Matos Ilaine Silveira, Boakye Mickey, Niewiadomski Izzi, Antonio Monica, Carlos Sonoma, Johnson Breanna Carrillo, Chu Ashley, Echevarria Andrea, Fontao Adrian, Garcia Lisa, Kalantar Diana, Madhavan Srinivasan, Mann Joseph, McDonough Samantha, Rohde James, Scudder Meg, Sharma Satvik, To Jason, Tomaka Connor, Vu Bradley, Yokota Nicole, Forbes Holly, Fricker Mark, Blonder Benjamin Wong
Department of Environmental Science Policy and Management, University of California Berkeley, Berkeley, CA, 94720, USA.
School of Biological Sciences, The University of Adelaide, Adelaide, SA, 5005, Australia.
New Phytol. 2024 Oct;244(2):407-425. doi: 10.1111/nph.20037. Epub 2024 Aug 23.
Variation in leaf venation network architecture may reflect trade-offs among multiple functions including efficiency, resilience, support, cost, and resistance to drought and herbivory. However, our knowledge about architecture-function trade-offs is mostly based on studies examining a small number of functional axes, so we still lack a more integrative picture of multidimensional trade-offs. Here, we measured architecture and functional traits on 122 ferns and angiosperms species to describe how trade-offs vary across phylogenetic groups and vein spatial scales (small, medium, and large vein width) and determine whether architecture traits at each scale have independent or integrated effects on each function. We found that generalized architecture-function trade-offs are weak. Architecture strongly predicts leaf support and damage resistance axes but weakly predicts efficiency and resilience axes. Architecture traits at different spatial scales contribute to different functional axes, allowing plants to independently modulate different functions by varying network properties at each scale. This independence of vein architecture traits within and across spatial scales may enable evolution of multiple alternative leaf network designs with similar functioning.
叶脉网络结构的变化可能反映了多种功能之间的权衡,这些功能包括效率、恢复力、支撑、成本以及对干旱和食草动物的抵抗力。然而,我们对结构-功能权衡的了解大多基于对少数功能轴的研究,因此我们仍然缺乏对多维权衡的更综合的认识。在这里,我们测量了122种蕨类植物和被子植物的结构和功能性状,以描述权衡如何在系统发育类群和叶脉空间尺度(小、中、大脉宽)之间变化,并确定每个尺度上的结构性状对每种功能是具有独立影响还是综合影响。我们发现,普遍的结构-功能权衡较弱。结构强烈预测叶片支撑和抗损伤轴,但较弱地预测效率和恢复力轴。不同空间尺度的结构性状对不同的功能轴有贡献,使植物能够通过改变每个尺度上的网络属性来独立调节不同的功能。叶脉结构性状在空间尺度内和跨空间尺度的这种独立性可能使具有相似功能的多种替代叶网络设计得以进化。
