The diversification of terpene emissions in Mediterranean oaks: lessons from a study of Quercus suber, Quercus canariensis and its hybrid Quercus afares

Welter, Saskia; Bracho-Nuñez, Araceli; Mir, Céline; Zimmer, Ina; Kesselmeier, J.; Lumaret, R.; Schnitzler, Jörg‐Peter; Staudt, Michael

doi:10.1093/treephys/tps069

Cited by 32 publications

(29 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…But we estimated an emission factor of 35.6 ± 5.5 µg g −1 h −1 , confirming more recent literature showing typical summertime values of 10-43 µg g −1 h −1 (Staudt et al, 2004;Pio et al, 2005;Staudt et al, 2008). A further oak species, Quercus afares, was found to emit high quantities of monoterpenes and low amounts of isoprene (see also Welter et al, 2012). Furthermore, we classified Ficus carica and Spartium junceum as non-monoterpene emitters contrasting earlier reports (Benjamin and Winer, 1998;Pio et al, 1993).…”

Section: A Bracho-nunez Et Al: Leaf Level Emissions Of Volatile Orgsupporting

confidence: 90%

Leaf level emissions of volatile organic compounds (VOC) from some Amazonian and Mediterranean plants

Bracho-Nuñez

Knothe²,

Welter³

et al. 2013

Biogeosciences

Self Cite

View full text Add to dashboard Cite

Abstract. Emission inventories defining regional and global biogenic volatile organic compounds (VOC) emission strengths are needed to determine the impact of VOC on atmospheric chemistry (oxidative capacity) and physics (secondary organic aerosol formation and effects). The aim of this work was to contribute with measurements of tree species from the poorly described tropical vegetation in direct comparison with the quite well-investigated, highly heterogeneous emissions from Mediterranean vegetation. VOC emission from sixteen plant species from the Mediterranean area were compared with twelve plant species from different environments of the Amazon basin by an emission screening at leaf level using branch enclosures. Analysis of the volatile organics was performed online by a proton-transfer-reaction mass spectrometer (PTR-MS) and offline by collection on adsorbent tubes and subsequent gas chromatographic analysis. Isoprene was the most dominant compound emitted followed by monoterpenes, methanol and acetone. The average loss rates of VOC carbon in relation to the net CO2 assimilation were found below 4% and indicating normal unstressed plant behavior. Most of the Mediterranean species emitted a large variety of monoterpenes, whereas only five tropical species were identified as monoterpene emitters exhibiting a quite conservative emission pattern (α-pinene < limonene < sabinene < ß-pinene). Mediterranean plants showed additional emissions of sesquiterpenes. In the case of Amazonian plants no sesquiterpenes were detected. However, missing of sesquiterpenes may also be due to a lack of sensitivity of the measuring systems. Furthermore, our screening activities cover only 1% of tree species of such tropical areas as estimated based on recent biodiversity reports. Methanol emissions, an indicator of growth, were found to be common in most of the tropical and Mediterranean species. A few species from both ecosystems showed acetone emissions. The observed heterogeneous emissions, including reactive VOC species which are not easily detected by flux measurements, give reason to perform more screening at leaf level and, whenever possible, within the forests under ambient conditions.

show abstract

Section: A Bracho-nunez Et Al: Leaf Level Emissions Of Volatile Orgsupporting

confidence: 90%

Leaf level emissions of volatile organic compounds (VOC) from some Amazonian and Mediterranean plants

Bracho-Nuñez

Knothe²,

Welter³

et al. 2013

Biogeosciences

Self Cite

View full text Add to dashboard Cite

show abstract

“…Compared to carotenoids, which are essential and conserved in higher plants49, non-essential isoprenoids are highly variable across species50 and within species5152. This variability was reflected by the observed provenance-specific differences in monoterpene pool sizes, which exceeded the observed variations in essential isoprenoids by far (Figs 3F and 8A).…”

Section: Discussionmentioning

confidence: 89%

Variation in short-term and long-term responses of photosynthesis and isoprenoid-mediated photoprotection to soil water availability in four Douglas-fir provenances

