2015
DOI: 10.1007/978-3-319-22936-2_5
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Can Parasites Change Thermal Preferences of Hosts?

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Cited by 3 publications
(3 citation statements)
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“…In fish, a sudden drop in temperature diminishes the production of immune cellular and molecular resources, impairs T cell-dependent immune responses and may led to cellular inactivation or anergy (4042). High temperatures correlate with enhanced parasite transmission and resilience within hosts' bodies (43, 44), even when the onset of behavioral fever may stimulate phagocytic activation and modulate innate humoral responses (45). In fish, shifting too far away from thermopreferendum wakes up distress-induced genes and alters the responsiveness of HPI and immune axis (46), but the overall effect may be modulated by acclimation to temperature changes (42).…”
Section: Overcoming the Scenic Fearmentioning
confidence: 99%
“…In fish, a sudden drop in temperature diminishes the production of immune cellular and molecular resources, impairs T cell-dependent immune responses and may led to cellular inactivation or anergy (4042). High temperatures correlate with enhanced parasite transmission and resilience within hosts' bodies (43, 44), even when the onset of behavioral fever may stimulate phagocytic activation and modulate innate humoral responses (45). In fish, shifting too far away from thermopreferendum wakes up distress-induced genes and alters the responsiveness of HPI and immune axis (46), but the overall effect may be modulated by acclimation to temperature changes (42).…”
Section: Overcoming the Scenic Fearmentioning
confidence: 99%
“…Symbionts, ranging from mutualists to parasites, may further influence their hosts' T p which can lead to complex eco‐evolutionary dynamics (Corbin et al, 2017; de Roode & Lefèvre, 2012; Żbikowska & Cichy, 2015). Ectothermic hosts, for example, can shift their T p to higher temperatures (‘behavioural fever’; Kluger, 1979; Thomas & Blanford, 2003) or lower temperatures (‘behavioural anapyrexia’; Fedorka et al, 2016; Moore & Freehling, 2002; Müller & Paul, 1993) as a form of self‐medication by moving to thermal environments outside the optimum of their parasitic symbiont.…”
Section: Introductionmentioning
confidence: 99%
“…Symbionts, ranging from mutualists to parasites, may further influence their hosts´ T p which can lead to complex eco-evolutionary dynamics (de Roode and Lefèvre, 2012; Żbikowska and Cichy, 2015;Corbin et al, 2017). Ectothermal hosts, for example, can shift their T p to higher temperatures ("behavioral fever"; Kluger, 1979;Thomas and Blanford, 2003) or lower temperatures ("behavioral anapyrexia"; Müller and Paul, 1993;Moore and Freehling, 2002;Fedorka et al, 2016) as a form of self-medication by moving to thermal environments outside the optimum of their parasitic symbiont.…”
Section: Introductionmentioning
confidence: 99%