Claudia Londoño scite author profile

Claudia Londoño

3Publications

8Citation Statements Received

109Citation Statements Given

How they've been cited

How they cite others

103

Affiliations

Ave Maria University, University of Valencia Science Park, University of Florida

Publications

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Chemosensory enrichment as a simple and effective way to improve the welfare of captive lizards

et al. 2018

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Environmental enrichment has proven to be a useful and effective welfare tool in order to evaluate and enhance the well‐being of captive animals, but only when it is based on detailed knowledge of each species' natural behaviour. Chemoreception is fundamental to many aspects of reptilian biology; however, sensory enrichment with chemical stimuli has rarely been applied to reptiles. In this study, we evaluate the use of chemosensory enrichment as a method to enhance the welfare of Podarcis liolepis. For seven weeks, we exposed field‐caught males to scents from donor conspecific males collected on pieces of filter paper (i.e., “enriched” group, n = 18), and compared their behaviour to that of control males provided with unscented pieces of filter paper (n = 18). We measured the occurrence of normal (e.g., locomotion) and abnormal (escape attempts) behaviours each day for three weeks. In addition, we conducted two exploration tests and a visual barrier test. Compared to controls, enriched lizards showed a consistent long‐term decrease (29%–38%) in the occurrence of escape attempts. During exploration tests, enriched lizards spent less time performing escape attempts and devoted more time to perching than controls. As expected, both control and enriched lizards showed a reduction of time in locomotion and an increase in the time spent perching between the first and second exploration test, but these changes were significantly more pronounced for enriched animals. Taken together, our results suggest improved welfare of enriched animals, as they spent less time engaging in abnormal behaviours, more time in normal behaviours, and showed signs of faster habituation to a novel environment. Chemosensory enrichment is a relatively simple enrichment strategy that could potentially be applied to improve the welfare of a wide range of captive lizards, and reptiles at large.

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Estudio preliminar morfológico y morfométrico de encéfalo del pez tiburoncito, Ariopsis seemanni, (Pisces: Ariidae)

Londoño¹,

Giraldo

2010

Univ. Sci.

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Objective. To describe morphologically and morphometrically the encephalon of Ariopsis seemanni. Materials and methods. We worked with 10 juvenile specimens which were processed according to the ethical standards for handling fish. Measurements of the total and standard length (cm) and weight (g) were taken for each individual. Specimens were fixed in 4% formaldehyde. The encephalon was removed, the different regions were identified and the measurement of the different lobes was done, indicating their location, morphology, length and area using lateral, dorsal and ventral digitalized images that were measured with the Scion Image program. We calculated means and standard deviations, and obtained the percentage equivalence of each structure in relation to the entire encephalon. These data were then related to the habits of the species. Results. We identified the olfactory bulbs, telencephalic hemispheres, optic lobes, cerebellum, among others. Of the cranial nerves, only the optic nerve was observed. The largest structure of the encephalon is the cerebellum (44 ± 1.2% and 0.23 ± 0.03 cm2 area), followed by the telencephalic hemispheres (28 ± 0.57% and 0.13 ± 0.02 cm2 area). Conclusions. The encephalon morphology of A. seemanni presented the general pattern of teleosts of the order Siluriformes, with the cerebellum as the largest structure of the encephalon. Based on the morphology and morphometry observed in the encephalon, we suggest that A. seemanni uses primarily vision and taste to explore the environment. Key words: teleost, cerebral morphology, sensory sensitivity, neuroecolgy, Ariopsis seemanni.

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092 Plasma cell-free DNA concentration increases during luteolysis in beef cows

Duarte

Londoño

Lasso

et al. 2023

Animal - science proceedings

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