@article{a141739962de44dc88231225a53080bf,
title = "Elevated Co2 Induced Changes in the Chemistry of Quaking Aspen (Populus Tremuloides Michaux) Leaf Litter: Subsequent Mass Loss and Microbial Response in a Stream Ecosystem",
keywords = "Climatology- (Environmental-Sciences), Freshwater-Ecology (Ecology-, Environmental-Sciences), Soil-Science, Terrestrial-Ecology (Ecology-, Bacteria-: Microorganisms-, Fungi-: Plantae-, Salicaceae-: Dicotyledones-, Angiospermae-, Spermatophyta-, Plantae-, Populus-tremuloides [quaking-aspen] (Salicaceae-), bacteria- (Bacteria-), fungi- (Fungi-), Angiosperms-, Bacteria-, Dicots-, Eubacteria-, Fungi-, Microorganisms-, Nonvascular-Plants, Plants-, Spermatophytes-, Vascular-Plants, carbon-, carbon-dioxide: atmospheric-change, condensed-tannins, lignin-, nitrogen-, phenolic-compounds, 7440-44-0: CARBON, 124-38-9: CARBON DIOXIDE, 9005-53-2: LIGNIN, 7727-37-9: NITROGEN, community-respiration/ leaching-, leaf-litter-chemistry, mass-loss, microbial-response, stream-ecosystem, GLOBAL-ECOLOGY, carbon-dioxide-enrichment, phenolic-compound, lignin, carbon, nitrogen, leaf-litter, microbial-activity, stream, Populus-tremuloides, Streams, Cottonwood Trees, Leaves, Litter, Bacteria, Fungi, Growth, Trophic Level, Carbon Dioxide, Atmosphere, Respiration, Data Collections, Decomposition, Chemical Analysis, Experimental Data, Leaf litter, Freshwater ecosystems, Freshwater microorganisms, Biomass, Trophic levels, Nutrient availability, Rivers, Atmospheric chemistry, Biochemical composition, Phenols, Leaching, Decomposers, Biodegradation, Nutrient cycles, Growth rate, Populus tremuloides, USA, Michigan, Identifiers Quaking aspen, tannins, lignins",
author = "Rier, {Steven T.} and Tuchman, {Nancy C.} and Wetzel, {Robert G.} and Teeri, {James A.}",
year = "2002",
month = jan,
day = "1",
doi = "10.2307/1468296",
language = "American English",
volume = "21",
journal = "Aspen Bibliography",
number = "1",
}