Yumi Takano scite author profile

Yumi Takano

3Publications

1Citation Statement Received

159Citation Statements Given

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158

Affiliations

Tokyo University of Agriculture and Technology

Publications

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Integrated effects of thermal acclimation and challenge temperature on cellular immunity in the plusiine moth larvaeChrysodeixis eriosoma(Lepidoptera: Noctuidae)

et al. 2020

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Temperature is one of the most influential factors for animals. The acclimation (rearing) and challenge temperatures are often more important than the given temperature per se. These effects on physiological responses have been known, but not well understood on immune responses. Here, we investigated the integrated effects of rearing and challenge temperatures on haemocyte populations in larvae of a plusiine moth, Chrysodeixis eriosoma. We hypothesize that the haemocyte concentration is decreased (increased) at higher (lower) temperatures from rearing temperatures and that the proportions of haemocyte types exhibit directional changes at higher (lower) temperatures to compensate for immune reactions. We expect that increasing (decreasing) the challenge temperature from the rearing temperature enhances (reduces) phagocytic activity. We found that higher temperatures slightly decreased the haemocyte concentration. We detected small changes in the proportions of haemocyte types among rearing temperatures, but the changes were non‐directional and most of them were statistically insignificant. We also found the integrated effects only with increases in the challenge temperatures, which resulted in increased phagocytosis, whereas no apparent reactions were detected with decreases in the challenge temperatures. Our results show that the haemocyte concentration is significantly affected by the rearing temperature, which implies that haematopoiesis depends on the ambient temperature. We discuss some adaptive and non‐adaptive components for the positive integrated effects of increases in the challenge temperatures. We also discussed the obtained non‐responsiveness in the integrated effects with decreases in the challenge temperatures.

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Effects of heat shock and ambient temperature on female soldier production in a polyembryonic parasitic wasp

et al. 2019

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Larval castes are well known in both sexes of polyembryonic parasitic wasps, in which sterile soldier larvae are clonally produced from a single egg and thousands of reproductive larvae develop into adults. The proportion of soldier larvae in Copidosoma floridanum is first determined genetically in both sexes but subsequently increases in females as a result of environmental disturbances, such as the presence of competitive parasitoids. Because temperature is the most influential environmental factor affecting ectotherms, we hypothesize that an increase in ambient temperature also affects the production of female soldier larvae. Conversely, we hypothesize that there would be no effect of temperature on the production of male soldier larvae. In the present study, we show that heat stress experienced by C. floridanum at an early stage in host development increases the number of female soldier larvae produced during the last instar stage of the host. We also show that rearing at extreme (high and low) temperatures induces an increase in the number of female soldiers produced. The effect of heat stress and ambient temperature on soldier production is found only in females, as is the response to heterospecific competitors. By contrast, no responses are detected in males for either heat stress or ambient temperature. The adaptive effect of these phenomena is not known, although the results of the present study imply the existence of a common physiological cascade that causes an increase in the number of soldier larvae in females.

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Multi-Sugar Analysis System Using a Novel Glucose-3-Dehydrogenase Electrode

Hamafuji

Takano

Tsugawa

et al. 2002

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Yumi Takano

Integrated effects of thermal acclimation and challenge temperature on cellular immunity in the plusiine moth larvaeChrysodeixis eriosoma(Lepidoptera: Noctuidae)

Effects of heat shock and ambient temperature on female soldier production in a polyembryonic parasitic wasp

Multi-Sugar Analysis System Using a Novel Glucose-3-Dehydrogenase Electrode

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