Parental care has evolved repeatedly and independently across animals. While the ecological and evolutionary significance of parental behaviour is well recognized, underlying mechanisms remain poorly understood. We took advantage of behavioural diversity across closely related species of South American poison frogs (Family Dendrobatidae) to identify neural correlates of parental behaviour shared across sexes and species. We characterized differences in neural induction, gene expression in active neurons and activity of specific neuronal types in three species with distinct care patterns: male uniparental, female uniparental and biparental. We identified the medial pallium and preoptic area as core brain regions associated with parental care, independent of sex and species. The identification of neurons active during parental care confirms a role for neuropeptides associated with care in other vertebrates as well as identifying novel candidates. Our work is the first to explore neural and molecular mechanisms of parental care in amphibians and highlights the potential for mechanistic studies in closely related but behaviourally variable species to help build a more complete understanding of how shared principles and species-specific diversity govern parental care and other social behaviour.
Highlights d South American and Malagasy poison frogs exhibit convergently evolved traits d Both clades are toxic and provide parental care via maternal egg provisioning d Egg-provisioning provides chemical defenses to developing tadpoles in both clades d Provisioning relies on shared brain regions but distinct molecular mechanisms
Poison frogs acquire chemical defenses from the environment for protection against potential predators. These defensive chemicals are lipophilic alkaloids that are sequestered by poison frogs from dietary arthropods and stored in skin glands. Despite decades of research focusing on identifying poison frog alkaloids, we know relatively little about how environmental variation and subsequent arthropod availability impacts alkaloid loads in poison frogs. We investigated how seasonal environmental variation influences poison frog chemical profiles through changes in the diet of the Climbing Mantella (Mantella laevigata). We collected M. laevigata females on the Nosy Mangabe island reserve in Madagascar during the wet and dry seasons and tested the hypothesis that seasonal differences in rainfall is associated with changes in diet composition and skin alkaloid profiles of M. laevigata. The arthropod diet of each frog was characterized into five groups (i.e. ants, termites, mites, insect larvae, or ‘other’) using visual identification and cytochrome oxidase 1 DNA barcoding. We found that frog diet differed between the wet and dry seasons, where frogs had a more diverse diet in the wet season and consumed a higher percentage of ants in the dry season. To determine if seasonality was associated with variation in frog defensive chemical composition, we used gas chromatography / mass spectrometry to quantify alkaloids from individual skin samples. Although the assortment of identified alkaloids was similar across seasons, we detected significant differences in the abundance of certain alkaloids, which we hypothesize reflects seasonal variation in the diet of M. laevigata. We suggest that these variations could originate from seasonal changes in either arthropod leaf litter composition or changes in frog behavioral patterns. Although additional studies are needed to understand the consequences of long-term environmental shifts, this work suggests that alkaloid profiles are relatively robust against short-term environmental perturbations.
26understand the mechanisms underlying parental behavior and its evolution are comparative 51 studies across closely-related species that vary in parental care strategies. 52Parental care can be conceptualized as a complex set of inter-related behaviors controlled 53 by brain regions involved in the integration of sensory, social, motivational, and cognitive aspects 54 of care [6]. Across vertebrates, these functions are largely performed by the social decision-55 making network (SDMN; [7]), a highly interconnected group of evolutionarily ancient and 56 functionally conserved brain regions. Although studies on the neural mechanisms of parental 57 behavior are sparse outside mammals, and particularly lacking in amphibians and reptiles, the 58 SDMN provides an ideal starting point for this work as network nodes and connectivity are well 59 understood, highly conserved, and behaviorally important ligand/receptor complexes have been 60 extensively studied. 61Dendrobatid poison frogs show remarkable diversity in parental care across closely 62 related species, including male uniparental care, female uniparental care, and biparental care. 63Parental care in poison frogs involves egg attendance during embryo development, generally 64 followed by transportation of tadpoles "piggyback" to pools of water upon hatching [8][9][10]. In some 65 species, mothers regularly return to nourish growing tadpoles with unfertilized, trophic eggs until 66 the laboratory, allowing us to identify both parental individuals and their non-caregiving partners. 87To control for effects of experience, all pairs successfully reared at least one clutch from egg-88 laying through tadpole transport prior to the experiment. For the non-parental group, we collected 89 frog pairs between parental bouts when they were not caring for eggs or tadpoles, collecting 90 individuals of both the caregiving sex (non-transport; n=10 D. tinctorius, n=7 R. imitator) and their 91 opposite sex partners (non-transport partner; n=9 D. tinctorius, n=8 R. imitator). For the tadpole 92 5 transport group, when we found transporting frogs, we collected both the tadpole transporting 93 individual (tadpole transporter; n=13 D. tinctorius, n=7 R. imitator) and its opposite sex, non-94 transporting partner (transport partner; n=11 D. tinctorius, n=6 R. imitator). All brain tissue was 95 collected in an identical manner: frogs were captured, anesthetized with benzocaine gel, weighed 96 and measured, and euthanized by rapid decapitation. This entire process took less than 5 97 minutes. All procedures were approved by the Harvard University Animal Care and Use 98 Committee (protocol no. 12-10-1). 99 100 Field sample collection 101Oophaga sylvatica (Puerto Quito-Santo Domingo population) were collected in field 102 enclosures in Ecuador in April and May of 2016. We collected non-parental control females (N=8) 103 from enclosures containing only mature females to ensure that frogs were not currently caring for 104 eggs or tadpoles. We collected tadpole transporting females (N=5) fr...
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