| Found in Collection(s): | Click on the collection logo for more information.
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| Collection Name: | SpringerLink Online Journals
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| Collection Description: | The SpringerLink Online Journal collection includes more than 1,250 peer-reviewed journals published by Springer Science+Business Media. Through the Online Archives Collection almost every journal is available online from Volume I, Issue I. Springer organizes the Online Journals into fully indexed, fully searchable Subject Collections covering 11 subject and 2 international collections: - Behavioral Science - Biomedical and Life Sciences - Chemistry and Materials Science - Chinese Library of Science - Computer Science - Earth and Environmental Science - Engineering - Social Sciences - Mathematics & Statistics - Medicine - Physics and Astronomy - Russian Library of Science |
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Collection Information:
| Grade Level |
Higher Education
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| Link |
Http://www.springer.com/east/home/librarians?SGWID=5-117-6-169728-0
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| Resource Type |
Text
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| Subject Keyword(s) |
Anthropology
Behavioral Science
Behavioral Science; Biomedical and Life Sciences; Chemistry and Materials Science; Chinese Library Of Science; Computer Science; Earth and Environmental Science; Engineering; Social Sciences; Mathematics and Statistics; Medicine; Physics and Astronomy; Russian Library Of Science
Biological Science
Chemistry
Computer Science
Engineering
General Science
Geography
Geoscience
Health/Medicine
Materials Science
Mathematics
Physics
Psychology
Space Science
Technology
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| Resource Title: | Galling by Rhopalomyia solidaginis alters Solidago altissima architecture and litter nutrient dynamics in an old-field ecosystem
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| Description: | Plant?insect interactions can alter ecosystem processes, especially if the insects modify plant architecture, quality, or the quantity of leaf litter inputs. In this study, we investigated the interactions between the rosette gall midge Rhopalomyia solidaginis and tall goldenrod, Solidago altissima, to quantify the degree to which the midge alters plant architecture and how the galls affect rates of litter decomposition and nutrient release in an old-field ecosystem. R. solidaginis commonly leads to the formation of a distinct apical rosette gall on S. altissima and approximately 15% of the ramets in a S. altissima patch were galled (range: 3?34%). Aboveground biomass of galled ramets was 60% higher and the leaf area density was four times greater on galled leaf tissue relative to the portions of the plant that were not affected by the gall. Overall decomposition rate constants did not differ between galled and ungalled leaf litter. However, leaf-litter mass loss was lower in galled litter relative to ungalled litter, which was likely driven by modest differences in initial litter chemistry; this effect diminished after 12 weeks of decomposition in the field. The proportion of N remaining was always higher in galled litter than in ungalled litter at each collection date indicating differential release of nitrogen in galled leaf litter. Several studies have shown that plant?insect interactions on woody species can alter ecosystem processes by affecting the quality or quantity of litter inputs. Our results illustrate how plant?insect interactions in an herbaceous species can affect ecosystem processes by altering the quality and quantity of litter inputs. Given that S. altissima dominates fields and that R. solidaginis galls are highly abundant throughout eastern North America, these interactions are likely to be important for both the structure and function of old-field ecosystems. |
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Additional Resource Information
| Author |
Aim?e T. Classen
Gregory M. Crutsinger
Jennifer A. Schweitzer
Melissa N. Habenicht
Nathan J. Sanders
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| Bibliographic Citation |
Plant and Soil 303(1), 95-103. (2008)
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| Intended Audience |
Graduate
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| Language |
En
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| Publisher / Resource Provider |
Springer Netherlands
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| Resource Format |
Application/pdf
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| Resource Type |
Text
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| Subject Keyword(s) |
Ecology
Life Sciences
Plant Physiology
Plant Sciences
Soil Science & Conservation
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