A gall-inducing arthropod drives declines in canopy tree photosynthesis

Mature forest canopies sustain an enormous diversity of herbivorous arthropods; however, with the exception of species that exhibit large-scale outbreaks, canopy arthropods are thought to have relatively little influence on overall forest productivity. Diminutive gall-inducing mites (Acari; Eriophyo...

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Bibliographic Details
Published in:Oecologia 2011-11, Vol.167 (3), p.701-709
Main Authors: Patankar, Rajit, Thomas, Sean C., Smith, Sandy M.
Format: Article
Language:English
Subjects:
Acari
Acari - physiology
Acer - growth & development
Acer - physiology
Acer saccharum
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Arachnida
Arthropoda
Arthropods
Biological and medical sciences
Biomedical and Life Sciences
Canopies
Ecology
Ectoparasites
Feeding Behavior - physiology
Forest canopy
Forest productivity
Fundamental and applied biological sciences. Psychology
General aspects
Herbivores
Hydrology/Water Resources
Invertebrates
Leaves
Life Sciences
Mites
Photosynthesis
Physiology
Phytochemistry
Plant gall
Plant Leaves - growth & development
Plant Leaves - physiology
Plant Sciences
PLANT-ANIMAL INTERACTIONS
Plant-Animal interactions - Original Paper
Saplings
Stomatal conductance
Tree growth
Trees
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Summary:Mature forest canopies sustain an enormous diversity of herbivorous arthropods; however, with the exception of species that exhibit large-scale outbreaks, canopy arthropods are thought to have relatively little influence on overall forest productivity. Diminutive gall-inducing mites (Acari; Eriophyoidae) are ubiquitous in forest canopies and are almost always highly host specific, but despite their pervasive occurrence, the impacts of these obligate parasites on canopy physiology have not been examined. We have documented large declines in photosynthetic capacity (approx. 60%) and stomatal conductance (approx. 50%) in canopy leaves of mature sugar maple (Acer saccharum) trees frequently galled by the maple spindle gall mite Vasates aceriscrumena. Remarkably, such large impacts occurred at very low levels of galling, with the presence of only a few galls (occupying approx. 1% of leaf area) compromising gas-exchange across the entire leaf. In contrast to these extreme impacts on the leaves of adult trees, galls had no detectible effect on the gas-exchange of maple saplings, implying large ontogenetic differences in host tolerance to mite galling. We also found a significant negative correlation between canopy tree radial increment growth and levels of mite galling. Increased galling levels and higher physiological susceptibility in older canopy trees thus suggest that gall-inducing mites may be major drivers of "age-dependent" reductions in the physiological performance and growth of older trees.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-011-2019-8