Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees?

Veteli T O; Mattson W J; Niemela P; Julkunen Tiitto R; Kellomaki S; Kuokkanen K; Lavola A

首页> 外文期刊>Journal of Chemical Ecology: Official Journal of the International Society of Chemical Ecology >Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees?

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Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees?

机译：升高的温度和CO2通常是否对北方树的酚类植物化学有抵消作用？

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Global climate change includes concomitant changes in many components of the abiotic flux necessary for plant life. In this paper, we investigate the combined effects of elevated CO2 (720 ppm) and temperature (+2 K) on the phytochemistry of three deciduous tree species. The analysis revealed that elevated CO2 generally stimulated increased carbon partitioning to various classes of phenolic compounds, whereas an increase in temperature had the opposite effect. The combined effects of both elevated CO2 and temperature were additive, i.e., canceling one another's individual effects. Obviously, the effects of global climate change on leaf chemistry must simultaneously consider both temperature and CO2. If these results are generally applicable, then the counteracting effect of the temperature is likely to play a major role in alpine, boreal, and arctic zones in determining the balance between populations of plants and herbivores..

机译：全球气候变化包括植物生命所必需的非生物通量的许多组成部分的伴随变化。在本文中，我们研究了升高的CO2（720 ppm）和温度（+2 K）对三种落叶树种植物化学的综合影响。分析表明，升高的二氧化碳通常会刺激碳分配增加到各种酚类化合物中，而温度升高则产生相反的效果。 CO 2和温度升高两者的综合作用是累加的，即抵消了彼此的个体作用。显然，全球气候变化对叶片化学的影响必须同时考虑温度和二氧化碳。如果这些结果普遍适用，那么在确定植物和草食动物种群之间的平衡时，温度的抵消作用可能会在高山，北方和北极地区发挥重要作用。

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来源
《Journal of Chemical Ecology: Official Journal of the International Society of Chemical Ecology》 |2007年第2期|共10页
作者
Veteli T O; Mattson W J; Niemela P; Julkunen Tiitto R; Kellomaki S; Kuokkanen K; Lavola A;
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正文语种 eng
中图分类化学工业;生态学（生物生态学）;
关键词
boreal forests; carbon dioxide; climatic change; environmental temperature; forests; herbivores; leaves; metabolism; phenolic compounds; plant interaction;

机译：寒带森林;二氧化碳;气候变化;环境温度;森林;草食性植物;叶子;新陈代谢;酚类化合物;植物相互作用;

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1. Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees? [J] . Veteli T O, Mattson W J, Niemela P, Journal of Chemical Ecology: Official Journal of the International Society of Chemical Ecology . 2007,第2期

机译：升高的温度和CO2通常是否对北方树的酚类植物化学有抵消作用？
2. Spring photosynthetic recovery of boreal Norway spruce under conditions of elevated [CO₂] and air temperature. (Special Section: The Flakaliden experiments: climate, nutritional and CO2 effects on boreal forests.) [J] . Wallin G., Hall M., Slaney M., Tree Physiology . 2013,第11期

机译：[CO _{2 ]升高和气温升高的条件下，挪威北方云杉春季光合作用的恢复。（特别部分：Flakaliden实验：气候，营养和二氧化碳对北方森林的影响。）}
3. Growth of mature boreal Norway spruce was not affected by elevated [CO₂] and/or air temperature unless nutrient availability was improved. (Special Section: The Flakaliden experiments: climate, nutritional and CO2 effects on boreal forests.) [J] . Sigurdsson B. D., Medhurst J. L., Wallin G., Tree Physiology . 2013,第11期

机译：除非养分利用率提高，否则成熟的北方挪威云杉的生长不会受到[CO _{2 ]和/或气温升高的影响。（特别部分：Flakaliden实验：气候，营养和二氧化碳对北方森林的影响。）}
4. The Effects of Elevated CO2 Concentration on Photosynthesis and Photosystem Ⅱ Photochemistry in a Fast Growing Tree Species, Gmelina Arborea Roxb [C] . Girish K Rasineni, Attipalli R Reddy Photosynthesis research for food, fuel and future . 2010

机译：CO2浓度升高对快速生长的树种Gmelina Arborea Roxb的光合作用和光系统Ⅱ光化学的影响
5. How will the main and interactive effects of elevated [CO2] and elevated temperature affect tree response to drought and drought-induced tree mortality? [D] . Duan, Honglang. 2014

机译：升高的[CO2]和升高的温度的主要交互作用将如何影响树木对干旱和干旱引起的树木死亡的反应？
6. Yield Physiological Performance and Phytochemistry of Basil (Ocimum basilicum L.) under Temperature Stress and Elevated CO2 Concentrations [O] . T. Casey Barickman, Omolayo J. Olorunwa, Akanksha Sehgal, 2021

机译：温度胁迫下罗勒（OCimum Basilicum L.）的产量生理性能和植物化学和CO 2浓度升高
7. Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees [O] . T. O. Veteli, W. J. Mattson, P. Niemelä, 2007

机译：高温和二氧化碳通常会对北方树木的酚类植物化学产生抵消作用

Do elevated temperature and CO2 generally have counteracting effects on phenolic phytochemistry of boreal trees?

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