Factors associated with the catastrophic decline of a cloudforest frog fauna in Guatemala

Comparison of recent and historical surveys of frog populations in cloudforest habitat in Sierra de las Minas, Guatemala, indicated population declines and local extirpation of several species. Pathological exams of diseased tadpoles indicated infection by amphibian chytridiomycosis. The local habitat has been severely altered by recent establishment of large-scale leatherleaf fern production. Analysis of water chemistry at our study site suggested increased nitrogenation associated with the leatherleaf industry.     

Time-dependent effect of hypoxia on carotid body chemosensory function

The time-dependent effects of hypoxia on the discharge rate carotid chemoreceptors were measured in anesthetized cats. Hypoxic exposure of two different durations were used: a short-term exposure (2-3 h) was used to measure the response of the same carotid chemoreceptors; and a long-term exposure (28 days at inspired PO2 of 70 Torr) to study carotid chemoreceptor properties in one group of cats relative to those of a control group. In the chronically hypoxic and control groups, determinations were made of the 1) steady-state responses to four levels of arterial PO2 (PaO2) at constant levels of arterial PCO2; 2) steady-state responses to acute hypercapnia during hyperoxia; and 3) maximal discharge rates during anoxia. We found that the acute responses of carotid chemoreceptor afferents to a given level of hypoxia (PaO2 = 30-40 Torr) did not significantly change within 2-3 h. After long-term exposure the carotid chemoreceptor responses to hypoxia significantly increased, with no significant changes in the hypercapnic response and in the maximal discharge rate during anoxia. We conclude that isocapnic hypoxia may not elicit a sufficient cellular response within 2-3 h in the cat carotid body to sensitize the O2 responsive mechanism, but hypoxia of longer duration will sensitize such a mechanism, thereby augmenting the chemosensory activity.     

The influence of fish size size on the avoidance of hypoxia and oxygen selection by largemouth bass

When an oxygen gradient ranging from c . 10 to 95% air saturation was formed in a 5 m chamber, largemouth bass Micropterus salmoides avoided water in which dissolved oxygen values were <27% air saturation. There was a significant ( P <0·05) correlation between fish mass and the level of dissolved aquatic oxygen that was selected. Small fish (23–500 g) utilized waters of lower oxygen levels than did the larger fish (1000–3000 g). The results of this study suggest that largemouth bass are able to sense and avoid hypoxic water, and select aquatic oxygen tensions that maintain their metabolic scope for growth and activity.     

The ventilatory responses of the caecilian Typhlonectes natans to hypoxia and hypercapnia

Typhlonectes natans empty their lungs in a single extended exhalation and subsequently fill their lungs by using a series of 10-20 inspiratory buccal oscillations. These animals always use this breathing pattern, which effectively separates inspiratory and expiratory airflows, unlike most urodele and anuran amphibians that may use one to many buccal oscillations for lung inflation and typically mix expired and inspired gases. Aquatic hypoxia had no significant effect on the breathing pattern or mechanics in these animals. Aerial hypoxia stimulated ventilatory frequency and increased the number of inspiratory oscillations but had little effect on inspiratory and expiratory tidal volume. Aquatic hypercapnia elicited a large significant increase in air-breathing frequency and minute ventilation compared to the small stimulation of minute ventilation seen during aerial hypercapnia. Some animals responded to aquatic hypercapnia with a series of three or four closely spaced breaths separated by long nonventilatory periods. Overall, T. natans showed little capacity to modulate expiratory or inspiratory tidal volumes and depended heavily on changing air-breathing frequency to meet hypoxic and hypercapnic challenges. These responses are different from those of anurans or urodeles studied to date, which modulate both the number of ventilatory oscillations in lung-inflation cycles and the degree of lung inflation when challenged with peripheral or central chemoreceptor stimulation.     

Branchial chemoreceptors mediate ventilatory responses to hypercapnic acidosis in channel catfish

The effects of hyperoxic hypercapnia on cardiovascular and ventilatory variables and blood gas and acid/base parameters were examined in conscious and anesthetized spontaneously breathing (ASB) channel catfish, Ictalurus punctatus. These separate experiments were designed to determine: (1) if channel catfish show a ventilatory response to hypercapnic acidosis when blood O(2) content is maintained in conscious animals; and (2) whether branchial receptors innervated by cranial nerves IX and X mediate this response. The combination of high O(2) and CO(2) tensions allowed the cardioventilatory effects of hypercapnic acidosis to be assessed independently of Root or Bohr mediated changes in blood O(2) content. In the absence of significant changes in dorsal or ventral aorta O(2) content, hyperoxic hypercapnia significantly stimulated ventilation, relative to hyperoxic exposure. Hypercapnic acidosis, however, had no significant effects on blood pressure or heart rate. Branchial denervation in ASB fish abolished the ventilatory response to hypercapnic acidosis. The results indicate that hypercapnic acidosis independently stimulates ventilation in channel catfish. This response is mediated by CO(2)/pH-sensitive branchial receptors innervated by cranial nerves IX and X.     

Oxygen uptake in mice infected with Trichinella spiralis

Oxygen consumption, rectal temperature, and the level of activity in mice infected with Trichinella spiralis were significantly reduced below that seen in uninfected controls for periods of time during the first 30 days following infection. The differences in oxygen consumption between controls and infected animals were evident throughout the 24-hr period comprising day 7 postinfection. Both oxygen consumption and rectal temperature increased with decreasing level of infection. These changes in oxygen consumption, rectal temperature, and activity are discussed in terms of pathophysiologic and immunopathologic changes known to occur during the course of infection.     

The ecological role of caudal lamellae loss in the larval damselfly,Ischnura posita (Hagen) (Odonata: Zygoptera)

Summary Damselfly larvae may autotomize and regenerate any of their 3 caudal lamellae. At least one missing or regenerating lamella was evident in 50.1% of field collected Ischnura posita larvae. Lamellae loss during molting is very infrequent (1 out of 117 recorded molts). Laboratory trials indicate that conspecifics remove lamellae and that this process is density dependent. The percentage of larvae losing lamellae during 24 h trials ranged from 73.5 at the highest density tested to 17.3 at the lowest density. I. posita larvae are cannibalistic. The presence of lamellae reduces an individual's chance of being cannibalized. More than twice as many final instar lamellae-less larvae were cannibalized during 24 h trials than analogous individuals having 3 lamellae at experimental initiation. Costs are also associated with lamellae autotomy. 1) Although individuals without lamellae can swim they are more reluctant to release from a wooden stalk and swim when threatened (9% release) than are larvae with lamellae (29% release). Since swimming is part of their repertoire of anti-predator behaviors this behavioral shift should be detrimental. 2) Caudal lamellae function in O₂ uptake. Trials were conducted with larvae having and not having lamellae in an experimental horizontal oxygen gradient system. Relative to larvae without lamellae, those with lamellae preferred deeper depths at PO₂ values greater than 70 torr. Many lamellae-less larvae distributed themselves at the water surface throughout the range of PO₂ values tested. Differential depth distribution between larvae with and without lamellae is highly significant (P < 0.01).