Marcelo N. de C. Kokubum

Reproductive ecology and behaviour of a species of Adenomera (Anura, Leptodactylinae) with endotrophic tadpoles: Systematic implications

The species of the Leptodactylus fuscus group and those of the genus Adenomera lay their eggs in underground chambers. According to current systematic arrangement of these genera, this behaviour is convergent. Here we describe reproduction, courtship, tadpole morphology, calls, chamber structure, and populational phenology of an Adenomera species, and compare some of these features with those of other species of the genus and with species of Leptodactylus of the fuscus and pentadactylus groups. We tested the tadpoles of the Adenomera sp. and those of Leptodactylus labyrinthicus (pentadactylus group) for their foam‐making abilities. There was sexual dimorphism in size; males averaged 22.0 mm and females 24.3 mm in snout–vent length. Males called from late September to late February; calling often began about 2–3 h before sunset. Males called exclusively in open (non‐forest) areas. Egg clutches were found around male calling sites. Males excavated spherical chambers which had a direct entrance. During mating, the male led the female towards a previously excavated chamber. Territorial interactions (aggressive calls and fights) occurred when an intruder male approached a calling male. Late‐stage tadpoles and newly metamorphosed juveniles were found within underground chambers. Clutch size averaged 10.6; eggs averaged 3.7 mm in diameter and were cream coloured. Tadpoles had horny beaks, but no labial tooth; spiracle was present. All tested groups of tadpoles generated foam within 10 h. As we report for Adenomera sp., the males of Leptodactylus species of the fuscus group lead the female to a previously excavated chamber. Tadpole foam‐making behaviour was reported in Leptodactylus of the fuscus group and was previously unknown for any species of Adenomera or for Leptodactylus of the pentadactylus group. The way in which the tadpoles of Adenomera sp., Leptodactylus spp. (of the fuscus group) and L. labyrinthicus made foam was quite similar. The foam‐making behaviour of the studied tadpoles may act to avoid compaction of the tadpoles at the bottom of the basin or underground chamber, avoiding overcrowding and increasing respiratory and excretory efficiency. As presently recognized, the phylogenetic position of Adenomera suggests that reproductive major behavioural features are convergent with some Leptodactylus species. Alternatively, our data point to close phylogenetic relationships between Adenomera and Leptodactylus of the fuscus and pentadactylus groups, reinforcing the paraphyletic nature of the genus Leptodactylus.

Reproductive aspects of Leptodactytus hylaedactylus (Anura: Leptodactylidae), a member of the Leptodactylus marmoratus species group, with a description of tadpoles and calls

In this paper we describe some aspects of the reproductive biology of Leptodactylus hylaedactylus from open areas of Central Amazonia, Brazil. We describe the calling site, reproductive season, daily pattern of calling activity, chamber structure, vocalizations and tadpole morphology. Males of Leptodactylus hylaedactylus called amidst grasses and bushes in open and urban areas, throughout the year, and a greater number of males were heard in the period from 16:00 to 20:00 h. The eggs are deposited in underground chambers, which are spherical or elliptical. Larval development occurs inside the chambers. Two types of vocalizations were detected, the advertisement and the territorial call. The advertisement call of the species studied herein differs from other calls described for L. hylaedactylus from other localities of Brazil, but is very similar to that described from Peru. Tadpole morphology is similar to that described from individuals in French Guiana.

Seasonality, age structure and reproduction of Leptodactylus (Lithodytes) lineatus (Anura, Leptodactylidae) in Rondônia state, southwestern Amazon, Brazil

Leptodactylus(Lithodytes) lineatus (Schneider, 1799) is an Amazonian leaf litter frog considered rare or uncommon in several studies on anuran communities. Despite being a widely distributed frog in Amazonian forests, knowledge of the biology and ecology of this species is relatively scarce. This species has been reported to live in association with leaf-cutter ant nests (Atta spp.) during the breeding period. In this paper we present data on the seasonality of this species and some reproductive information gathered at a locality of Rondonia state, northwestern Brazil. Field work was carried out between April 2001 and March 2002, with the use of pitfall traps with drift fences as a survey method. Leptodactylus (L.) lineatus had a higher capture frequency in this locality compared to that of other studies carried out in other Amazonian localities, possibly because this species has secretive habits, such as calling and breeding from nests of leaf-cutting ants, and are difficult to find during visual encounter surveys. The breeding period occurs between October and March. Calling males and egg-bearing females were found between September and February and juvenile recruitment occurred mainly from the end of the rainy season to the beginning of the dry season (February to June). Males and females show sexual dimorphism in SVL, females being significantly larger than males. The number of ovarian eggs per female varies from 110 to 328 and analyses indicate that there is a significant correlation with SVL.

Occurrence of a Calcified Pseudodontoid in Leptodactylus Troglodytes (Anura: Leptodactylidae)

Abstract A calcified pseudodontoid in the mandibular symphysis of Leptodactylus troglodytes was described from fresh, macerated, and cleared/double-stained preparations. Histology confirmed that the pseudodontoid was mineralized and composed of fibrocartilage. This structure was found in all specimens of both sexes, suggesting a role in either prey capture or defense rather than in courtship or combat. The structure in L. troglodytes differed morphologically and histologically from the pseudodontoid observed in other Leptodactylus and in other neobatrachian species. Our sampling indicates that the presence and morphology of the pseudodontoid is synapomorphic to a clade recently named Tinctanura. However, a broader sample is still necessary to strengthen this assessment.