Thermal niche partitioning and phenology of Nearctic and Palearctic flea (Siphonaptera) communities on rodents (Mammalia: Rodentia) from five ecoregions.

IF 1.4 3区 农林科学 Q2 ENTOMOLOGY Journal of Vector Ecology Pub Date : 2022-12-01 DOI:10.52707/1081-1710-47.2.217
Robert L Bossard
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引用次数: 1

Abstract

Seasonality of fleas (Siphonaptera) may be due to species competition, prompting the idea that flea species partition temperature, along with correlated variables such as moisture (thermal-niche partitioning hypothesis). I compared the fleas of five rodent-flea communities described from the literature for thermal-niche optima by fitting non-linear LRF (Lobry-Rosso-Flandrois) curves to examine whether flea species in a community show distinct, partitioned thermal niches. LRF curves estimate physiological parameters of temperature minimum, optimum, maximum, and maximum abundance, and facilitate comparison between species by summarizing seasonal data. Flea-communities were on Nearctic Southern flying squirrel (Glaucomys volans volans), Richardson's ground-squirrel (Urocitellus richardsonii), North American deer-mouse (Peromyscus maniculatus), and Palearctic Midday jird (Meriones meridianus), and Wagner's gerbil (Dipodillus dasyurus). Flea communities appeared to show seasonality consistent with thermal-niche partitioning. Several flea families and genera had characteristic thermal niches: Ceratophyllidae had broad tolerance to extreme temperature, Leptopsyllidae (one species in this study) to cold, and Pulicidae to hot. In contrast, at the local, species level, climatic speciation could be significant in flea diversification. Non-competition hypotheses (environmental filtering, neutrality) require testing, too. Thermal-niche partitioning may increase flea species richness on hosts and could occur in other insect and plant communities. Implications for biodiversity conservation and disease ecology under global warming are wide-ranging.

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五个生态区啮齿动物(哺乳目:啮齿目)上新北和古北跳蚤群落的热生态位划分和物候特征。
跳蚤(管翅目)的季节性可能是由于物种竞争,促使跳蚤物种分配温度,以及相关变量,如湿度(热生态位分配假说)。通过拟合非线性LRF (Lobry-Rosso-Flandrois)曲线,比较了文献中描述的5种啮齿动物-跳蚤群落的最佳热生态位,以检验群落中的跳蚤物种是否表现出明显的、分区的热生态位。LRF曲线估计了温度最小、最适、最大和最大丰度的生理参数,并通过汇总季节数据便于物种间的比较。蚤类群落分布在新北极南方飞鼠(Glaucomys volans volans)、理查德森地松鼠(Urocitellus richardsonii)、北美鹿鼠(Peromyscus maniculatus)、古北极午间鸟(Meriones meridianus)和瓦格纳沙鼠(Dipodillus dasyurus)上。跳蚤群落表现出与热生态位划分一致的季节性。几个蚤科和属都有其特有的热生态位:毛蚤科对极端温度具有广泛的耐受性,轻蚤科(本研究中的一个种)对寒冷有较强的耐受性,毛蚤科对高温有较强的耐受性。相比之下,在局部物种水平上,气候物种形成可能是蚤类多样化的重要因素。非竞争假设(环境过滤、中立)也需要测试。热生态位分配可能增加寄主身上跳蚤种类的丰富度,并可能发生在其他昆虫和植物群落中。全球变暖对生物多样性保护和疾病生态学的影响是广泛的。
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来源期刊
Journal of Vector Ecology
Journal of Vector Ecology 生物-昆虫学
CiteScore
2.60
自引率
5.90%
发文量
31
审稿时长
6-12 weeks
期刊介绍: The Journal of Vector Ecology is an international journal published by the Society for Vector Ecology. It is concerned with all aspects of the biology, ecology, and control of arthropod and vertebrate vectors and the interrelationships between the vectors and the agents of disease that they transmit. The journal publishes original research articles and scientific notes, as well as comprehensive reviews of vector biology based on presentations at Society meetings. All papers are reviewed by at least two qualified scientists who recommend their suitability for publication. Acceptance of manuscripts is based on their scientific merit and is the final decision of the editor, but these decisions may be appealed to the editorial board. The journal began publishing in 1974 and now publishes on-line only.
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