Evaluación de los efectos de diversas intensidades de estimulación nerviosa sobre la amplitud de la respuesta en diferentes especies / Evaluation of the effects of various intensities of nerve stimulation on the scale of the response in different species

El comportamiento nervioso a la estimulación eléctrica ha sido ampliamente estudiado desde 1840, época en la que se comienza a entender las características de la amplitud de respuesta nerviosa y velocidades de conducción en nervios de animales. La amplitud de respuesta en segmentos de nervios es producto de los potenciales de acción compuestos resultantes a la estimulación eléctrica. En esta investigación se estudió el comportamiento nervioso a potenciales evocados in vivo en humanos (nervio ulnar) e in vitro como nervio aislado en Bufus marinus. Durante la estimulación de los nervios se encontró respuesta de comportamiento cualitativo creciente y heterogéneo intra e ínter-especie. El análisis de las respuestas y mecanismos que participan en estos resultados se discuten.

Nervous behaviour by electrical stimulation has been widely studied since 1840, times that initiated the comprehension of the conduction velocity and nerve's amplitude responses in animals. The amplitude response in nerve segments electrically stimulated is generated by the result of composed action potentials. This research pretended to study the nerve responses to evoked potentials in human in vivo (ulnar nerve) and in vitro in animals (Bufus marinus) in sciatic nerve. Electrical stimulation resulted in rising responses of heterogeneous quality inter and intra-species. Mechanisms involved in each response are examined.

Effects of azadirachtin on mortality, fertilization, and swimming speed in larvae of the cane toad, Bufo marinus (Anura: Bufonidae).

Experiments were conducted to assess the effects of azadirachtin (AZ) on survival capacity, fertilization success, and swimming speed in larval stages of the cane toad, Bufo marinus . LC50 values (96-hr) for various larval stages exposed to 0.50 mg/l AZ were as follows: 5.35 (stage 12), 5.77 (stage 16), 787 (stage 20), 13.43 (stage 24), and 21.54 (stage 30). Tadpoles did not exhibit any apparent disorientation or production of mucous in response to AZ concentrations ranging from 0.3 to 0.5 mg/l. Mortality was significantly higher at 0.50 mg/l AZ than at lower concentrations. At 0.50 mg/l, mortality rate decreased significantly from 36% for stage 12 tadpoles, to 24% for stage 20 tadpoles. Mortality for early stages (stage 12) dropped significantly, from 36% at 0.50 mg/l, to 21% at 0.40 mg/l AZ There were no significant differences in percent mortality for any developmental stage at an AZ concentration of 0.3 mg/l, or for controls (no AZ). Exposure of gametes to 0.30 mg/l AZ did not reduce fertilization success as compared to controls (89.8 vs. 83.7%). At 0.40 mg/l, percent fertilization decreased significantly (68.8%). This effect was even more pronounced at 0.50 mg/l. No significant difference was found in swimming speeds between controls and subjects exposed to 0.30 mg/l AZ. However, at a concentration of 0.40 mg/l, tadpoles required a significantly longer period of time to swim a distance of 140 cm as compared to controls. The potential impact of AZ on amphibian populations is discussed.

Interactions between body temperature regulation and blood acid-base status in anuran amphibians

In vertebrate evolution, the transition from aquatic to terrestrial mode of life was associated with considerable changes in the respiratory system and CO2/pH-sensitive receptors became fundamental. The present review focuses on the combined effects of hypercapnia and body temperature in anuran amphibians, that represent a key group for the transition. Recent studies have indicated that temperature affects the hypercapnic drive to breathe. Conversely, hypercapnia modulates the range of preferred body temperature of amphibians and central (CO2/pH) receptors are likely to be involved.