Ecology and Evolutionary Biology and Museum of Natural History, University of Colorado at Boulder, UCB 334, Boulder, CO, 80309, USA.
J Chem Ecol. 2020 Feb;46(2):206-216. doi: 10.1007/s10886-019-01135-8. Epub 2020 Jan 6.
Plants are chemically-complex organisms; each individual contains diverse tissue-types, has the ability to differentially allocate secondary metabolites to these tissues and can change this allocation through time. The interaction of variation in chemical defense of different tissue types and variation in chemical defense through time, however, is rarely examined and has not been studied for iridoid glycoside-producing woody plants. In this study, we quantified allocation of iridoid glycosides (IGs) to the leaves, flowers, fruits, and seeds of 25 individuals of a long-lived shrub (Lonicera x bella Zabel, Caprifoliaceae), at five important phenological timepoints (leaf-out, flowering, fruit appearance, fruit ripening, and fruit dispersal) throughout a growing season. We found that leaves had 2x higher IG concentrations during flowering and fruiting than earlier in the season (after leaf-out), and later in the season (after fruit dispersal). The individual IG driving this increase in leaves during reproduction, secologanin, was also the most abundant IG in semiripe fruits. Flowers and seeds were composed of different proportions of individual IGs than fruits or leaves, but did not change across time and had overall low concentrations of IGs. In L. x bella, phenological events such as flowering and fruiting lead to an increase in leaf chemical defense that is likely to influence interactions with leaf-feeders. Our results stress the importance of considering phenology when sampling plants for the quantification of chemical defenses.
植物是化学组成复杂的生物体;每个个体包含多种组织类型,能够将次生代谢产物有差异地分配到这些组织中,并随时间改变这种分配。然而,不同组织类型的化学防御变化与次生代谢产物化学防御随时间的变化之间的相互作用很少被研究,对于产生环烯醚萜糖苷的木本植物也没有进行过研究。在这项研究中,我们量化了 25 株长寿命灌木(忍冬属 x 贝拉 Zabel,忍冬科)在五个重要物候时间点(展叶、开花、果实出现、果实成熟和果实传播)的叶片、花、果实和种子中分配的环烯醚萜糖苷(IGs)。我们发现,与展叶后(展叶后)和展叶后(果实传播后)的季节相比,花和果实期叶片中的 IG 浓度高出 2 倍。在生殖期间导致叶片中 IG 增加的个体 IG,即梓醇,也是半成熟果实中含量最丰富的 IG。花和种子中的个体 IG 比例与果实或叶片不同,但随时间不变,IG 浓度总体较低。在忍冬属 x 贝拉中,开花和结果等物候事件导致叶片化学防御增加,这可能会影响与叶片取食者的相互作用。我们的研究结果强调了在采样植物以定量化学防御时考虑物候的重要性。
