J.P. Caruso scite author profile

Predation is an important selective force that influences animal color patterns. Some larval populations of the streamside salamander, Ambystoma barbouri, inhabit streams with fish predators. Other larval salamanders are found in shallow, ephemeral streams that are predator-free. Quantitative melanophore cell counts and estimates of percent body area pigmented indicated that larval coloration is strongly correlated with stream type. Larvae that coexist with fish tend to be lighter than larvae from streams that are Ashless and ephemeral. Two approaches demonstrated that lightly pigmented salamander larvae better match the common background in relatively permanent streams and are less conspicuous to fish than dark larvae. First, using a model based on the spectral sensitivity of the fish and reflectance properties of salamanders and natural stream backgrounds, we showed that light larvae are three times more cryptic than dark larvae on rocks. Second, lighter larvae had higher survival than darker salamanders on rocks in a predator- choice experiment. It is not clear why larvae in ephemeral streams are darker. Larvae in ephemeral streams should be active to feed and develop rapidly and reach sufficient size to metamorphose before seasonal drying. Several hypotheses may explain why larvae tend to be darker in ephemeral streams, such as increased thermoregulatory ability, better screening of ultraviolet radiation (in these shallower streams), or better background matching to terrestrial predators. Among populations where salamander larvae coexist with fish, there are differences in relative crypsis. Larvae from populations with fish and relatively high gene flow from ephemeral populations (where larvae are dark) tend to be darker (with more melanophores) and more conspicuous to predators than those from more genetically isolated populations, where larvae are lighter and more cryptic. These differences illustrate the role of gene flow as a constraint to adaptive evolution.

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Emergence of Third-Stage Larvae of Angiostrongylus costaricensis Morera and Cespedes 1971 from Biomphalaria glabrata (Say)

Ubelaker¹,

Bullick²,

Caruso³

1980

The Journal of Parasitology

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Experimental Infection of Sigmodon hispidus with Third-Stage Larvae of Angiostrongylus costaricensis

Ubelaker¹,

Caruso²,

Peña³

1981

The Journal of Parasitology

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Adult Sigmodon hispidus, were given 50 third-stage larvae of Angiostrongylus costaricensis orally, intraperitoneally, subcutaneously, and on abraded and unabraded skin. Larvae could not penetrate unbroken skin but established normal infections in the cecal vasculature by all other routes. Significantly more adults were recovered after oral and intraperitoneal inoculation than subcutaneously or through abraded skin. In a single animal given larvae subcutaneously, adult worms were recovered from the pulmonary arteries, an abnormal location for this species of metastrongylid nematode, which usually occurs in the ileocolic mesenteric arteries.

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Phagocytic Functions of Pulmonary Alveolar Macrophages in Genetically Selected Lean and Obese Swine and the Effects of Exogenous Linolenic Acid upon Cell Function

Caruso

Jeska

1990

Veterinary Immunology and Immunopathology

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J.P. Caruso

Immunopathogenesis of canine angistrongylosis: Pulmonary effects of infection

ADAPTIVE COLORATION AND GENE FLOW AS A CONSTRAINT TO LOCAL ADAPTATION IN THE STREAMSIDE SALAMANDER, AMBYSTOMA BARBOURI

Emergence of Third-Stage Larvae of Angiostrongylus costaricensis Morera and Cespedes 1971 from Biomphalaria glabrata (Say)

Experimental Infection of Sigmodon hispidus with Third-Stage Larvae of Angiostrongylus costaricensis

Phagocytic Functions of Pulmonary Alveolar Macrophages in Genetically Selected Lean and Obese Swine and the Effects of Exogenous Linolenic Acid upon Cell Function

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