Validating the concept of top scavenger: the Andean Condor as a model species.

Vultures provide the key ecosystem service of quickly removing carrion, so they have recently been assumed to be top scavengers. To challenge the concept of top scavenger (i.e. the most influential in the scavenging community and process), between 2012 and 2019, we recorded the consumption of 45 equine carcasses available for two different avian scavenger guilds in the Tropical Andes; each guild included the Andean Condor, the alleged top scavenger. The carcasses eaten by Andean Condors were consumed, on average, 1.75 times faster than those they did not eat. Furthermore, the greater abundance of feeding condors shortened carcass consumption time more than a greater abundance of any other species by 1.65 to 5.96 times, on average. These findings support the hypothesis that the Andean Condor significantly drives scavenging dynamics and is, therefore, an unrestricted top scavenger. Additionally, we established a gradient of tolerance of avian scavengers to domestic dog disturbance at carcasses, from highest to lowest: vultures > caracaras > condors. Our study framework holds great potential for advancing in food webs' comprehension through quantifying the relative functional role of scavenging communities' members and for guiding efforts to weigh up the ecological contributions of top scavengers and foster their conservation.

The Influence of Age, Sex and Season on Andean Condor Ranging Behavior during the Immature Stage.

Immature individuals move from their natal area to the area where they settle and reproduce, and this may take several years. This process is essential for long-lived species such as vultures and condors, which spend long periods as immature and move extensively. We studied the movement behavior of 26 GPS-tagged immature Andean condors (Vultur gryphus) from northwestern Patagonia throughout the immature stage, analyzing whether these patterns differed according to age, sex and season. We found that season and age influenced home range size and flight distances, the warm season being when immature condors move most; movement patterns were greater in sub-adults than in juveniles. The age effect was associated with the sex of individuals, with males increasing their home range more than females. Our results provide the first description of how immature Andean condor movement patterns are affected by internal and external factors. This information could be key to understanding condor responses to environmental change and threats at different stages during their immature phase. Until now, condor conservation efforts have not considered the areas used by dispersing individuals. Our results increase our understanding of ranging behavior during the immature stage of this threatened bird, enabling us to improve the conservation policies and management strategies designed to protect them.

Cascading effects of a disease outbreak in a remote protected area.

Disease outbreaks induced by humans increasingly threaten wildlife communities worldwide. Like predators, pathogens can be key top-down forces in ecosystems, initiating trophic cascades that may alter food webs. An outbreak of mange in a remote Andean protected area caused a dramatic population decline in a mammalian herbivore (the vicuña), creating conditions to test the cascading effects of disease on the ecological community. By comparing a suite of ecological measurements to pre-disease baseline records, we demonstrate that mange restructured tightly linked trophic interactions previously driven by a mammalian predator (the puma). Following the mange outbreak, scavenger (Andean condor) occurrence in the ecosystem declined sharply and plant biomass and cover increased dramatically in predation refuges where herbivory was historically concentrated. The evidence shows that a disease-induced trophic cascade, mediated by vicuña density, could supplant the predator-induced trophic cascade, mediated by vicuña behaviour, thereby transforming the Andean ecosystem.

Human-Wildlife Conflicts in the Southern Yungas: What Role do Raptors Play for Local Settlers?

Wildlife persecution due to human-wildlife conflict has become a serious concern for biodiversity conservation, especially for many endangered species. In this context, conservation approaches need to consider the socio-ecological dimensions of each particular situation. The aim of this study was to evaluate the existence, extent and social characteristics of Human-Raptor Conflicts (HRC) in the Southern Yungas region in northwestern Argentina. We conducted 115 semi-structured interviews in 21 sites and analyzed attitudes and associations between sociodemographic variables and the existence of HRC. Forty percent of interviewees showed negative attitudes towards raptors, mainly with those species considered livestock predators rather than poultry predators. A total of 11 species were regarded as conflictive because of predation on domestic animals, of which Andean condors showed the highest conflict. The only socio-demographic factor affecting conflicts was livestock and poultry rearing, independently of age, gender and occupation of interviewees. The fact that only 8.7% of interviewees reported taking direct actions towards conflictive species indicates a relatively peaceful coexistence of people with raptors. Nevertheless, negative attitudes towards Andean condor together with their extreme susceptibility to any increase in non-natural mortality indicate the need of an integral conservation approach to tackle future threats for this species' conservation in the area.

Variabilidad genética del ADN mitocondrial de Vultur gryphus (cóndor andino) en Cusco y Apurímac a partir de plumas de muda / Genetic variability of mitochondrial DNA of Vultur gryphus (Andean Condor) in Cusco and Apurimac from molting feathers

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.

Second-generation Anticoagulant Rodenticide Poisoning in a Captive Andean Condor (Vultur gryphus).

A 28-year-old female Andean condor (Vultur gryphus) housed in an outside exhibit at the National Aviary in Pittsburgh, PA, began showing signs of weakness. Toxicosis with an anticoagulant rodenticide was suspected because its mate had died 1 day earlier from possible brodifacoum poisoning. A rapid decline in the packed cell volume, despite vitamin K1 treatment, necessitated a blood transfusion with blood from bald eagles (Haliaeetus leucocephalus) and Steller's sea eagles (Haliaeetus pelagicus). Supportive therapy after transfusion included vitamin K1 (5 mg/kg IM q12h) as well as enrofloxacin, vitamin B complex, selenium and vitamin E, and subcutaneous fluids as needed. After a 39-day treatment period, a tapering dosage of vitamin K1 was initiated, and treatment ended after 17 weeks. However, 2 weeks later, the bird suffered from a potential relapse. It was successfully treated with a repeat tapering vitamin K1 regimen lasting a total of 4 months.