740 results on '"Ge, Tida"'
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2. Pyrogenic organic matter decreases while fresh organic matter increases soil heterotrophic respiration through modifying microbial activity in a subtropical forest
3. Bacterial necromass determines the response of mineral-associated organic matter to elevated CO2
4. Microbial diversity loss and wheat genotype-triggered rhizosphere bacterial and protistan diversity constrain soil multifunctionality: Evidence from greenhouse experiment
5. Microbial response on changing C:P stoichiometry in steppe soils of Northern Kazakhstan
6. Extraction optimisation to measure viral abundance in red soils
7. Iron mineral type controls organic matter stability and priming in paddy soil under anaerobic conditions
8. Influence of soil N availability on priming effects depending on temperature
9. Microbial carbon and phosphorus metabolism regulated by C:N:P stoichiometry stimulates organic carbon accumulation in agricultural soils
10. Mineralization and microbial utilization of poly(lactic acid) microplastic in soil
11. Biochar-based urea increases soil methane uptake in a subtropical forest
12. Stoichiometry regulates rice straw-induced priming effect: The microbial life strategies
13. Maize straw increases while its biochar decreases native organic carbon mineralization in a subtropical forest soil
14. Root exudate-mediated plant–microbiome interactions determine plant health during disease infection
15. Coupling of microbial-explicit model and machine learning improves the prediction and turnover process simulation of soil organic carbon
16. Labile organic carbon fractions in the rhizosphere contribute to nitrogen and phosphorus uptake in rice under long-term crop rotations and nitrogen application
17. Contrasting viral diversity and potential biogeochemical impacts in paddy and upland soils
18. Microbial response to long-term fertilization of paddy soils: Apparent and real priming effects
19. Rice root Fe plaque increases paddy soil CH4 emissions via the promotion of electron transfer for syntrophic methanogenesis
20. Effects of microplastics on photosynthesized C allocation in a rice-soil system and its utilization by soil microbial groups
21. Intensive N2 fixation accelerates microbial turnover in cropland soils
22. Fate of low molecular weight organics in paddy vs. upland soil: A microbial biomarker approach
23. Combining water-saving and drought-resistant rice with plastic film mulching mitigates CH4 emissions with higher net economic benefits
24. Nitrogen fertilization enhances organic carbon accumulation in topsoil mainly by improving photosynthetic C assimilation in a salt marsh
25. Soil nutrient conditions alter viral lifestyle strategy and potential function in phosphorous and nitrogen metabolisms
26. Continuous cropping disorders of eggplants (Solanum melongena L.) and tomatoes (Solanum lycopersicum L.) in suburban agriculture: Microbial structure and assembly processes
27. Promotion of the symbiotic interaction between phagotrophic protists and beneficial bacteria, mediated via a balancing of soil nutrients, reduces the incidence of watermelon Fusarium wilt
28. Organic fertilizers incorporation increased microbial necromass accumulation more than mineral fertilization in paddy soil via altering microbial traits
29. Long-term bioorganic and organic fertilization improved soil quality and multifunctionality under continuous cropping in watermelon
30. Biochar significantly reduced nutrient-induced positive priming in a subtropical forest soil
31. Competition for two sulphur containing amino acids (cysteine and methionine) by soil microbes and maize roots in the rhizosphere
32. Phagotrophic protist-mediated control of Polymyxa graminis in the wheat rhizosphere
33. Deciphering differences in microbial community composition and multifunctionality between healthy and Alternaria solani-infected potato rhizosphere soils
34. Microplastics affect activity and spatial distribution of C, N, and P hydrolases in rice rhizosphere
35. Distribution of microplastics in soil aggregates after film mulching
36. Do biodegradable microplastics cause soil inorganic carbon loss in calcareous soils?
37. The fate of amino acid and peptide as affected by soil depth and fertilization regime in subtropical paddies
38. Meta-analysis on the effects of types and levels of N, P, and K fertilization on organic carbon in cropland soils
39. Divergent accumulation of microbial and plant necromass along paddy soil development in a millennium scale
40. Long-term fertilization suppresses rice pathogens by microbial volatile compounds
41. Residence time of carbon in paddy soils
42. Changes in soil CO2 and N2O emissions in response to urea and biochar-based urea in a subtropical Moso bamboo forest
43. Tracing the mineralization rates of C, N and S from cysteine and methionine in a grassland soil: A 14C and 35S dual-labelling study
44. Reductive dissolution of iron phosphate modifies rice root morphology in phosphorus-deficient paddy soils
45. Intensive management of a bamboo forest significantly enhanced soil nutrient concentrations but decreased soil microbial biomass and enzyme activity: a long-term chronosequence study
46. Nitrogen fertilization modulates rice seed endophytic microbiomes and grain quality
47. Microplastics in soil can increase nutrient uptake by wheat
48. Decreasing microbial phosphorus limitation increases soil carbon release
49. Polyethylene microplastics alter the microbial functional gene abundances and increase nitrous oxide emissions from paddy soils
50. Microplastics shape microbial communities affecting soil organic matter decomposition in paddy soil
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