ABSTRACT
New northwestern records of the striped treefrog Hypsiboas caingua (Carrizo, 1991 “1990”) are presented for Brazil, extending its known geographic distribution approximately 115 km northward (linear distance) of the previous northernmost record of the species. In all new localities, individuals of H. caingua were only found in calling activity under temperatures below 18°C. The species appears to be associated with Atlantic Forest, although it had already been recorded in Cerrado. Although the scientific literature data suggests that H. caingua presents discontinuous geographical distribution, three methods of distribution modelling based on climatic data show that the species' distribution is continuous. The gap in the distribution may be related to the lack of field surveys in the regions that connect these populations, especially in colder periods. Nevertheless, factors other than climate might also be responsible for the current distribution of H. caingua, since the species was absent in well-surveyed sites situated between the areas of modeled distribution. Therefore, further studies on natural history, populations' genetic structure, and geographic distribution models implementing factors other than climate will be important to elucidate some ecological and evolutionary aspects of the distribution of H. caingua in South America.
Novos registros da perereca Hypsiboas caingua (Carrizo, 1991 “1990”) são apresentados para o noroeste do Brasil, ampliando sua distribuição geográfica em aproximadamente 115 km ao norte (distância linear) em relação ao registro anterior setentrional da espécie. Em todas as novas localidades, indivíduos de H. caingua foram apenas encontrados vocalizando sob temperaturas abaixo de 18 °C. A espécie aparenta estar associada com a Mata Atlântica, embora já tenha sido registrada no Cerrado. Apesar de dados da literatura científica sugerirem que H. caingua apresente distribuição geográfica descontínua, os três métodos de modelagem de distribuição, baseados em dados climáticos demonstram que a distribuição da espécie é contínua. A lacuna na distribuição pode estar relacionada à ausência de levantamentos de campo nas regiões que conectam essas populações, principalmente em períodos frios. Contudo, outros fatores além do climático também podem ser responsáveis pela atual distribuição de H. caingua, visto a ausência da espécie em locais bem amostrados situados entre as áreas de distribuição modeladas. Portanto, mais estudos sobre a história natural, genética de populações e modelos de distribuição geográfica que abordem outros fatores além do clima, serão importantes para elucidar alguns aspectos ecológicos e evolucionários da distribuição de H. caingua na América do Sul.
Subject(s)
Animals , Anura/classification , Animal Distribution , Brazil , Climate , Models, Biological , Population Density , Population DynamicsABSTRACT
Large-bodied arthropods, such as cicadas, can be able to reallocate significant amounts of nutrients during adult emergence. Evidence suggests that Quesada gigas Olivier emergence constitutes an important nutrient flux from belowground to aboveground. The purpose of this study was to estimate the amount of nitrogen, proteins, and lipids resulting from the emergence of Q. gigas in an urban ecosystem in Central Brazil. Adult specimens captured from September to November 2006 were weighed and submitted to biochemical analysis. Population density was approximately 4,200 individuals per hectare. Mean individual dry mass was 1.03 g and contained 12.6 percent proteins, 8.4 percent lipids, and 5 percent nitrogen. Total biomass input from the species was 4.3 kg ha-1 y-1, with a consequent annual reallocation of approximately 545 g of proteins, 363 g of lipids, and 216 g of nitrogen per hectare. The data obtained suggest that Q. gigas emergence can cause significant translocation of nutrients from belowground to aboveground, and is therefore an important biological event for ecosystem function.