Junker

Kleiber

Jansen

et al. 2017

Sci Rep

View full text Add to dashboard Cite

For long-lived forest tree species, the understanding of intraspecific variation among populations and their response to water availability can reveal their ability to cope with and adapt to climate change. Dissipation of excess excitation energy, mediated by photoprotective isoprenoids, is an important defense mechanism against drought and high light when photosynthesis is hampered. We used 50-year-old Douglas-fir trees of four provenances at two common garden experiments to characterize provenance-specific variation in photosynthesis and photoprotective mechanisms mediated by essential and non-essential isoprenoids in response to soil water availability and solar radiation. All provenances revealed uniform photoprotective responses to high solar radiation, including increased de-epoxidation of photoprotective xanthophyll cycle pigments and enhanced emission of volatile monoterpenes. In contrast, we observed differences between provenances in response to drought, where provenances sustaining higher CO2 assimilation rates also revealed increased water-use efficiency, carotenoid-chlorophyll ratios, pools of xanthophyll cycle pigments, β-carotene and stored monoterpenes. Our results demonstrate that local adaptation to contrasting habitats affected chlorophyll-carotenoid ratios, pool sizes of photoprotective xanthophylls, β-carotene, and stored volatile isoprenoids. We conclude that intraspecific variation in isoprenoid-mediated photoprotective mechanisms contributes to the adaptive potential of Douglas-fir provenances to climate change.

show abstract

“…This procedure is commonly used when accessibility to large and tall natural trees with the cuvette system without branch disturbance is difficult or impossible (e.g., Affek and Yakir, 2002;Geron et al, 2006;Harley et al, 1998;Helmig et al, 1999;Klinger et al, 1998;Monson et al, 2007). On the basis of our experiences, measuring cut branches does not alter terpene emissions (Ghirardo et al, 2011;Welter et al, 2012) and lipoxygenase-derived compound emissions in distant foliage (e.g., Ghirardo et al, 2011) considerably for several hours. This agrees with Loreto et al (2006), who showed that except for a small amount of acetaldehyde, no other BVOCs were emitted from broadleaf plant species when the mechanical wounding (cutting) is remotely located.…”

Section: Plant Species Measuredmentioning

confidence: 89%

Urban stress-induced biogenic VOC emissions and SOA-forming potentials in Beijing

et al. 2016

View full text Add to dashboard Cite

Abstract. Trees can significantly impact the urban air chemistry by the uptake and emission of reactive biogenic volatile organic compounds (BVOCs), which are involved in ozone and particle formation. Here we present the emission potentials of "constitutive" (cBVOCs) and "stress-induced" BVOCs (sBVOCs) from the dominant broadleaf woody plant species in the megacity of Beijing. Based on the municipal tree census and cuvette BVOC measurements on leaf level, we built an inventory of BVOC emissions, and assessed the potential impact of BVOCs on secondary organic aerosol (SOA) formation in 2005 and 2010, i.e., before and after realizing the large tree-planting program for the 2008 Olympic Games. We found that sBVOCs, such as fatty acid derivatives, benzenoids, and sesquiterpenes, constituted a significant fraction ( ∼ 40 %) of the total annual BVOC emissions, and we estimated that the overall annual BVOC budget may have doubled from ∼ 4.8 × 10 9 g C year −1 in 2005 to ∼ 10.3 × 10 9 g C year −1 in 2010 due to the increase in urban greening, while at the same time the emission of anthropogenic VOCs (AVOCs) decreased by 24 %. Based on the BVOC emission assessment, we estimated the biological impact on SOA mass formation potential in Beijing. Constitutive and stress-induced BVOCs might produce similar amounts of secondary aerosol in Beijing. However, the main contributors of SOA-mass formations originated from anthropogenic sources (> 90 %). This study demonstrates the general importance to include sBVOCs when studying BVOC emissions. Although the main problems regarding air quality in Beijing still originate from anthropogenic activities, the present survey suggests that in urban plantation programs, the selection of low-emitting plant species has some potential beneficial effects on urban air quality.

show abstract

The diversification of terpene emissions in Mediterranean oaks: lessons from a study of Quercus suber, Quercus canariensis and its hybrid Quercus afares

Cited by 32 publications

References 36 publications

Leaf level emissions of volatile organic compounds (VOC) from some Amazonian and Mediterranean plants

Leaf level emissions of volatile organic compounds (VOC) from some Amazonian and Mediterranean plants

Variation in short-term and long-term responses of photosynthesis and isoprenoid-mediated photoprotection to soil water availability in four Douglas-fir provenances

Urban stress-induced biogenic VOC emissions and SOA-forming potentials in Beijing

Contact Info

Product

Resources

About