Effects of a neonicotinoid pesticide on thermoregulation of African honey bees (Apis mellifera scutellata)

[Display omitted] •The thorax temperatures of harnessed foragers fed thiamethoxam was measured by thermal imaging.•Acute oral exposure to thiamethoxam significantly altered bee thorax temperature.•The effects depended on dose and environmental temperature.•The alteration starts 1h post-treatment and...

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Published in:Journal of insect physiology 2016-10, Vol.93-94, p.56-63
Main Authors: Tosi, Simone, Démares, Fabien J., Nicolson, Susan W., Medrzycki, Piotr, Pirk, Christian W.W., Human, Hannelie
Format: Article
Language:English
Subjects:
Animals
Apis mellifera
Apis mellifera scutellata
Bees - drug effects
Bees - physiology
Body Temperature Regulation - drug effects
Cold-Shock Response - drug effects
Hypothermia
Insecticides - toxicity
Neonicotinoids
Nicotinic acetylcholine receptors
Nitro Compounds - toxicity
Oxazines - toxicity
Sublethal effects
Thermogenesis
Thiamethoxam
Thiazoles - toxicity
Thorax temperature
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cites cdi_FETCH-LOGICAL-c449t-49260411274fa779b54247fb89ceb78848050190b5ed03b28ad1852f51d846b23
container_end_page 63
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container_start_page 56
container_title Journal of insect physiology
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creator Tosi, Simone
Démares, Fabien J.
Nicolson, Susan W.
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Pirk, Christian W.W.
Human, Hannelie
description [Display omitted] •The thorax temperatures of harnessed foragers fed thiamethoxam was measured by thermal imaging.•Acute oral exposure to thiamethoxam significantly altered bee thorax temperature.•The effects depended on dose and environmental temperature.•The alteration starts 1h post-treatment and is still present 1day later.•This thermoregulation alteration may affect colony health through foraging activity. Thiamethoxam is a widely used neonicotinoid pesticide that, as agonist of the nicotinic acetylcholine receptors, has been shown to elicit a variety of sublethal effects in honey bees. However, information concerning neonicotinoid effects on honey bee thermoregulation is lacking. Thermoregulation is an essential ability for the honey bee that guarantees the success of foraging and many in-hive tasks, especially brood rearing. We tested the effects of acute exposure to thiamethoxam (0.2, 1, 2ng/bee) on the thorax temperatures of foragers exposed to low (22°C) and high (33°C) temperature environments. Thiamethoxam significantly altered honey bee thorax temperature at all doses tested; the effects elicited varied depending on the environmental temperature and pesticide dose to which individuals were exposed. When bees were exposed to the high temperature environment, the high dose of thiamethoxam increased their thorax temperature 1–2h after exposure. When bees were exposed to the low temperature, the higher doses of the neonicotinoid reduced bee thorax temperatures 60–90min after treatment. In both experiments, the neonicotinoid decreased the temperature of bees the day following the exposure. After a cold shock (5min at 4°C), the two higher doses elicited a decrease of the thorax temperature, while the lower dose caused an increase, compared to the control. These alterations in thermoregulation caused by thiamethoxam may affect bee foraging activity and a variety of in-hive tasks, likely leading to negative consequences at the colony level. Our results shed light on sublethal effect of pesticides which our bees have to deal with.
doi_str_mv 10.1016/j.jinsphys.2016.08.010
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Thiamethoxam is a widely used neonicotinoid pesticide that, as agonist of the nicotinic acetylcholine receptors, has been shown to elicit a variety of sublethal effects in honey bees. However, information concerning neonicotinoid effects on honey bee thermoregulation is lacking. Thermoregulation is an essential ability for the honey bee that guarantees the success of foraging and many in-hive tasks, especially brood rearing. We tested the effects of acute exposure to thiamethoxam (0.2, 1, 2ng/bee) on the thorax temperatures of foragers exposed to low (22°C) and high (33°C) temperature environments. Thiamethoxam significantly altered honey bee thorax temperature at all doses tested; the effects elicited varied depending on the environmental temperature and pesticide dose to which individuals were exposed. When bees were exposed to the high temperature environment, the high dose of thiamethoxam increased their thorax temperature 1–2h after exposure. When bees were exposed to the low temperature, the higher doses of the neonicotinoid reduced bee thorax temperatures 60–90min after treatment. In both experiments, the neonicotinoid decreased the temperature of bees the day following the exposure. After a cold shock (5min at 4°C), the two higher doses elicited a decrease of the thorax temperature, while the lower dose caused an increase, compared to the control. These alterations in thermoregulation caused by thiamethoxam may affect bee foraging activity and a variety of in-hive tasks, likely leading to negative consequences at the colony level. 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Thiamethoxam is a widely used neonicotinoid pesticide that, as agonist of the nicotinic acetylcholine receptors, has been shown to elicit a variety of sublethal effects in honey bees. However, information concerning neonicotinoid effects on honey bee thermoregulation is lacking. Thermoregulation is an essential ability for the honey bee that guarantees the success of foraging and many in-hive tasks, especially brood rearing. We tested the effects of acute exposure to thiamethoxam (0.2, 1, 2ng/bee) on the thorax temperatures of foragers exposed to low (22°C) and high (33°C) temperature environments. Thiamethoxam significantly altered honey bee thorax temperature at all doses tested; the effects elicited varied depending on the environmental temperature and pesticide dose to which individuals were exposed. When bees were exposed to the high temperature environment, the high dose of thiamethoxam increased their thorax temperature 1–2h after exposure. When bees were exposed to the low temperature, the higher doses of the neonicotinoid reduced bee thorax temperatures 60–90min after treatment. In both experiments, the neonicotinoid decreased the temperature of bees the day following the exposure. After a cold shock (5min at 4°C), the two higher doses elicited a decrease of the thorax temperature, while the lower dose caused an increase, compared to the control. These alterations in thermoregulation caused by thiamethoxam may affect bee foraging activity and a variety of in-hive tasks, likely leading to negative consequences at the colony level. 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Thiamethoxam is a widely used neonicotinoid pesticide that, as agonist of the nicotinic acetylcholine receptors, has been shown to elicit a variety of sublethal effects in honey bees. However, information concerning neonicotinoid effects on honey bee thermoregulation is lacking. Thermoregulation is an essential ability for the honey bee that guarantees the success of foraging and many in-hive tasks, especially brood rearing. We tested the effects of acute exposure to thiamethoxam (0.2, 1, 2ng/bee) on the thorax temperatures of foragers exposed to low (22°C) and high (33°C) temperature environments. Thiamethoxam significantly altered honey bee thorax temperature at all doses tested; the effects elicited varied depending on the environmental temperature and pesticide dose to which individuals were exposed. When bees were exposed to the high temperature environment, the high dose of thiamethoxam increased their thorax temperature 1–2h after exposure. 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subjects Animals
Apis mellifera
Apis mellifera scutellata
Bees - drug effects
Bees - physiology
Body Temperature Regulation - drug effects
Cold-Shock Response - drug effects
Hypothermia
Insecticides - toxicity
Neonicotinoids
Nicotinic acetylcholine receptors
Nitro Compounds - toxicity
Oxazines - toxicity
Sublethal effects
Thermogenesis
Thiamethoxam
Thiazoles - toxicity
Thorax temperature
title Effects of a neonicotinoid pesticide on thermoregulation of African honey bees (Apis mellifera scutellata)
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