2000
DOI: 10.15760/etd.6860
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Isoprene Emission in Polytrichaceae Mosses

Abstract: Our first aim was to identify and quantify Biological Volatile Organic Compound (BVOC) emissions, specifically emissions of isoprene, from the moss Polytrichum juniperinum during its earliest stage of life. Isoprene emission from mosses could be a significant component of the total global budget of BVOC emissions. Data concerning the spatial and temporal variability of these emissions are lacking due to poor characterization of the physical and biological factors controlling isoprene synthesis in both vascular… Show more

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Cited by 2 publications
(2 citation statements)
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References 204 publications
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“…The GC‐RGD experiments were performed at a controlled temperature of 30°C. This temperature is a widely used standard for testing isoprene emissions in both vascular plants (Sharkey and Loreto, 1993; Monson et al, 1994; Geron et al, 2000; Bracho‐Nunez et al, 2013; Sharkey and Monson, 2017) and nonvascular plants, such as Polytrichum juniperinum (Hanson et al, 1999; Janson et al, 1999; Deakova, 2019). All collection methods for the GC‐RGD experiments used lighting set to a standard photosynthetic photon flux density (PPFD) of 1000 μmol photons m −2 s −1 to simulate standard conditions (Geron et al, 2000).…”
Section: Methodsmentioning
confidence: 99%
“…The GC‐RGD experiments were performed at a controlled temperature of 30°C. This temperature is a widely used standard for testing isoprene emissions in both vascular plants (Sharkey and Loreto, 1993; Monson et al, 1994; Geron et al, 2000; Bracho‐Nunez et al, 2013; Sharkey and Monson, 2017) and nonvascular plants, such as Polytrichum juniperinum (Hanson et al, 1999; Janson et al, 1999; Deakova, 2019). All collection methods for the GC‐RGD experiments used lighting set to a standard photosynthetic photon flux density (PPFD) of 1000 μmol photons m −2 s −1 to simulate standard conditions (Geron et al, 2000).…”
Section: Methodsmentioning
confidence: 99%
“…Bryophytes have developed numerous physiological (including morphology and structure) and biochemical adaptations since diverging from vascular plants [22] which mean there may be fundamental differences in how isoprene emissions from these species respond to environmental conditions. For example, as well as light and temperature, isoprene emissions from bryophytes are known to also be influenced by exposure to ultraviolet B radiation [9,11,12], sex [23], nutrient loading [23], ozone exposure [11] and water availability [8,9,13]. In addition, mosses have phyllids rather than true leaves and their canopy architecture differs from that of vascular plants; these differences are not represented in the Guenther algorithms.…”
Section: Introductionmentioning
confidence: 99%