34 results on '"Dijkstra, Feike A."'
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2. Aridity thresholds of microbiome-soil function relationship along a climatic aridity gradient in alpine ecosystem
3. Maximising carbon sequestration through mixing compost in moist soil
4. Nitrogen enrichment stimulates rhizosphere multi-element cycling genes via mediating plant biomass and root exudates
5. Altered rainfall greatly affects enzyme activity but has limited effect on microbial biomass in Australian dryland soils
6. Mineralisation and priming effects of a biodegradable plastic mulch film in soils: Influence of soil type, temperature and plastic particle size
7. Elevated CO2 and nitrogen interactively affect the rhizosphere priming effect of Cunninghamia lanceolata
8. Linking plant traits to rhizosphere priming effects across six grassland species with and without nitrogen fertilization
9. Altered rainfall greatly affects enzyme activity but has limited effect on microbial biomass in Australian dryland soils
10. Mineralisation and priming effects of a biodegradable plastic mulch film in soils: Influence of soil type, temperature and plastic particle size
11. Priming effect on soil carbon decomposition by root exudate surrogates: A meta-analysis
12. Nitrogen addition increases microbial necromass in croplands and bacterial necromass in forests: A global meta-analysis
13. Priming effect varies with root order: A case of Cunninghamia lanceolata
14. Arbuscular mycorrhizal trees cause a higher carbon to nitrogen ratio of soil organic matter decomposition via rhizosphere priming than ectomycorrhizal trees
15. Microbial carbon use efficiency, biomass residence time and temperature sensitivity across ecosystems and soil depths
16. Rhizosphere priming effects of Lolium perenne and Trifolium repens depend on phosphorus fertilization and biological nitrogen fixation
17. Linking absorptive roots and their functional traits with rhizosphere priming of tree species
18. Rhizosphere priming is tightly associated with root-driven aggregate turnover
19. Rhizodeposition mediates the effect of nitrogen and phosphorous availability on microbial carbon use efficiency and turnover rate
20. Biochar-induced reductions in the rhizosphere priming effect are weaker under elevated CO2
21. Variation in rhizosphere priming and microbial growth and carbon use efficiency caused by wheat genotypes and temperatures
22. Carbon and phosphorus addition effects on microbial carbon use efficiency, soil organic matter priming, gross nitrogen mineralization and nitrous oxide emission from soil
23. Roots of non-woody perennials accelerated long-term soil organic matter decomposition through biological and physical mechanisms
24. Soil carbon loss regulated by drought intensity and available substrate: A meta-analysis
25. Soil microbial community resistance to drought and links to C stabilization in an Australian grassland
26. Biochar reduces the rhizosphere priming effect on soil organic carbon
27. Phosphorus addition enhances loss of nitrogen in a phosphorus-poor soil
28. Plant and microbial uptake of nitrogen and phosphorus affected by drought using 15N and 32P tracers
29. Dry-rewetting cycles regulate wheat carbon rhizodeposition, stabilization and nitrogen cycling
30. Inorganic and organic carbon dynamics in a limed acid soil are mediated by plants
31. Elevated CO2, but not defoliation, enhances N cycling and increases short-term soil N immobilization regardless of N addition in a semiarid grassland
32. Water limitation and plant inter-specific competition reduce rhizosphere-induced C decomposition and plant N uptake
33. Does accelerated soil organic matter decomposition in the presence of plants increase plant N availability?
34. Moisture modulates rhizosphere effects on C decomposition in two different soil types
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