Institute of Systematic Botany and Ecology, Ulm University, Albert-Einstein-Allee 11, Ulm, 89081, Germany.
Botanische Staatssammlung München, Menzinger Straße 67, Munich, 80638, Germany.
Am J Bot. 2021 Dec;108(12):2356-2370. doi: 10.1002/ajb2.1779. Epub 2021 Dec 24.
Among the sophisticated trap types in carnivorous plants, the underground eel traps of corkskrew plants (Genlisea spp., Lentibulariaceae) are probably the least understood in terms of their functional principle. Here, we provide a detailed analysis of structural and hydraulic features of G. hispidula traps, contributing to the ongoing debate on whether these traps can actively generate water streams to promote prey capture.
Anatomical and hydraulic traits of detached traps, including inner trap diameters, chamber line element, hair length, glandular pattern, and hydraulic conductivity, were investigated quantitatively using light and electron microscopy, x-ray microtomography, and hydraulic measurements.
Hydraulic resistivity in the neck of the trap, from the trap mouth toward the vesicle (digestive chamber) was 10 times lower than in the opposite direction. The comparison of measured and theoretical flow rates suggests that the retrorse hairs inside trap necks also provide considerable resistance against movement of matter toward the vesicle. Hairs showed a gradient in length along the neck, with the shortest hairs near the vesicle. Co-occurrence of quadrifid and bifid glands was limited to a small part of the neck, with quadrifids near the vesicle and bifids toward the trap mouth.
The combination of structural gradients with hydraulic anisotropy suggests the trap is a highly fine-tuned system based on likely trade-offs between efficient prey movement in the trap interior toward the vesicle, prey retention, and spatial digestion capacities and is not counter to the generation of water streams.
在肉食植物复杂的陷阱类型中,螺旋狸藻属植物(Genlisea spp.,狸藻科)的地下鳗鱼陷阱在功能原理方面可能是了解最少的。在这里,我们对 G. hispidula 陷阱的结构和水力特征进行了详细分析,为正在进行的关于这些陷阱是否可以主动产生水流以促进猎物捕获的争论提供了依据。
使用光学显微镜、电子显微镜、X 射线微断层扫描和水力测量对分离的陷阱的解剖学和水力特征,包括内陷直径、室线元件、毛发长度、腺体模式和水力传导率进行了定量研究。
陷阱颈部(从陷阱口到囊泡(消化腔))的水力电阻比相反方向低 10 倍。测量和理论流速的比较表明,陷阱颈部内的反向毛发也对物质向囊泡移动提供了相当大的阻力。毛发在颈部沿长度呈梯度分布,靠近囊泡的毛发最短。四裂腺和二裂腺的共发生仅限于颈部的一小部分,四裂腺靠近囊泡,二裂腺靠近陷阱口。
结构梯度与水力各向异性的结合表明,该陷阱是一个高度精细的系统,可能在有效猎物在内陷向囊泡移动、猎物保留和空间消化能力之间存在权衡,并不违背水流的产生。
