A Genetically-Based Latitudinal Cline in the Emission of Herbivore-Induced Plant Volatile Organic Compounds

A Genetically-Based Latitudinal Cline in the Emission of Herbivore-Induced Plant Volatile Organic Compounds

The existence of predictable latitudinal variation in plant defense against herbivores remains controversial. A prevailing view holds that higher levels of plant defense evolve at low latitudes compared to high latitudes as an adaptive plant response to higher herbivore pressure on low-latitude plan...

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Veröffentlicht in:Journal of chemical ecology 2013-08, Vol.39 (8), p.1101-1111
Hauptverfasser: Wason, Elizabeth L., Agrawal, Anurag A., Hunter, Mark D.
Format: Artikel
Sprache:eng
Schlagworte:
Agriculture
Animals
Asclepias - chemistry
Asclepias - metabolism
Asclepias syriaca
Biochemistry
Biological and medical sciences
Biological Microscopy
Biomedical and Life Sciences
Butterflies & moths
Butterflies - growth & development
Butterflies - physiology
Chemical ecology
Danaus plexippus
Defense mechanisms
Ecology
Emissions
Entomology
Environmental conditions
Fundamental and applied biological sciences. Psychology
Gas Chromatography-Mass Spectrometry
Genes, Plant
Genotype & phenotype
Herbivores
Herbivory
Humidity
Insecta
Invertebrates
Larva - physiology
Larvae
Life Sciences
Light
Organic compounds
Plant Leaves - chemistry
Plant Leaves - metabolism
Plant populations
Temperature
VOCs
Volatile organic compounds
Volatile Organic Compounds - analysis
Volatile Organic Compounds - metabolism
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creator Wason, Elizabeth L.
Agrawal, Anurag A.
Hunter, Mark D.
description The existence of predictable latitudinal variation in plant defense against herbivores remains controversial. A prevailing view holds that higher levels of plant defense evolve at low latitudes compared to high latitudes as an adaptive plant response to higher herbivore pressure on low-latitude plants. To date, this prediction has not been examined with respect to volatile organic compounds (VOCs) that many plants emit, often thus attracting the natural enemies of herbivores. Here, we compared genetically-based constitutive and herbivore-induced aboveground vegetative VOC emissions from plants originating across a gradient of more than 10° of latitude (>1,500 km). We collected headspace VOCs from Asclepias syriaca (common milkweed) originating from 20 populations across its natural range and grown in a common garden near the range center. Feeding by specialist Danaus plexippus (monarch) larvae induced VOCs, and field environmental conditions (temperature, light, and humidity) also influenced emissions. Monarch damage increased plant VOC concentrations and altered VOC blends. We found that genetically-based induced VOC emissions varied with the latitude of plant population origin, although the pattern followed the reverse of that predicted—induced VOC concentration increased with increasing latitude. This pattern appeared to be driven by a greater induction of sesquiterpenoids at higher latitudes. In contrast, constitutive VOC emission did not vary systematically with latitude, and the induction of green leafy volatiles declined with latitude. Our results do not support the prevailing view that plant defense is greater at lower than at higher latitudes. That the pattern holds only for herbivore-induced VOC emission, and not constitutive emission, suggests that latitudinal variation in VOCs is not a simple adaptive response to climatic factors.
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A prevailing view holds that higher levels of plant defense evolve at low latitudes compared to high latitudes as an adaptive plant response to higher herbivore pressure on low-latitude plants. To date, this prediction has not been examined with respect to volatile organic compounds (VOCs) that many plants emit, often thus attracting the natural enemies of herbivores. Here, we compared genetically-based constitutive and herbivore-induced aboveground vegetative VOC emissions from plants originating across a gradient of more than 10° of latitude (&gt;1,500 km). We collected headspace VOCs from Asclepias syriaca (common milkweed) originating from 20 populations across its natural range and grown in a common garden near the range center. Feeding by specialist Danaus plexippus (monarch) larvae induced VOCs, and field environmental conditions (temperature, light, and humidity) also influenced emissions. Monarch damage increased plant VOC concentrations and altered VOC blends. We found that genetically-based induced VOC emissions varied with the latitude of plant population origin, although the pattern followed the reverse of that predicted—induced VOC concentration increased with increasing latitude. This pattern appeared to be driven by a greater induction of sesquiterpenoids at higher latitudes. In contrast, constitutive VOC emission did not vary systematically with latitude, and the induction of green leafy volatiles declined with latitude. Our results do not support the prevailing view that plant defense is greater at lower than at higher latitudes. 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We found that genetically-based induced VOC emissions varied with the latitude of plant population origin, although the pattern followed the reverse of that predicted—induced VOC concentration increased with increasing latitude. This pattern appeared to be driven by a greater induction of sesquiterpenoids at higher latitudes. In contrast, constitutive VOC emission did not vary systematically with latitude, and the induction of green leafy volatiles declined with latitude. Our results do not support the prevailing view that plant defense is greater at lower than at higher latitudes. 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A prevailing view holds that higher levels of plant defense evolve at low latitudes compared to high latitudes as an adaptive plant response to higher herbivore pressure on low-latitude plants. To date, this prediction has not been examined with respect to volatile organic compounds (VOCs) that many plants emit, often thus attracting the natural enemies of herbivores. Here, we compared genetically-based constitutive and herbivore-induced aboveground vegetative VOC emissions from plants originating across a gradient of more than 10° of latitude (&gt;1,500 km). We collected headspace VOCs from Asclepias syriaca (common milkweed) originating from 20 populations across its natural range and grown in a common garden near the range center. Feeding by specialist Danaus plexippus (monarch) larvae induced VOCs, and field environmental conditions (temperature, light, and humidity) also influenced emissions. Monarch damage increased plant VOC concentrations and altered VOC blends. We found that genetically-based induced VOC emissions varied with the latitude of plant population origin, although the pattern followed the reverse of that predicted—induced VOC concentration increased with increasing latitude. This pattern appeared to be driven by a greater induction of sesquiterpenoids at higher latitudes. In contrast, constitutive VOC emission did not vary systematically with latitude, and the induction of green leafy volatiles declined with latitude. Our results do not support the prevailing view that plant defense is greater at lower than at higher latitudes. That the pattern holds only for herbivore-induced VOC emission, and not constitutive emission, suggests that latitudinal variation in VOCs is not a simple adaptive response to climatic factors.</abstract><cop>Boston</cop><pub>Springer US</pub><pmid>23888386</pmid><doi>10.1007/s10886-013-0309-9</doi><tpages>11</tpages></addata></record>
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subjects Agriculture
Animals
Asclepias - chemistry
Asclepias - metabolism
Asclepias syriaca
Biochemistry
Biological and medical sciences
Biological Microscopy
Biomedical and Life Sciences
Butterflies & moths
Butterflies - growth & development
Butterflies - physiology
Chemical ecology
Danaus plexippus
Defense mechanisms
Ecology
Emissions
Entomology
Environmental conditions
Fundamental and applied biological sciences. Psychology
Gas Chromatography-Mass Spectrometry
Genes, Plant
Genotype & phenotype
Herbivores
Herbivory
Humidity
Insecta
Invertebrates
Larva - physiology
Larvae
Life Sciences
Light
Organic compounds
Plant Leaves - chemistry
Plant Leaves - metabolism
Plant populations
Temperature
VOCs
Volatile organic compounds
Volatile Organic Compounds - analysis
Volatile Organic Compounds - metabolism
title A Genetically-Based Latitudinal Cline in the Emission of Herbivore-Induced Plant Volatile Organic Compounds
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