scholarly article | Q13442814 |
P819 | ADS bibcode | 2015JGRG..120.1797H |
P356 | DOI | 10.1002/2015JG003010 |
P50 | author | Richard J. Norby | Q47659117 |
Colleen M. Iversen | Q56755531 | ||
P2093 | author name string | Caroline A. Masiello | |
William C. Hockaday | |||
Jeffrey A. Baldock | |||
Morgan E. Gallagher | |||
P2860 | cites work | Long-term Effects of Free Air CO2 Enrichment (FACE) on Soil Respiration | Q58069250 |
A free-air enrichment system for exposing tall forest vegetation to elevated atmospheric CO2 | Q58109616 | ||
A call to investigate drivers of soil organic matter retention vs. mineralization in a high CO2 world | Q58247702 | ||
The fate of carbon in grasslands under carbon dioxide enrichment | Q58247944 | ||
Soil carbon and nitrogen cycling and storage throughout the soil profile in a sweetgum plantation after 11 years of CO2-enrichment | Q58407966 | ||
Ecological Lessons from Free-Air CO2 Enrichment (FACE) Experiments | Q58407969 | ||
Nitrogen limitation in a sweetgum plantation: implications for carbon allocation and storage | Q58407973 | ||
Elevated atmospheric carbon dioxide increases soil carbon | Q58407978 | ||
Seasonal and interannual variations in atmospheric oxygen and implications for the global carbon cycle | Q59052377 | ||
Dangerous human-made interference with climate: a GISS modelE study | Q21129033 | ||
Contributions to accelerating atmospheric CO2 growth from economic activity, carbon intensity, and efficiency of natural sinks | Q24676455 | ||
Evaluation of 11 terrestrial carbon-nitrogen cycle models against observations from two temperate Free-Air CO2 Enrichment studies | Q28652438 | ||
Atmospheric O2/N2changes, 1993-2002: Implications for the partitioning of fossil fuel CO2sequestration | Q29302339 | ||
Determination of T1rhoH relaxation rates in charred and uncharred wood and consequences for NMR quantitation. | Q30745507 | ||
Impact of remote protonation on 13C CPMAS NMR quantitation of charred and uncharred wood. | Q30745645 | ||
Toward an ecological classification of soil bacteria. | Q33289307 | ||
Fine-root mortality rates in a temperate forest: estimates using radiocarbon data and numerical modeling | Q33495365 | ||
Challenges in elevated CO2 experiments on forests | Q33517065 | ||
CO2 enhancement of forest productivity constrained by limited nitrogen availability | Q33727630 | ||
Common bacterial responses in six ecosystems exposed to 10 years of elevated atmospheric carbon dioxide | Q34134399 | ||
Altered soil microbial community at elevated CO(2) leads to loss of soil carbon. | Q35677220 | ||
Fine-root production dominates response of a deciduous forest to atmospheric CO2 enrichment | Q36448479 | ||
CO2 enrichment increases carbon and nitrogen input from fine roots in a deciduous forest | Q40083421 | ||
Nonlinear grassland responses to past and future atmospheric CO(2). | Q40639929 | ||
Elevated CO2, litter chemistry, and decomposition: a synthesis | Q42645690 | ||
Potential nitrogen constraints on soil carbon sequestration under low and elevated atmospheric CO2. | Q51728693 | ||
Progressive nitrogen limitation of ecosystem processes under elevated CO2 in a warm-temperate forest. | Q51728700 | ||
The global carbon budget 1959–2011 | Q54996983 | ||
Trends in the sources and sinks of carbon dioxide | Q54997101 | ||
Coordinated approaches to quantify long-term ecosystem dynamics in response to global change | Q56959251 | ||
Forest soil carbon cycle under elevated CO2 - a case of increased throughput? | Q57030243 | ||
Anthropogenic and biophysical contributions to increasing atmospheric CO 2 growth rate and airborne fraction | Q57038258 | ||
Below-ground process responses to elevated CO2 and temperature: a discussion of observations, measurement methods, and models | Q57066105 | ||
Measurements and trend analysis of O2, CO2 and delta13C of CO2 from the high altitude research station Junfgraujoch, Switzerland--a comparison with the observations from the remote site Puy de Dôme, France | Q57104131 | ||
Observations of O2:CO2exchange ratios during ecosystem gas exchange | Q57199924 | ||
Estimating the oxidative ratio of the global terrestrial biosphere carbon | Q57204906 | ||
Measurement of soil carbon oxidation state and oxidative ratio by13C nuclear magnetic resonance | Q57204927 | ||
Evaluating two experimental approaches for measuring ecosystem carbon oxidation state and oxidative ratio | Q57204928 | ||
Is carbon within the global terrestrial biosphere becoming more oxidized? Implications for trends in atmospheric O2 | Q57204935 | ||
Cycling and composition of organic matter in terrestrial and marine ecosystems | Q57204938 | ||
Comparing global models of terrestrial net primary productivity (NPP): overview and key results | Q57242357 | ||
Testing global ocean carbon cycle models using measurements of atmospheric O2 and CO2 concentration | Q57242383 | ||
Global and hemispheric CO2 sinks deduced from changes in atmospheric O2 concentration | Q57242402 | ||
Simulation of carbon cycling, including dissolved organic carbon transport, in forest soil locally enriched with 14C | Q57263219 | ||
A multiyear synthesis of soil respiration responses to elevated atmospheric CO2from four forest FACE experiments | Q57263271 | ||
Atmospheric CO2, δ(O2/N2), APO and oxidative ratios from aircraft flask samples over Fyodorovskoye, Western Russia | Q57707489 | ||
P433 | issue | 9 | |
P921 | main subject | forest soil | Q116367366 |
P304 | page(s) | 1797-1811 | |
P577 | publication date | 2015-09-01 | |
P1433 | published in | Journal of Geophysical Research. Biogeosciences | Q27725075 |
P1476 | title | Forest soil carbon oxidation state and oxidative ratio responses to elevated CO2 | |
P478 | volume | 120 |
Q57204879 | Plant species, not climate, controls aboveground biomass O2 :CO2 exchange ratios in deciduous and coniferous ecosystems | cites work | P2860 |
Search more.