黑兵蝇(双翅目:Stratiomyidae)幼虫能减少线虫纲:Strongylidae)的虫卵,但在马粪上发育不良。

Destiny N Mann, Kasey T Hobert, Amy S Biddle, Michael S Crossley
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摘要

杯状寄生虫是放牧马常见的消化道寄生虫,通过接触马粪传播。马粪上有多种生物,其中一些可减少马牧场中的寄生虫数量。黑兵蝇(Hermetia illucens L.;双翅目:Stratiomyidae)幼虫(BSFL)可能是一种理想的寄生虫生物控制候选者,因为它们几乎遍布全球,病原体传播风险低,能够在各种营养贫乏的基质(包括马粪)上发育,并对寄生虫赖以生存的微生物群落产生巨大影响。在这里,我们利用控制饲养生物测定评估了 BSFL 对马粪中的胞囊寄生虫卵密度的影响,同时还跟踪了 BSFL 相对于标准谷物日粮在马粪上的表现。我们发现,与以谷物为基础的日粮相比,BSFL 在马粪上饲养时消耗的基质更少,进入蛹前期的速度更慢,最终产生的生物量也更少。然而,BSFL 在马粪中的平均胞囊线虫卵密度降低了 3 倍多。总之,我们的研究结果表明,尽管马粪是一种不利于 BSFL 生长的基质,但 BSFL 仍能有效减少受感染马粪中的胞线虫卵量,不过其作用机制尚不确定。众所周知,BSFL 能改变多种饲养基质中的微生物群落,但它们对动物粪便中大型寄生生物的影响可能还未得到充分重视。用 BSFL 促进受感染马粪的分解可能是管理放牧马群中寄生虫数量的一种很有前景的方法。
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Black soldier fly (Diptera: Stratiomyidae) larvae reduce cyathostomin (Nematoda: Strongylidae) eggs but develop poorly on horse manure.

Cyathostomins are common digestive tract parasites of grazing horses that spread through contact with horse feces. Horse feces are colonized by a variety of organisms, some of which could serve to reduce parasite loads in horse pastures. Black soldier fly (Hermetia illucens L.; Diptera: Stratiomyidae) larvae (BSFL) could be an ideal candidate for biological control of cyathostomins, due to their near-global distribution, low risk of pathogen transmission, ability to develop on a variety of nutrient-poor substrates (including horse manure), and dramatic effect on microbial communities that cyathostomins depend on. Here, using controlled feeding bioassays, we evaluated the effect of BSFL on cyathostomin egg densities in horse manure while also tracking BSFL performance on manure relative to standard grain-based diets. We found that BSFL consumed less substrate, were slower to reach the prepupal stage, and ultimately yielded less biomass when reared on horse manure compared to grain-based diets. However, BSFL reduced average cyathostomin egg densities in horse manure by over 3-fold. Overall, our results suggest that despite horse manure being a poor substrate for BSFL growth, BSFL effectively reduce cyathostomin egg loads in infected horse manure, though the mechanisms by which they do this are uncertain. While BSFL are known to transform the microbial communities within a diversity of rearing substrates, their effect on larger, parasitic organisms in animal manures may be underappreciated. Promoting the decomposition of infected horse manure with BSFL might be a promising approach to managing parasite populations among grazing horses.

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