Department of Biomathematics and Informatics, University of Veterinary Medicine, Budapest, Hungary.
Balaton Limnological Institute, MTA Centre for Ecological Research, Tihany, Hungary.
Parasitol Res. 2020 Apr;119(4):1327-1335. doi: 10.1007/s00436-020-06634-2. Epub 2020 Mar 16.
Permanent ectoparasites live in stable environments; thus, their population dynamics are mostly adapted to changes in the host life cycle. We aimed to investigate how static and dynamic traits of red-footed falcons interplay with the dynamics of their louse subpopulations during breeding and how they affect the colonisation of new hosts by lice. We sampled red-footed falcon (Falco vespertinus) nestlings (two breeding seasons) and adults (one breeding season) in southern Hungary. The mean abundance of Colpocephalum subzerafae and Degeeriella rufa lice on the nestlings was modelled with generalized linear mixed models using clutch size and host sex in interaction with wing length. For adults, we used wing length and the number of days after laying the first egg, both in interaction with sex. D. rufa abundances increased with the nestlings' wing length. In one year, this trend was steeper on females. In adult birds, both louse species exhibited higher abundances on females at the beginning, but it decreased subsequently through the breeding season. Contrarily, abundances were constantly low on adult males. Apparently, D. rufa postpones transmission until nestlings develop juvenile plumage and choose the more feathered individual among siblings. The sexual difference in the observed abundance could either be caused by the different plumage, or by the females' preference for less parasitized males. Moreover, females likely have more time to preen during the incubation period, lowering their louse burdens. Thus, sex-biased infestation levels likely arise due to parasite preferences in the nestlings and host behavioural processes in the adult falcons.
永久性外寄生虫生活在稳定的环境中;因此,它们的种群动态主要适应宿主生命周期的变化。我们旨在研究红脚隼的静态和动态特征如何与它们的虱子亚种群在繁殖期间的动态相互作用,以及它们如何影响虱子对新宿主的定殖。我们在匈牙利南部采集了红脚隼(Falco vespertinus)雏鸟(两个繁殖季节)和成年鸟(一个繁殖季节)。使用广义线性混合模型,以巢大小和宿主性别相互作用以及翼长为自变量,对雏鸟身上的 Colpocephalum subzerafae 和 Degeeriella rufa 虱子的平均丰度进行建模。对于成年鸟,我们使用翼长和下第一枚蛋后的天数,都与性别相互作用。D. rufa 的丰度随雏鸟的翼长增加。在一年中,这种趋势在雌性中更为陡峭。在成年鸟类中,两种虱子在繁殖季节开始时在雌性上的丰度较高,但随后逐渐降低。相反,成年雄性上的丰度一直很低。显然,D. rufa 会推迟传播,直到雏鸟发育出幼羽,并在兄弟姐妹中选择羽毛更多的个体。观察到的丰度的性别差异可能是由于不同的羽毛,或者是雌性对寄生程度较低的雄性的偏好造成的。此外,雌性在孵化期间可能有更多的时间梳理,从而降低它们的虱子负担。因此,由于寄生虫在雏鸟中的偏好以及成年隼的宿主行为过程,导致感染水平存在性别偏向。
