15 citations as recorded by crossref.

1. Land use drives prokaryotic community composition of directly adjacent grasslands R. Martínez-Cuesta et al.
2. Vegetation replacement drives changes in soil properties and microbial community, influencing greenhouse gas emissions P. Lin et al.
3. Biocrusts Modulate Responses of Nitrous Oxide and Methane Soil Fluxes to Simulated Climate Change in a Mediterranean Dryland A. Lafuente et al.
4. Ecosystem services from partially harvested riparian buffers can offset biomass production costs H. Jager et al.
5. Responses of soil nitrogen cycling to changes in aboveground plant litter inputs: A meta-analysis X. Zhang et al.
6. Sediment redox state threshold for N2O emissions and indirect regulatory impact of organic carbon in shallow lakes H. Li et al.
7. Soil pore structure mediates the effects of soil oxygen on the dynamics of greenhouse gases during wetting–drying phases Y. Du et al.
8. Effect of long-term differentiated fertilisation regimes on greenhouse gas emissions from a subtropical rice-wheat cropping system F. Wang et al.
9. Crop straw incorporation mediates the impacts of soil aggregate size on greenhouse gas emissions M. Jiang et al.
10. Reduced tillage with residue retention and nitrogen application rate increase N2O fluxes from irrigated wheat in a subtropical floodplain soil M. Jahangir et al.
11. Contribution of Litter Layer to Greenhouse Gas Fluxes between Atmosphere and Soil Varies with Forest Succession J. Jiang et al.
12. Cultivating Salix Viminalis in Agricultural-Riparian Transition Areas to Mitigate Agriculturally Derived N2O Emissions from Potato Cropping Systems on Prince Edward Island H. Wilts et al.
13. Impacts of aboveground litter and belowground roots on soil greenhouse gas emissions: Evidence from a DIRT experiment in a pine plantation Y. Shen et al.
14. Effects of nitrogen deposition and litter layer management on soil CO2, N2O, and CH4 emissions in a subtropical pine forestland J. Fan et al.
15. Soil greenhouse gas fluxes in floodplain forests of the Danube National Park: effects of flooding and soil microclimate A. Schindlbacher et al.