Rosa Elena Galindo-Aguilar scite author profile

Successful community-based wildlife monitoring necessitates a high degree of local participation during sampling design and data collection. Here, we describe a community-based monitoring framework to estimate density and habitat use of the threatened jaguar (Panthera onca) in tropical montane forests in the Chinantla region of Oaxaca, Mexico. Community-based monitoring was completed involving integration with local communities, local governmental agencies, nongovernmental organizations, and academic institutions. In a camera-trap survey (37 stations, 2,553 trap-days), we recorded eight adult jaguars across 182.7 km 2 of montane forest. Spatially explicit capture-recapture models estimated a density of 1.15 jaguars per 100 km 2 (CI ¼ 0.55-2.38) using a more traditional likelihood-based method and 1.16 jaguars per 100 km 2 (CI ¼ 0.89-1.57) using Bayesian methods. The locations of jaguar captures and their habitat use appeared to be influenced by normalized vegetation index and capture rate of prey. Density estimates in the Chinantla region were lower than recorded for other lowland populations in Mexico but were consistent with elevation-based and latitudinal gradients across the range of the species. The community-based monitoring of jaguars increased the communication and interaction of local community groups, stakeholders, and academic institutions. It also provided participants with an increased knowledge of wildlife identification, transferable skills, wildlife appreciation, and an interest in reaching compromises to achieve habitat conservation. Our study provides a framework for the execution of community-based monitoring for large carnivores in Mexico and can be readily replicated and applied to other threatened species.

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First records of ocelot in tropical forests of the Sierra Negra of Puebla and Sierra Mazateca de Oaxaca, Mexico

Galindo-Aguilar

Cacelin-Castillo²,

Rosas-Rosas³

et al. 2016

Therya

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Spatiotemporal co-occurrence of predators and prey in a neotropical mammal community in southern Mexico

et al. 2022

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Predator-prey interactions are one of the central themes in ecology due to their importance as a key mechanism in structuring biotic communities. In the predator-prey systems, the behaviours of persecution and avoidance impact on the ecosystem dynamics as much as the trophic interactions. We aimed to analyse the spatiotemporal co-occurrences between prey and predators in a community of medium- and large-sized mammals in southern Mexico. We predict prey will avoid sites where a predator previously passed. Contrarily, we expect a search behaviour by predators and a synchronization in activity patterns among them. We found prey does not occur either in time or space where predators have passed, suggesting an avoidance behaviour. Contrary to our expectations, we did not find significant search behaviours from predators to prey. Synchronization in the daily temporal overlap between predators was higher (Δ = 0.77–0.82) than with their prey (Δ = 0.43 – 0.81). The results suggest prey perceives the risk of predation and displays avoidance behaviour both spatially and temporally, which is consistent with the fear theory. This study provides a complementary approach to understanding the behaviour mechanism between predators and prey through camera-trapping or similar data of spatiotemporal co-occurrences.

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Cambio de uso de suelo, fragmentació del paisaje y la conservación de Leopardus pardalis Linnaeus, 1758

Galindo-Aguilar

Hernández

Santos

et al. 2019

RMCF

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En México la selva alta perennifolia y el bosque mesófilo de montaña han sido eliminados y fragmentados, en estos ecosistemas habita el ocelote (Leopardus pardalis), una especie considerada en peligro de extinción en México. El objetivo del presente trabajo fue determinar los cambios de uso del suelo, fragmentación de la vegetación primaria y sus efectos sobre el ocelote, en una zona clave para la conectividad de sus poblaciones. Para llevar a cabo el trabajo, se calcularon las tasas de cambio de vegetación y uso del suelo, además se realizó un análisis de fragmentación. Para el registro de ocelotes, se colocaron cámaras trampa en un área de 110 km2. Los resultados mostraron una tasa de cambio de -2.63 y -2.29 para la selva alta perennifolia y el bosque mesófilo de montaña, respectivamente. Las observaciones de ocelote ocurrieron en el interior o muy cercanas (1.6 km) a zonas con valor de conectividad mayor a 10 %. El tamaño de los fragmentos de hábitat fue pequeño: 0.85 ha para bosque mesófilo de montaña y 1.04 ha en selva alta perennifolia; y la conectividad entre ellos fue de <30 %. Estos resultados reflejan la necesidad de mantener la conectividad del paisaje para la conservación de las poblaciones de L. pardalis.

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