Leaf Volatile Emissions of Betula pendula during Autumn Coloration and Leaf Fall

Holopainen, Jarmo K.; Heijari, Juha; Oksanen, Elina; Alessio, Giorgio A.

doi:10.1007/s10886-010-9857-4

Cited by 36 publications

(22 citation statements)

References 61 publications

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“…Even though abscising leaves emit VOCs, their emissions are mostly dominated by GLVs (Holopainen et al. ), and thus, the possible VOC emissions from withered branches were likely less diverse and probably had lower compound concentrations than those of living trees.…”

Section: Overall Discussionmentioning

confidence: 99%

Do Insectivorous Birds use Volatile Organic Compounds from Plants as Olfactory Foraging Cues? Three Experimental Tests

et al. 2015

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Some insectivorous birds orient towards insect‐defoliated trees even when they do not see the foliar damage or the herbivores. There are, however, only a few studies that have examined the mechanisms behind this foraging behaviour. Previous studies suggest that birds can use olfactory foraging cues (e.g. volatile organic compounds (VOCs) emitted by defoliated plants), indirect visual cues or a combination of the two sensory cues. VOCs from insect‐defoliated plants are known to attract natural enemies of herbivores, and researchers have hypothesized that VOCs could also act as olfactory foraging cues for birds. We conducted three experiments across a range of spatial scales to test this hypothesis. In each experiment, birds were presented with olfactory cues and their behavioural responses or foraging outcomes were observed. In the first experiment, two different VOC blends, designed to simulate the volatile emissions of mountain birch (Betula pubescens ssp. czerepanovii) after defoliation by autumnal moth (Epirrita autumnata) larvae, were used in behavioural experiments in aviaries with pied flycatchers (Ficedula hypoleuca). The second experiment was a field‐based trial of bird foraging efficiency; the same VOC blends were applied to mountain birches, silver birches (B. pendula) and European white birches (B. pubescens) with plasticine larvae attached to the trees to serve as artificial prey for birds and provide a means to monitor predation rate. In the third experiment, the attractiveness of silver birch saplings defoliated by autumnal moth larvae versus intact controls was tested with great tits (Parus major) and blue tits (Cyanistes caeruleus) in an aviary. Birds did not orient towards either artificial or real trees with VOC supplements or towards herbivore‐damaged saplings when these saplings and undamaged alternatives were hidden from view. These findings do not support the hypothesis that olfactory foraging cues are necessary in the attraction of birds to herbivore‐damaged trees.

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Section: Overall Discussionmentioning

confidence: 99%

Do Insectivorous Birds use Volatile Organic Compounds from Plants as Olfactory Foraging Cues? Three Experimental Tests

et al. 2015

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“…, 1998). As the association between the aphid abundance and N loss further seems to take place at the tree genotype level, this may cause additional selection pressure on those silver birch attributes, such as volatile emissions (Holopainen et al. , 2010; Powell et al.…”

Section: Discussionmentioning

confidence: 99%

“…Autumnal nutrient resorption has a major effect on tree growth and fitness (May & Killingbeck, 1992) and B. pendula spring leaf growth, for example, can exclusively rely on internal cycling for 2 wk after bud burst (Millard et al, 1998). As the association between the aphid abundance and N loss further seems to take place at the tree genotype level, this may cause additional selection pressure on those silver birch attributes, such as volatile emissions (Holopainen et al, 2010;Powell et al, 2006), that are not related to leaf colouration but may affect aphid load in trees in the autumn.…”

Section: Aphids and Tree N Dynamics During Autumn Leaf Colourationmentioning

confidence: 99%

Genotypic variation in yellow autumn leaf colours explains aphid load in silver birch

et al. 2012

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Summary• It has been suggested that autumn-migrating insects drive the evolution of autumn leaf colours. However, evidence of genetic variation in autumn leaf colours in natural tree populations and the link between the genetic variation and herbivore abundances has been lacking.• Here, we measured the size of the whole aphid community and the development of green-yellow leaf colours in six replicate trees of 19 silver birch (Betula pendula) genotypes at the beginning, in the middle and at the end of autumn colouration. We also calculated the difference between green leaf and leaf litter nitrogen (N) and estimated the changes in phloem sap N loading.• Autumn leaf colouration had significant genetic variation. During the last survey, genotypes that expressed the strongest leaf reflectance 2-4 wk earlier had an abundance of egg-laying Euceraphis betulae females. Surprisingly, the aphid community size during the first surveys explained N loss by the litter of different birch genotypes.• Our results are the first evidence at the tree intrapopulation genotypic level that autumn-migrating pests have the potential to drive the evolution of autumn leaf colours. They also stress the importance of recognizing the role of late-season tree-insect interactions in the evolution of herbivory resistance.

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“…Following the degredation of HPLA (by a hydroperoxide lyase), a number of volatile oxylipins are produced which are termed green leaf volatiles (GLVs), including C 6 aldehydes, alcohols, and their corresponding acetate esters [ 23 , 24 , 25 , 26 ]. Under controlled laboratory studies, the emissions of GLVs from plants have been documented following a number of abotic and biotic stresses associated with ROS accumulation, including pathogen attack [ 27 ], high ambient ozone concentrations [ 22 , 28 ], herbivory [ 29 ], desiccation [ 30 ], high light and temperature [ 31 ], mechanical wounding [ 25 ], light-dark transitions [ 32 ], freeze-thaw events [ 33 ], and programmed cell death during senescence [ 34 ]. However, GLVs are rarely reported from field observations in natural ecosystems, particularly in the tropics during environmental extremes.…”

Section: Introductionmentioning

confidence: 99%

Green Leaf Volatile Emissions during High Temperature and Drought Stress in a Central Amazon Rainforest

Jardine

Chambers

Holm

et al. 2015

Plants

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Prolonged drought stress combined with high leaf temperatures can induce programmed leaf senescence involving lipid peroxidation, and the loss of net carbon assimilation during early stages of tree mortality. Periodic droughts are known to induce widespread tree mortality in the Amazon rainforest, but little is known about the role of lipid peroxidation during drought-induced leaf senescence. In this study, we present observations of green leaf volatile (GLV) emissions during membrane peroxidation processes associated with the combined effects of high leaf temperatures and drought-induced leaf senescence from individual detached leaves and a rainforest ecosystem in the central Amazon. Temperature-dependent leaf emissions of volatile terpenoids were observed during the morning, and together with transpiration and net photosynthesis, showed a post-midday depression. This post-midday depression was associated with a stimulation of C5 and C6 GLV emissions, which continued to increase throughout the late afternoon in a temperature-independent fashion. During the 2010 drought in the Amazon Basin, which resulted in widespread tree mortality, green leaf volatile emissions (C6 GLVs) were observed to build up within the forest canopy atmosphere, likely associated with high leaf temperatures and enhanced drought-induced leaf senescence processes. The results suggest that observations of GLVs in the tropical boundary layer could be used as a chemical sensor of reduced ecosystem productivity associated with drought stress.

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Leaf Volatile Emissions of Betula pendula during Autumn Coloration and Leaf Fall

Cited by 36 publications

References 61 publications

Do Insectivorous Birds use Volatile Organic Compounds from Plants as Olfactory Foraging Cues? Three Experimental Tests

Do Insectivorous Birds use Volatile Organic Compounds from Plants as Olfactory Foraging Cues? Three Experimental Tests

Genotypic variation in yellow autumn leaf colours explains aphid load in silver birch

Green Leaf Volatile Emissions during High Temperature and Drought Stress in a Central Amazon Rainforest

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