RESUMO
Sexual segregation is widely reported among sexually dimorphic species and generally attributed to intraspecific competition. Prey diversity and human activities can reinforce niche segregation by increasing resource heterogeneity. Here, we explored trophic and spatial sexual segregation in the only avian scavenger that exhibits pronounced sexual size dimorphism (up to 50% difference in body mass) and a highly despotic social system, the Andean condor (Vultur gryphus). We predicted that larger and dominant males would exclude smaller and subordinate females from high-quality resources, leading to sexual segregation particularly in human-dominated landscapes showing increased prey diversity. We compared resource use between females and males across six sites in Argentina featuring a range of prey diversity via stable isotopes analysis of molted feathers (n = 141 individuals). We then focused on two sites featuring contrasting levels of prey diversity and quantified assimilated diet via stable isotopes and space use via GPS monitoring (n = 23 and 12 tagged individuals). We found no clear differences in isotopic niche space, individual variation in isotopic signature, or assimilated diet between females and males. However, there were differences in foraging locations between sexes, with females apparently using areas of fewer food resources more frequently than males. Local conditions defined the dynamics of fine-scale sexual differences in foraging sites; yet, unpredictable and ephemeral carrion resources likely prevent segregation by sexes at the landscape scale. Our study highlights complex dynamics of sexual segregation in vultures and the relevancy of analyses under multiple spatial-temporal scales to explore segregation in social species.
Assuntos
Falconiformes , Comportamento Alimentar , Animais , Argentina , Aves , Feminino , Peixes , Humanos , MasculinoRESUMO
Resumen La variabilidad genética intrapoblacional de Vultur gryphus (cóndores andinos) de las regiones de Cusco y Apurímac fue evaluada mediante amplificación y secuenciación del ADN mitocondrial correspondientes a la región control y subunidad ribosomal 12S (D-Loop-ARNr12S), y a los genes Citocromo Oxidasa subunidad I (COI) y NADH deshidrogenasa subunidad II (ND2). El ADN se extrajo a partir de cálamos de plumas de muda de ejemplares en cautiverio y silvestres. Se analizaron los principales índices de diversidad genética como son: la diversidad haplotípica, la diversidad nucleotídica, el número promedio de diferencias nucleotídicas y el número de sitios polimórficos. La tasa de éxito de amplificación mediante PCR fue de 100% para las tres regiones de ADN analizadas. Se secuenció 600 pb de la región D-Loop-ARNr12S caracterizándose cuatro haplotipos, 704 pb del gen COI caracterizándose seis haplotipos y 1090 pb del gen ND2 caracterizándose cinco haplotipos. El gen COI presentó el mayor valor de diversidad haplotípica (Hd = 0.468), la región del gen D-Loop-ARNr12S presentó el mayor índice de diversidad nucleotídica (π = 0.00086), mientras que el gen COI presentó el mayor número promedio de diferencias nucleotídicas (K = 0.52615). Los resultados muestran bajos niveles de variabilidad genética en los genes mitocondriales de los cóndores andinos de la zona de estudio, que indicarían una población con estructura genética homogénea.
Abstract The intrapopulation genetic variability of Vultur gryphus (Andean condors) from Cusco and Apurimac regions was evaluated by amplification and sequencing of mitochondrial DNA corresponding to the control region and 12S ribosomal subunit (D-Loop-RNAr12S), Cytochrome Oxidase subunit I (COI) genes and NADH dehydrogenase subunit II (ND2) gene. DNA was extracted from the calamus of feathers recollected from captive and wild specimens. The main indices of genetic diversity such as the haplotype diversity, the nucleotide diversity, the average number of nucleotide differences and the number of polymorphic sites were analyzed. The PCR amplification success rate was 100% for the three mitochondrial amplified sequences. Four haplotypes were identified from the 600 bp sequenced of D-Loop-RNAr12S region; six haplotypes from the 704 bp sequenced of the COI gene; five haplotypes from the 1090 bp sequenced of the ND2 gene. The COI gene presented the highest haplotype diversity (Hd = 0.468), the D-Loop-RNAr12S region presented the highest index of nucleotide diversity (π = 0.00086), while the COI gene presented the highest average number of nucleotide differences (K = 0.52615). The results show low levels of genetic variability in the mitochondrial genes of the Andean Condor in the study area, indicating a population with a homogeneous genetic structure.
RESUMO
Molted feather sampling is a useful tool for genetic analyses of endangered species, but it is often very laborious due to the low quality and quantity of the DNA obtained. In the present study we show the parts of feathers that resulted in better yield of DNA. In descending order these were: blood clot outside the umbilicus, umbilicus (without blood clot), tip, inner membrane, and small calamus. Compared to DNA extracted from blood samples, DNA extracted from feathers produced microsatellite alleles of poorer quality and had to be processed immediately after extraction. As expected due to the level of DNA degradation, molecular sexing protocols that result in shorter PCR products were more efficient.