16 citations as recorded by crossref.

1. Functional composition has stronger impact than species richness on carbon gain and allocation in experimental grasslands C. Roscher et al.
2. Soil organic matter turnover: Global implications from δ13C and δ15N signatures E. Soldatova et al.
3. Carbon Sequestration by Perennial Energy Crops: Is the Jury Still Out? F. Agostini et al.
4. Fire changes the spatial distribution and sources of soil organic carbon in a grassland-shrubland transition zone G. Wang et al.
5. Recent progress in the application of organic isotopes in environmental geochemistry of the Anthropocene B. Xu et al.
6. 13C‐labeling shows the effect of hierarchy on the carbon gain of individuals and functional groups in dense field stands F. Lattanzi et al.
7. Environmental controls of temporal and spatial variability in CO2 and CH4 fluxes in a neotropical peatland E. Wright et al.
8. Progress and challenges in using stable isotopes to trace plant carbon and water relations across scales C. Werner et al.
9. Influence of long-term CO2 storage on δ13C in vials capped with butyl and butyl/PTFE caps and the relevance for ecological samples S. Kuehfuss et al.
10. Fate of 13 C labelled root and shoot residues in soil and anecic earthworm casts: A mesocosm experiment A. Vidal et al.
11. Using functional traits to predict grassland ecosystem change: a mathematical test of the response‐and‐effect trait approach K. KLUMPP & J. SOUSSANA
12. Isotope labeling reveals contribution of newly fixed carbon to carbon storage and monoterpenes production under water deficit and carbon limitation J. Huang et al.
13. Poly(L-lactide) mineralisation under environmental conditions is enhanced in earthworm guts L. Hink et al.
14. C and N in soil organic matter density fractions under elevated atmospheric CO2: Turnover vs. stabilization M. Dorodnikov et al.
15. Whole-crown 13C-pulse labelling in a sub-arctic woodland to target canopy-specific carbon fluxes N. Friggens et al.
16. Grazing triggers soil carbon loss by altering plant roots and their control on soil microbial community K. Klumpp et al.