Short-chain oxygenated VOCs: Emission and uptake by plants and atmospheric sources, sinks, and concentrations

摘要

Emissions of volatile organic compounds (VOCs) have multiple atmospheric implications and play many roles in plant physiology and ecology. Among these VOCs, growing interest is being devoted to a group of short-chain oxygenated VOCs (ox VOCs). Technology improvements such as proton transfer reaction-mass spectrometry are facilitating the study of these hydrocarbons and new data regarding these compounds is continuously appearing. Here we review current knowledge of the emissions of these ox VOCs by plants and the factors that control them, and also provide an overview of sources, sinks, and concentrations found in the atmosphere.rnThe ox VOCs reviewed here are formic and acetic acids, acetone, formaldehyde, acetaldehyde, methanol, and ethanol. In general, because of their water solubility (low gas-liquid partitioning coefficient), the plant-atmosphere exchange is stomatal-dependent, although it can also take place via the cuticle. This exchange is also determined by atmospheric mixing ratios. These compounds have relatively long atmospheric half-lives and reach considerable concentrations in the atmosphere in the range of ppbv. Likewise, under non-stressed conditions plants can emit all of these ox VOCs together at fluxes ranging from 0.2 up to 4.8 μg(C)g~(-1) (leaf dry weight)h~(-1) and at rates that increase several-fold when under stress.rnGaps in our knowledge regarding the processes involved in the synthesis, emission, uptake, and atmospheric reactivity of ox VOCs precludes the clarification of exactly what is conditioning plant-atmosphere exchange—and also when, how, and why this occurs—and these lacunae therefore warrant further research in this field.