Laura V. Ferguson, Amal El Nabbout, Shelley A. Adamo
{"title":"气候变暖(而非感染包柔氏包虫病)会增加体外寄生虫黄斑伊蚊(Ixodes scapularis)的非宿主冬季活动","authors":"Laura V. Ferguson, Amal El Nabbout, Shelley A. Adamo","doi":"10.1016/j.jtherbio.2024.103853","DOIUrl":null,"url":null,"abstract":"<div><p>Warming winters will change patterns of behaviour in temperate and polar arthropods, but we know little about the drivers of winter activity in animals such as ticks. Any changes in behaviour are likely to arise from a combination of both abiotic (e.g. temperature) and biotic (e.g. infection) drivers, and will have important consequences for survival and species interactions. Blacklegged ticks, <em>Ixodes scapularis,</em> have invaded Atlantic Canada and high proportions (30–50%) are infected with the bacteria causing Lyme disease, <em>Borrelia burgdorferi</em>. Infection is correlated with increased overwintering survival of adult females, and ticks are increasingly active in the winter, but it is unclear if infection is associated with activity. Further, we know little about how temperature drives the frequency of winter activity. Here, we exposed wild-caught, adult, female <em>Ixodes scapularis</em> ticks to three different winter temperature regimes (constant low temperatures, increased warming, and increased warming + variability) to determine the thermal and infection conditions that promote or suppress activity. We used automated behaviour monitors to track daily activity in individual ticks and repeated the study with fresh ticks over three years. Following exposure to winter conditions we determined whether ticks were infected with the bacteria <em>B. burgdorferi</em> and if infection was responsible for any patterns in winter activity. Warming conditions promoted increased activity throughout the overwintering period but infection with <em>B. burgdorferi</em> had no impact on the frequency or overall number of ticks active throughout the winter. Individual ticks varied in their levels of activity throughout the winter, such that some were largely dormant for several weeks, while others were active almost daily; however, we do not yet know the drivers behind this individual variation in behaviour. Overall, warming winters will heighten the risk of tick-host encounters.</p></div>","PeriodicalId":17428,"journal":{"name":"Journal of thermal biology","volume":null,"pages":null},"PeriodicalIF":2.9000,"publicationDate":"2024-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Warming, but not infection with Borrelia burgdorferi, increases off-host winter activity in the ectoparasite, Ixodes scapularis\",\"authors\":\"Laura V. Ferguson, Amal El Nabbout, Shelley A. 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Here, we exposed wild-caught, adult, female <em>Ixodes scapularis</em> ticks to three different winter temperature regimes (constant low temperatures, increased warming, and increased warming + variability) to determine the thermal and infection conditions that promote or suppress activity. We used automated behaviour monitors to track daily activity in individual ticks and repeated the study with fresh ticks over three years. Following exposure to winter conditions we determined whether ticks were infected with the bacteria <em>B. burgdorferi</em> and if infection was responsible for any patterns in winter activity. Warming conditions promoted increased activity throughout the overwintering period but infection with <em>B. burgdorferi</em> had no impact on the frequency or overall number of ticks active throughout the winter. Individual ticks varied in their levels of activity throughout the winter, such that some were largely dormant for several weeks, while others were active almost daily; however, we do not yet know the drivers behind this individual variation in behaviour. 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引用次数: 0
摘要
冬季变暖将改变温带和极地节肢动物的行为模式,但我们对蜱等动物冬季活动的驱动因素知之甚少。行为的任何变化都可能来自非生物(如温度)和生物(如感染)驱动因素的结合,并将对生存和物种相互作用产生重要影响。黑脚蜱(Ixodes scapularis)已经入侵加拿大大西洋地区,其中很大一部分(30-50%)感染了导致莱姆病的细菌--鲍氏梭状芽孢杆菌(Borrelia burgdorferi)。感染与成年雌性蜱越冬存活率增加有关,而且蜱虫在冬季越来越活跃,但感染是否与活动有关尚不清楚。此外,我们对温度如何影响冬季活动频率知之甚少。在这里,我们将野生捕获的成年雌性白头伊蚊暴露于三种不同的冬季温度机制(恒定低温、升温、升温+变化)中,以确定促进或抑制活动的热和感染条件。我们使用自动行为监测器来跟踪单个蜱虫的日常活动,并在三年内用新鲜蜱虫重复这项研究。在暴露于冬季条件下后,我们确定了蜱虫是否感染了布氏杆菌,以及感染是否是导致冬季活动模式的原因。温暖的条件促进了整个越冬期蜱虫活动的增加,但感染 B. burgdorferi 对整个冬季蜱虫活动的频率或总数没有影响。个体蜱虫在整个冬季的活动水平各不相同,有些蜱虫在数周内基本处于休眠状态,而有些蜱虫则几乎每天都在活动;然而,我们还不知道这种个体行为差异背后的驱动因素。总的来说,冬季变暖将增加蜱虫宿主相遇的风险。
Warming, but not infection with Borrelia burgdorferi, increases off-host winter activity in the ectoparasite, Ixodes scapularis
Warming winters will change patterns of behaviour in temperate and polar arthropods, but we know little about the drivers of winter activity in animals such as ticks. Any changes in behaviour are likely to arise from a combination of both abiotic (e.g. temperature) and biotic (e.g. infection) drivers, and will have important consequences for survival and species interactions. Blacklegged ticks, Ixodes scapularis, have invaded Atlantic Canada and high proportions (30–50%) are infected with the bacteria causing Lyme disease, Borrelia burgdorferi. Infection is correlated with increased overwintering survival of adult females, and ticks are increasingly active in the winter, but it is unclear if infection is associated with activity. Further, we know little about how temperature drives the frequency of winter activity. Here, we exposed wild-caught, adult, female Ixodes scapularis ticks to three different winter temperature regimes (constant low temperatures, increased warming, and increased warming + variability) to determine the thermal and infection conditions that promote or suppress activity. We used automated behaviour monitors to track daily activity in individual ticks and repeated the study with fresh ticks over three years. Following exposure to winter conditions we determined whether ticks were infected with the bacteria B. burgdorferi and if infection was responsible for any patterns in winter activity. Warming conditions promoted increased activity throughout the overwintering period but infection with B. burgdorferi had no impact on the frequency or overall number of ticks active throughout the winter. Individual ticks varied in their levels of activity throughout the winter, such that some were largely dormant for several weeks, while others were active almost daily; however, we do not yet know the drivers behind this individual variation in behaviour. Overall, warming winters will heighten the risk of tick-host encounters.
期刊介绍:
The Journal of Thermal Biology publishes articles that advance our knowledge on the ways and mechanisms through which temperature affects man and animals. This includes studies of their responses to these effects and on the ecological consequences. Directly relevant to this theme are:
• The mechanisms of thermal limitation, heat and cold injury, and the resistance of organisms to extremes of temperature
• The mechanisms involved in acclimation, acclimatization and evolutionary adaptation to temperature
• Mechanisms underlying the patterns of hibernation, torpor, dormancy, aestivation and diapause
• Effects of temperature on reproduction and development, growth, ageing and life-span
• Studies on modelling heat transfer between organisms and their environment
• The contributions of temperature to effects of climate change on animal species and man
• Studies of conservation biology and physiology related to temperature
• Behavioural and physiological regulation of body temperature including its pathophysiology and fever
• Medical applications of hypo- and hyperthermia
Article types:
• Original articles
• Review articles
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