Effects of prey capture on the swimming and feeding performance of choanoflagellates

IF 2.8 Q2 MECHANICS
H. Nguyen, E. Ross, R. Cortez, L. Fauci, M. Koehl
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引用次数: 0

Abstract

Abstract Locomoting organisms often carry loads such as captured prey or young. Load-carrying effects on high-Reynolds-number flight have been studied, but the fluid dynamics of load carrying by low-Reynolds-number microorganisms has not. We studied low-Reynolds-number load carrying using unicellular choanoflagellates, which wave a flagellum to swim and create a water current transporting bacterial prey to a food-capturing collar of microvilli. A regularized Stokeslet framework was used to model the hydrodynamics of a swimming choanoflagellate with bacterial prey on its collar. Both the model and microvideography of choanoflagellates showed that swimming speed decreases as number of prey being carried increases. Flux of water into the capture zone is reduced by bacteria on the collar, which redirect the water flow and occlude parts of the collar. Feeding efficiency (prey captured per work to produce the feeding current) is decreased more by large prey, prey in the plane of flagellar beating and prey near microvillar tips than by prey in other locations. Some choanoflagellates can attach themselves to surfaces. We found that the reduction in flux due to bacterial prey on the collars of these attached thecate cells was similar to the reduction in flux for swimmers.
捕获猎物对鞭藻游泳和摄食性能的影响
运动的生物经常携带诸如捕获的猎物或幼体之类的负荷。高雷诺数飞行的载荷效应已经得到了研究,但低雷诺数微生物的载荷流体动力学尚未得到研究。我们研究了单细胞领鞭毛虫的低雷诺数负荷,它们摆动鞭毛游泳,并产生水流,将细菌猎物运送到微绒毛的食物捕获项圈。一个正则化的Stokeslet框架被用来模拟有细菌猎物在其项圈上游动的鞭藻的流体动力学。鞭毛藻的模型和显微录像显示,游动速度随着猎物数量的增加而降低。进入捕获区的水通量被衣领上的细菌所减少,这些细菌改变了水流的方向,阻塞了衣领的某些部分。大型猎物、鞭毛搏动平面内的猎物和微绒毛尖附近的猎物比其他位置的猎物更能降低捕食效率(每次工作捕获的猎物产生捕食电流)。一些鞭藻可以附着在物体表面。我们发现,由于细菌捕食这些附着的鞘细胞的项圈而导致的通量减少与游泳者的通量减少相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.40
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