Enrique Reyes‐Novelo scite author profile

The prevalence of intestinal parasites in dogs and factors associated were studied in a rural community of Yucatan (southern Mexico), with special attention to those gastrointestinal parasites potentially transmitted to man. One hundred thirty dogs from 91 households were studied. Fecal samples were processed by the centrifugation-flotation and the McMaster techniques. To determine factors associated with zoonotic parasites in dogs, univariate analysis was performed, using sex, age, and body condition as independent variables. Variables with p < 0.2 were analyzed by a logistic regression. Of 130 dogs, 104 were positive for the presence of intestinal parasites, representing a prevalence of 80%. Eggs of four species of helminths (Ancylostoma caninum, Thichuris vulpis, Toxocara canis, and Dipylidium caninum) and coccidian oocysts were detected. A. caninum was the most prevalent parasite (73.8%), followed by T. vulpis (25.4%), T. canis (6.2%), D. caninum (2.3%), and coccidian oocysts (2.3%). The majority of dogs were infected by only one species of parasite (70/130, 53.8%). Mixed infection caused by two or three zoonotic parasites were discovered in 21.3% (30/130) and 3.1% (4/130), respectively. A. caninum showed the highest egg output (42.3% of dogs had ≥ 500 eggs per gram). Factors associated with zoonotic parasites were age (<2 years old; odds ratio = 5.30, p = 0.029) and body condition (poor body condition; odds ratio = 6.69, p = 0.026). In conclusion, young dogs from rural Yucatan, Mexico, with poor body condition had a higher prevalence of intestinal zoonotic parasites as these factors were associated with a higher risk of becoming infected.

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Dung beetle (Coleoptera: Scarabaeinae) diversity and seasonality in response to use of macrocyclic lactones at cattle ranches in the mexican neotropics

Basto‐Estrella

Rodríguez-Vivas

Delfín-González

et al. 2013

Insect Conserv Diversity

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1. Dung beetles provide recognised environmental services in cattle production systems, but can be negatively affected by the pharmaceutical residues found in excreta, particularly macrocyclic lactones (ML).2. The diversity and seasonal abundance of dung beetle communities were measured using baited pitfall traps and compared at four cattle ranches in Yucatan, Mexico, to assess the possible effects of ML residues. Cattle parasite control was performed at two of these ranches using ML.3. A total of 93 274 dung beetles from 17 species were collected. The dominant species at all four ranches were Onthophagus landolti and Canthon indigaceus chevrolati. Compared to ranches where ML was not used, total abundance was higher but richness, evenness and diversity were lower at ranches where ML was used. Five other species were identified as potential indicator species for determining whether there was an effect of ML use at the studied ranches.4. Seasonal patterns differed between beetle communities: those found at non-ML sites occurred in higher abundances in May and July, while those at ML sites had higher abundances in May and June. This was probably because herds on ML sites were treated with ML to control parasites in early July.5. The application of ML for controlling cattle parasites was shown to have a negative effect on the diversity and abundance of dung beetles. These results emphasise the need for timing ML use in order to mitigate the adverse impacts on these insects.

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Lethal and Sublethal Effects of Ivermectin onOnthophagus landolti(Coleoptera: Scarabaeidae)

et al. 2015

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Previous work has documented toxic effects of ivermectin (IVM) on dung beetles from the Old World, but very little is known about this drug's effect on Neotropical dung beetles. Accordingly, we conducted a bioassay with dung spiked with IVM to assess its lethal and sublethal effects on the Neotropical dung beetle Onthophagus landolti Harold. The experimental design consisted of five treated groups G1, G2, G3, G4, and G5 receiving 0.001, 0.01, 0.1, 1.0, and 10 mg IVM/kg dung fresh weight, respectively, and two control groups (solvent control [CGA] and untreated control [CGU]). Adult survival and fecundity were measured throughout a 10-d period, and subsequent egg development and survival were monitored. Adult survival was only affected for treatment groups G4 and G5 groups (70 and 30%, respectively); groups G1, G2, G3 and both controls exhibited 100% survival. Fecundity was completely suppressed under treatment groups G4 and G5. Group G3 only had 1.7 and 2.1% brood mass production relative to CGA and CGU, respectively. Additionally, for groups G1 and G2 the proportion of adults emerging from brood masses was lower relative to CGA. Furthermore, development time for the second generation in groups G1 and G2 was 12.5% slower relative to control groups. Finally, dung removal by beetles from groups G3, G4, and G5 was significantly lower relative to control groups. In conclusion, toxic effects of IVM on O. landolti are associated mainly with reduced fecundity and lower dung-removal by adult beetles as well as reduced survival and slower development of offspring.

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