvaro av varandra. Eftersom sniglars försvarsbeteenden är kostsamma, är det möjligt att pantersnigeln inte utgjorde ett tillräckligt stort hot för att det skulle vara fördelaktigt för trädgårdssnigeln att utföra dessa beteenden. / Defence mechanisms are a common response to predation and aggression in animals. For example, many terrestrial slugs exhibit a higher activity and change their movement patterns when identifying chemical signals from predators. In this study, I examined how chemical signals from an attacked conspecific affected the defence mechanisms of the common garden slug (Arion distinctus), where the leopard slug (Limax maximus) represented the aggressor. A laboratory experiment was conducted with four treatments (48 replicas in total): with mucus trails from a common garden slug, with trails from a leopard slug, with trails from both species together, and without trails. I predicted that trails from an attacked conspecific (i.e. trails from both species together) would result in increased activity and an avoiding behaviour in the common garden slug, and that both species during the preparation for the treatments would exhibit an increased activity in presence with the other species than alone. The results showed no significant effect of treatment on the common garden slug’s activity or movement pattern, or on both species’ presence of each other. Because slugs’ defence mechanisms are costly, it is possible that the leopard slug did not pose a threat big enough to be beneficial for the common garden slug to execute these behaviours.

biology

alarm signals

defence mechanisms

terrestrial slugs

biologi

alarmsignaler

försvarsmekanismer

terrestra sniglar

Biological Sciences

Biologiska vetenskaper

ACOUSTIC COMMUNICATION IN THE JOINT-NESTING SMOOTH-BILLED ANI, CROTOPHAGA ANI

Grieves, Leanne A.

04 1900

<p>I studied acoustic and visual communication in the Smooth-billed Ani, a joint-nesting, cooperatively breeding cuckoo. I describe vocal repertoire of this species using both qualitative and quantitative methods. In this first, formal description of the species’ repertoire, I provide verbal descriptions of each call type, the contexts in which each call is produced, spectrograms, and acoustic measurements for each call type. I used multivariate statistics to show that call types can be correctly classified based on acoustic measurements alone. Smooth-billed Anis are capable of complex communication, including the use of functionally referential alarms and signals of aggression that reliably predict attack. Functionally referential signals are produced in response to a specific set of stimuli and elicit predictable, appropriate responses in signal receivers, even in the absence of any other cues. I show that anis produce two distinct signal types, <em>chlurps</em> and <em>ahnee</em> <em>alarms</em>, in response to two different predator classes, aerial and terrestrial, respectively. I also show that receiver responses to playback of these alarm signals are distinct and appropriate to evade predation from aerial and terrestrial attackers. Aggressive signals should increase in aggressive contexts, predict subsequent aggression and elicit responses from signal receivers. I show that <em>hoots</em>, an acoustic signal, and throat inflation, a visual signal, both increase in aggressive contexts and reliably predict aggressive escalation in the form of direct attacks on a mount. The receiver response to <em>hoots</em> and throat inflation remains to be tested. In the synthesis, I provide suggestions for future research.</p> / Master of Science (MSc)

aggressive signals

alarm signals

communication

cooperative breeding

Crotophaga ani

repertoire

Behavior and Ethology

Behavior and Ethology

Sex, personaltiy and individual differences in cerebral lateralization in the convict cichlid

Reddon, Adam R.

Unknown Date

No description available.

Cerebral lateralization

Aggression

Sex

Personality

Convict cichlid

Archocentrus nigrofaciatus

Emotion

Shy-bold continuum

Damage-induced alarm signals

Sex, personaltiy and individual differences in cerebral lateralization in the convict cichlid

Reddon, Adam R.

11 1900

Cerebral lateralization was once thought to be unique to humans, but is now known to be widespread among the vertebrates. Lateralization appears to confer cognitive advantages upon those that possess it. Despite the taxonomic ubiquity and described advantages of lateralization, substantial individual variation exists in all species. Individual variation in cerebral lateralization may be tied to individual variation in behaviour and the selective forces that act to maintain variation in behaviour may also act to maintain variation in lateralization. Sex differences may also be an important source of variation in lateralization, as differences between males and females are often observed. Here, I present three papers that collectively deal with the interrelationships between sex, behaviour and cerebral lateralization in the convict cichlid. My results illustrate that lateralization is related to personality-like characteristics in the convict cichlid, and that there are important differences between the sexes in their pattern of lateralization.

Cerebral lateralization

Aggression

Sex

Personality

Convict cichlid

Archocentrus nigrofaciatus

Emotion

Shy-bold continuum

Damage-induced alarm signals