Atmospheric Degradation of Ecologically Important Biogenic Volatiles: Investigating the Ozonolysis of (E)-β-Ocimene, Isomers of α and β-Farnesene, α-Terpinene and 6-Methyl-5-Hepten-2-One, and Their Gas-Phase Products.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-04-01 Epub Date: 2024-01-09 DOI:10.1007/s10886-023-01467-6
Dalila Touhami, Adedayo O Mofikoya, Robbie D Girling, Ben Langford, Pawel K Misztal, Christian Pfrang
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Abstract

Biogenic volatile organic compounds (bVOCs), synthesised by plants, are important mediators of ecological interactions that can also undergo a series of reactions in the atmosphere. Ground-level ozone is a secondary pollutant generated through sunlight-driven reactions between nitrogen oxides (NOx) and VOCs. Its levels have increased since the industrial revolution and reactions involving ozone drive many chemical processes in the troposphere. While ozone precursors often originate in urban areas, winds may carry these hundreds of kilometres, causing ozone formation to also occur in less populated rural regions. Under elevated ozone conditions, ozonolysis of bVOCs can result in quantitative and qualitative changes in the gas phase, reducing the concentrations of certain bVOCs and resulting in the formation of other compounds. Such changes can result in disruption of bVOC-mediated behavioural or ecological interactions. Through a series of gas-phase experiments using Gas Chromatography Mass Spectrometry (GC-MS) and Proton Transfer Reaction Mass Spectrometry (PTR-MS), we investigated the products and their yields from the ozonolysis of a range of ubiquitous bVOCs, which were selected because of their importance in mediating ecological interactions such as pollinator and natural enemy attraction and plant-to-plant communication, namely: (E)-β-ocimene, isomers of α and β-farnesene, α-terpinene and 6-methyl-5-hepten-2-one. New products from the ozonolysis of these compounds were identified, and the formation of these compounds is consistent with terpene-ozone oxidation mechanisms. We present the degradation mechanism of our model bVOCs and identify their reaction products. We discuss the potential ecological implications of the degradation of each bVOC and of the formation of reaction products.

Abstract Image

具有生态重要性的生物挥发物在大气中的降解:研究 (E)-β-Ocimene 、α 和 β-法呢烯、α-萜品烯和 6-甲基-5-庚烯-2-酮的异构体及其气相产物的臭氧分解。
由植物合成的生物挥发性有机化合物(bVOCs)是生态相互作用的重要媒介,也会在大气中发生一系列反应。地面臭氧是氮氧化物(NOx)和挥发性有机化合物在阳光驱动下发生反应产生的二次污染物。自工业革命以来,其含量不断增加,涉及臭氧的反应推动了对流层中的许多化学过程。虽然臭氧前体通常源自城市地区,但风可能会将这些前体吹送数百公里,导致人口较少的农村地区也会形成臭氧。在臭氧升高的条件下,bVOCs 的臭氧分解会导致气相发生量变和质变,降低某些 bVOCs 的浓度,并形成其他化合物。这种变化可能会破坏 bVOC 介导的行为或生态相互作用。通过使用气相色谱质谱法(GC-MS)和质子转移反应质谱法(PTR-MS)进行一系列气相实验,我们研究了臭氧分解一系列无处不在的 bVOCs 的产物及其产量:(E)-β-ocimene、α 和 β-法呢烯、α-萜品烯和 6-甲基-5-庚烯-2-酮的异构体。从这些化合物的臭氧分解中发现了新的产物,这些化合物的形成与萜烯-臭氧氧化机制一致。我们介绍了模型 bVOC 的降解机制,并确定了其反应产物。我们讨论了每种 bVOC 降解和反应产物形成对生态环境的潜在影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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