Insect canopy herbivory and frass deposition affect soil nutrient dynamics and export in oak mesocosms. Frost, C. J. & Hunter, M. D. Ecology, 2004.
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Paper abstract bibtex
Paper abstract bibtex Increased nitrogen (N) mobilization and export from terrestrial forest ecosystems following canopy herbivory have been well documented, though the mechanism behind the loss is not clear. Because carbon
@article{frost_insect_2004,
title = {Insect canopy herbivory and frass deposition affect soil nutrient dynamics and export in oak mesocosms.},
volume = {85},
url = {http://cwt33.ecology.uga.edu/publications/2230.pdf},
abstract = {Increased nitrogen (N) mobilization and export from terrestrial forest ecosystems following canopy herbivory have been well documented, though the mechanism behind the loss is not clear. Because carbon},
number = {12},
journal = {Ecology},
author = {Frost, Christopher J. and Hunter, Mark D.},
year = {2004},
keywords = {CWT}
}Downloads: 0
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