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UVB 升高、温度升高和施肥对年轻挪威云杉(Picea abies)幼苗生长、针叶结构和植物化学成分的综合影响。

Combined effect of elevated UVB, elevated temperature and fertilization on growth, needle structure and phytochemistry of young Norway spruce (Picea abies) seedlings.

机构信息

Department of Biology, University of Eastern Finland, P.O. Box 111, Joensuu, FI-80101, Finland.

出版信息

Glob Chang Biol. 2014 Jul;20(7):2252-60. doi: 10.1111/gcb.12464. Epub 2014 Apr 23.

DOI:10.1111/gcb.12464
PMID:24804850
Abstract

Simultaneously with warming climate, other climatic and environmental factors are also changing. Here, we investigated for the first time the effects of elevated temperature, increased ultraviolet-B (UVB) radiation, fertilization and all combinations of these on the growth, secondary chemistry and needle structure of 1-year-old Norway spruce (Picea abies (L.) Karst.) seedlings in an outdoor experiment. After one growing season, elevated temperature increased root : shoot ratio and concentrations of needle piperidine alkaloids, while concentrations of needle catechins and acetophenones and bark flavonoids decreased compared with ambient temperature seedlings. UVB-radiation increased concentrations of bark condensed tannins, while fertilization increased total biomass and concentrations of needle catechins. In addition to the main effects, concentrations of some individual phenolic compounds showed UV × temperature or UV × temperature × fertilization interactions, and fertilization modified temperature response on root : shoot ratio. All the treatments described here affected the defence chemistry profiles of the seedlings, which may imply some changes in plant-herbivore interactions in connection with changing climate. The interactions between treatments indicate a need for further experiments involving several simultaneously affecting environmental changes.

摘要

随着气候变暖,其他气候和环境因素也在发生变化。在这里,我们首次在户外实验中研究了升高温度、增加紫外线-B(UVB)辐射、施肥以及它们的所有组合对 1 年生挪威云杉(Picea abies (L.) Karst.)幼苗生长、次生化学和针叶结构的影响。经过一个生长季后,与环境温度幼苗相比,升高温度增加了根:芽比和针叶哌啶生物碱的浓度,而针叶儿茶素和苯乙酮以及树皮类黄酮的浓度降低。UVB 辐射增加了树皮缩合单宁的浓度,而施肥则增加了总生物量和针叶儿茶素的浓度。除了主要作用外,一些酚类化合物的浓度表现出 UV ×温度或 UV ×温度 ×施肥的相互作用,施肥改变了根:芽比的温度响应。这里描述的所有处理都影响了幼苗的防御化学特征,这可能意味着与气候变化相关的植物-食草动物相互作用发生了一些变化。处理之间的相互作用表明需要进行更多涉及几个同时影响环境变化的实验。

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