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Research Project
The marine cleaning mutualism between the Indo-Pacific cleaner wrasse Labroides dimidiatus (Valenciennes, 1839) and its client reef fish: the physiological bases of cooperative and deceptive behaviour
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Arginine vasotocin modulates associative learning in a mutualistic cleaner fish
Publication . Cardoso, Sónia C.; Bshary, Redouan; Mazzei, Renata; Paitio, José R.; Oliveira, Rui Filipe; Soares, Marta C.
Social environmental complexity induces structural
and biochemical changes in animals’ brains, which are linked
to the improvement of animals’ learning abilities. The
nonapeptides from the arginine vasopressin (AVP) family
(arginine vasotocin, AVT, in non-mammals) play a significant
role in the regulation of social behavior, particularly in the
formation of social memories and individual recognition.
Moreover, the role of AVT in the regulation of interspecific
interactions has only recently started to be addressed in the
context of cleaner fish mutualisms and learning. Variance in
the distribution of AVP receptor expression, which is linked to
distinct neural systems (related to the dorsolateral and the
dorsomedial telencephalon), is known to be implicated in differences
in individual learning processes. Here we asked if the
associative learning performance of the Indo-Pacific
bluestreak cleaner wrasse (Labroides dimidiatus) is regulated
by AVT. We tested the influence of AVT upon the cleaners’
ability to solve two different problems (cue and place
discrimination tasks) that in principle differ in ecological relevance
and are associated with two different memory systems.
We found that AVT affected the learning competence of
cleaners differently between tasks, as individual performance
showed distinct response selectivity to AVT dosage levels.
However, only in the ecologically relevant task was their
learning response improved by blocking AVT via treatment
with the antagonist Manning compound. Our findings demonstrate
that AVT pathways, which are implicated in the regulation
of interspecific behavior (i.e., a cleaner’s willingness
to seek interactions with clients), are also linked to individual
learning ability in the context of mutualistic behavior, and in
tune with socio-ecological demands.
Arginine vasotocin reduces levels of cooperative behaviour in a cleaner fish
Publication . Cardoso, Sónia C.; Paitio, José R.; Oliveira, Rui Filipe; Bshary, Redouan; Soares, Marta C.
Cooperation between unrelated individuals usually involves investments that often mean a decrease in immediate
payoffs, but ensure future benefits. Here we investigated the potential role of the neuropeptides Arginine-vasotocin
(AVT) and Isotocin (IT) as proximate agents affecting individuals' cooperative levels in the Indo-pacific bluestreak
cleanerwrasse Labroides dimidiatus. Their ‘client’ reef fish partners only benefit from interacting if cleaners eat ectoparasites
and refrain from gleaning preferred clientmucus. Thus, cleaners must control their impulse to eat according
to their preference, and eat less preferred items to maintain ongoing interactions and avoid clients' leaving or
punishing. We found that solely the experimental transient higher dosage of AVT led to a decrease of cleaners'willingness
to feed against their preference, while IT and AVT antagonists had no significant effects. The sole effect of
AVT on cleaner's performance may imply a link between AVT's influence and a potential activation of a stress
response. Our results confirm the importance of the AVT/AVP system as an agent affecting levels of cooperation,
offering a potential mechanistic pathway for the reported flexible service quality that cleaners provide their clients.
Forebrain neuropeptide regulation of pair association and behavior in cooperating cleaner fish
Publication . Cardoso, Sónia C.; Grutter, Alexandra S.; Paula, José R.; André, Gonçalo I.; Messias, João P.; Gozdowska, Magdalena; Kulczykowska, Ewa; Soares, Marta C.
Animals establish privileged relationships with specific partners, which are treated differently from other conspecifics, and contribute to behavioral variation. However, there is limited information on the underlying physiological mechanisms involved in the establishment of these privileged ties and their relationship to individual cooperation levels. The Indo-Pacific bluestreak cleaner wrasse Labroides dimidiatus often forages in mixed-sex pairs when cleaning fish clients. Intra-couple conflicts often arise during a joint client inspection, which may alter the overall quality of cleaning service provided. Here we tested two hypotheses: a) whether intra-pair association (i.e. association index), measured with joint interspecific cleaning and intraspecific behavior, is correlated with neuroendocrine mechanisms involving forebrain neuropeptides arginine vasotocin (AVT) and isotocin (IT) and b) whether these neuropeptide level shifts relate to an individual's interspecific service quality. We found that partner support (number of cleaning interactions and tactile stimulation) received by male cleaners increased with association index. When cleaners inspected clients alone, cleaners' cheating decreased with association index for females but not males. AVT levels did not differ according to sex or association level. Forebrain IT levels increased with association index for males, whereas no relationship was found for females. Finally, cleaner cheating varied between sex and forebrain IT levels. Findings indicate that variation in pairs' relationships influences male and female cleaner fish differently and contributes to the variation of brain neuropeptide levels, which is linked to distinct cooperative outcomes.
Brain levels of nonapeptides in four labrid fish species with different levels of mutualistic behavior
Publication . Kulczykowska, Ewa; Cardoso, Sónia C.; Gozdowska, Magdalena; André, Gonçalo I.; Paula, José R.; Ślebioda, Marek; Oliveira, Rui Filipe; Soares, Marta C.
There is strong evidence that brain nonapeptides are implicated as modulators of a wide array of social and reproductive behaviors in fishes. However, the question remains, as to whether there is a link between the distribution of active nonapeptides across brain regions and fishes specific behavioral phenotypes. To explore this link we compared the nonapeptides' profile across the brains of fishes representing different degrees of mutualistic behavior (here: cleaning behavior). Herein we studied the quantitative distribution of both nonapeptides, arginine vasotocin (AVT) and isotocin (IT), in the brains of four species of fish belonging to the family Labridae: two are obligatory cleaners throughout their entire life (Labroides dimidiatus and Labroides bicolor), one species is a facultative cleaner (Labropsis australis; juveniles are cleaners and adults are corallivorous), and one is a non-cleaner species, corallivorous throughout its entire life (Labrichthys unilineatus). The biologically available AVT and IT concentrations were measured simultaneously in distinct brain macro-areas: forebrain, optic tectum, cerebellum and brain stem, using liquid chromatography-tandem mass spectrometry (LC-MS/MS). We showed that the levels of both AVT and IT varied significantly across species, as measured in the whole brain or in the specific macro-areas. Significantly higher AVT concentrations in the cerebellum which were found in the obligate cleaners seemed to be related to expression of mutualistic behavior. On the other hand, the higher levels of brain IT in the non-cleaner L. unilineatus suggested that these might be linked to the development of sexual dimorphism, which occurs only in this non-cleaner species.
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Funding agency
Fundação para a Ciência e a Tecnologia
Funding programme
3599-PPCDT
Funding Award Number
PTDC/MAR/105276/2008