Biological aspects of constructing volatile organic compound emission inventories

The: emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical models which are limited in their ability to simulate the response of organisms to short- and long-term changes in their growth environment...

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Published inAtmospheric environment (1994) Vol. 29; no. 21; pp. 2989 - 3002
Main Authors Monson, Russell K., Lerdau, Manuel T., Sharkey, Thomas D., Schimel, David S., Fall, Ray
Format Journal Article Conference Proceeding
LanguageEnglish
Published Oxford Elsevier Ltd 01.11.1995
Elsevier Science
Subjects
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
General aspects
Synecology
ecosystem models
ecology
isoprene
plant carbon balance
biochemistry
physiology
vegetation
Monoterpenes
hydrocarbon emission
NMHC
Volatile compound
Gas emission
Hydrocarbon
Plant leaf
Review
Empirical model
Carbon cycle
Ecosystem
Volatilization
Vegetation
Monoterpene
Isoprene
Organic compounds
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Abstract The: emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical models which are limited in their ability to simulate the response of organisms to short- and long-term changes in their growth environment. In this review we consider the principal biochemical, physiological and ecological controls over VOC emission with specific reference to how such controls can be included in ecosystem-level inventories. A distinction is made between longer-term biological controls over basal VOC emission rates (rates determined under a standard set of environmental conditions) and instantaneous biological and environmental controls over instantaneous VOC emission rates (rates determined at the prevailing, instantaneous set of environmental conditions). Emphasis is placed on the emission of isoprene and monoterpenes. Isoprene emission occurs essentially without a leaf reservoir and is tightly linked to instantaneous photosynthetic metabolism and the activity of isoprene synthase, the enzyme that underlies isoprene production. At present, there are still large uncertainties about which of these controls dominates isoprene emission rate. Ecosystem-level inventories of isoprene emission would be best handled through consideration of (1) the early season induction of isoprene emission, (2) seasonal and spatial variability in light, nitrogen and water availability and their influences on the basal emission rate, and (3) the influence of instantaneous changes in light and temperature on the basal emission rate. Monoterpene emission occurs from a large leaf reservoir, is uncoupled from instantaneous controls over biosynthesis, and is likely linked to whole-plant carbon allocation patterns. Because of the well-defined role of monoterpenes as herbivore deterrents and their linkage to plant carbon balance, there is promise for ecosystem-level inventories based on biological resource allocation models and evolutionary cost-benefit models. Biological sources for several other VOCs have been identified, including methanol, methylbutenol, hexenol, acetone, and formic and acetic acids. However, the controls over these emissions have yet to be determined, and there is no current basis for mechanistic inventory development. From the studies reviewed here we conclude that the incorporation of mechanistic biological controls in future VOC inventories will improve their capacity to predict emissions across complex ecological gradients.
AbstractList The: emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical models which are limited in their ability to simulate the response of organisms to short- and long-term changes in their growth environment. In this review we consider the principal biochemical, physiological and ecological controls over VOC emission with specific reference to how such controls can be included in ecosystem-level inventories. A distinction is made between longer-term biological controls over basal VOC emission rates (rates determined under a standard set of environmental conditions) and instantaneous biological and environmental controls over instantaneous VOC emission rates (rates determined at the prevailing, instantaneous set of environmental conditions). Emphasis is placed on the emission of isoprene and monoterpenes. Isoprene emission occurs essentially without a leaf reservoir and is tightly linked to instantaneous photosynthetic metabolism and the activity of isoprene synthase, the enzyme that underlies isoprene production. At present, there are still large uncertainties about which of these controls dominates isoprene emission rate. Ecosystem-level inventories of isoprene emission would be best handled through consideration of (1) the early season induction of isoprene emission, (2) seasonal and spatial variability in light, nitrogen and water availability and their influences on the basal emission rate, and (3) the influence of instantaneous changes in light and temperature on the basal emission rate. Monoterpene emission occurs from a large leaf reservoir, is uncoupled from instantaneous controls over biosynthesis, and is likely linked to whole-plant carbon allocation patterns. Because of the well-defined role of monoterpenes as herbivore deterrents and their linkage to plant carbon balance, there is promise for ecosystem-level inventories based on biological resource allocation models and evolutionary cost-benefit models. Biological sources for several other VOCs have been identified, including methanol, methylbutenol, hexenol, acetone, and formic and acetic acids. However, the controls over these emissions have yet to be determined, and there is no current basis for mechanistic inventory development. From the studies reviewed here we conclude that the incorporation of mechanistic biological controls in future VOC inventories will improve their capacity to predict emissions across complex ecological gradients.
The emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical models which are limited in their ability to simulate the response of organisms to short- and long-term changes in their growth environment. In this review we consider the principal biochemical, physiological and ecological controls over VOC emission with specific reference to how such controls can be included in ecosystem-level inventories. A distinction is made between longer-term biological controls over basal VOC emission rates (rates determined under a standard set of environmental conditions) and instantaneous biological and environmental controls over instantaneous VOC emission rates (rates determined at the prevailing, instantaneous set of environmental conditions). Emphasis is placed on the emission of isoprene and monoterpenes. Isoprene emission occurs essentially without a leaf reservoir and is tightly linked to instantaneous photosynthetic metabolism and the activity of isoprene synthase, the enzyme that underlies isoprene production. At present, there are still large uncertainties about which of these controls dominates isoprene emission rate. Ecosystem-level inventories of isoprene emission would be best handled through consideration of (1) the early season induction of isoprene emission, (2) seasonal and spatial variability in light, nitrogen and water availability and their influences on the basal emission rate, and (3) the influence of instantaneous changes in light and temperature on the basal emission rate.
VOC emissions from biological sources have a significant impact on the state and dynamics of atmospheric chemistry. Current VOC inventories rely on empirical models that are restricted to only a few environmental variables, were developed for plants grown in optimal greenhouse environments, and remain static despite environmental change across seasonal and spatial scales. A review is provided a recent breakthroughs and emerging generalizations of how and why biogenic organic C emissions respond to environmental dynamics. Three groups of compounds are examined: isoprene, monoterpenes, and oxygenated VOCs. There appear to be natural, mechanistic linkages between photosynthesis rate, plant C balance, and isoprene and monoterpene emission rates, which could facilitate VOC inventory construction around existing ecosystem models.
The emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical models which are limited in their ability to simulate the reponse of organisms to short- and long-term changes in their growth environment. In this review we consider the principal biochemical, physiological and ecological controls over VOC emission with specific reference to how such controls can be included in ecosystem-level inventories. A distinction is made between longer-term biological controls over basal VOC emission rates (rates determined under a standard set of environmental conditions) and instantaneous biological and environmental controls over instantaneous VOC emission rates (rates determined at the prevailing, instantaneous set of environmental conditions). Emphasis is placed on the emission of isoprene and monoterpenes. Isoprene emission occurs essentially without a leaf reservoir and is tightly linked to instantaneous photosynthetic metabolism and the activity of isoprene synthase, the enzyme that underlies isoprene production. At present, there are still large uncertainties about which of these controls dominates isoprene emission rate. Ecosystem-level inventories of isoprene emission would be best handled through consideration of (1) the early season induction of isoprene emission, (2) seasonal and spatial variability in light, nitrogen and water availability and their influences on the basal emission rate, and (3) the influence of instantaneous changes in light and temperature on the basal emission rate. Monoterpene emission occurs from a large leaf reservoir, is uncoupled from instantaneous controls over biosynthesis, and is likely linked to whole-plant carbon allocation patterns. Because of the well-defined role of monoterpenes as herbivore deterrents and their linkage to plant carbon balance, there is promise for ecosystem-level inventories based on biological resource allocation models and evolutionary cost-benefit models. Biological sources for several other VOCs have been identified, including methanol, methylbuatenol, hexenol, acetone, and formic and acetic acids. However, the controls over these emissions have yet to be determined, and there is no current basis for mechanistic inventory development. From the studies reviewed here we conclude that the incorporation of mechanistic biological controls in future VOC inventories will improve their capacity to predict emissions across complex ecological gradients.
Author Monson, Russell K.
Sharkey, Thomas D.
Schimel, David S.
Fall, Ray
Lerdau, Manuel T.
Author_xml – sequence: 1
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  givenname: Ray
  surname: Fall
  fullname: Fall, Ray
  organization: Department of Chemistry and Biochemistry and Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, CO 80309, U.S.A
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Issue 21
Keywords ecosystem models
ecology
isoprene
plant carbon balance
biochemistry
physiology
vegetation
Monoterpenes
hydrocarbon emission
NMHC
Volatile compound
Gas emission
Hydrocarbon
Plant leaf
Review
Empirical model
Carbon cycle
Ecosystem
Volatilization
Vegetation
Monoterpene
Isoprene
Organic compounds
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PublicationTitle Atmospheric environment (1994)
PublicationYear 1995
Publisher Elsevier Ltd
Elsevier Science
Publisher_xml – name: Elsevier Ltd
– name: Elsevier Science
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Snippet The: emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on...
VOC emissions from biological sources have a significant impact on the state and dynamics of atmospheric chemistry. Current VOC inventories rely on empirical...
The emission of volatile organic compounds (VOCs) from vegetation is subject to numerous biological controls. Past inventories have relied heavily on empirical...
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
General aspects
Synecology
Title Biological aspects of constructing volatile organic compound emission inventories
URI https://dx.doi.org/10.1016/1352-2310(94)00360-W
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Volume 29
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