70 citations as recorded by crossref.

1. Response of fermenting bacterial and methanogenic archaeal communities in paddy soil to progressing rice straw degradation Y. Ji et al.
2. Diffusive flux of CH4 and N2O from agricultural river networks: Regression tree and importance analysis X. Qin et al.
3. Optimizing the C/N ratio of straw increases rice yield and stability by the enhanced soil-root interaction J. Gao et al.
4. Inclusion of microbial inoculants with straw mulch enhances grain yields from rice fields in central China L. Wang et al.
5. Assessing diel variation of CH4 flux from rice paddies through temperature patterns C. Centeno et al.
6. Recycling rice straw ash to produce low thermal conductivity and moisture-resistant geopolymer adobe bricks M. Morsy et al.
7. Mitigating effects of ex situ application of rice straw on CH4 and N2O emissions from paddy-upland coexisting system W. Wang et al.
8. Methane production potential of soil profile in organic paddy field M. Mujiyo et al.
9. Predicting methane emissions from paddy rice soils under biochar and nitrogen addition using DNDC model M. Shaukat et al.
10. Biochar and magnetite promote methanogenesis during anaerobic decomposition of rice straw J. Huang et al.
11. A Bottom-up Approach to Estimating Regional Methane Emissions from Rice Cultivation Using 2020 Agricultural Census Data in Korea H. Lee et al.
12. Utilization of agricultural and industrial waste as replacement of cement in pavement quality concrete: a review A. Pandey & B. Kumar
13. Economic and Environmental Analysis of Asphalt Pavement Incorporating Sugar Cane Bagasse Bio-Oil with a Life Cycle Cost Perspective B. Ali et al.
14. Straw incorporated after mechanized harvesting of irrigated rice affects net emissions of CH4 and CO2 based on eddy covariance measurements M. Alberto et al.
15. Combined Effects of Straw Returning and Chemical N Fertilization on Greenhouse Gas Emissions and Yield from Paddy Fields in Northwest Hubei Province, China Q. Hu et al.
16. Trade-off of greenhouse gas emissions from double-cropped rice due to straw retention and zero tillage practices S. Parida et al.
17. Linking dissolved organic carbon cycling to organic carbon fluxes in rice paddies under different water management practices D. Said-Pullicino et al.
18. The effect of rice straw on the priming of soil organic matter and methane production in peat soils R. Ye et al.
19. Microbial Degradation of Plant Residues Rapidly Causes Long-Lasting Hypoxia in Soil upon Irrigation and Affects Leaching of Nitrogen and Metals M. Siedt et al.
20. Soil bacterial community mediates the effect of plant material on methanogenic decomposition of soil organic matter Q. Yuan et al.
21. Shedding light on the functional role of the Ignavibacteria in Italian rice field soil: A meta-genomic/transcriptomic analysis Q. Bei et al.
22. The effective mitigation of greenhouse gas emissions from rice paddies without compromising yield by early-season drainage S. Islam et al.
23. Anaerobic primed CO2 and CH4 in paddy soil are driven by Fe reduction and stimulated by biochar Q. Liu et al.
24. Agricultural waste as a replacement for admixture in concrete – A short review J. Sudarsan et al.
25. Reducing Methane Emissions with Humic Acid–Iron Complex in Rice Cultivation: Impact on Greenhouse Gas Emissions and Rice Yield H. Lee et al.
26. Impact of Management Practices on Methane Emissions from Paddy Grown on Mineral Soil over Peat in Central Hokkaido, Japan H. Naser et al.
27. Insights into the Driving Factors of Methane Emission from Double-Season Rice Field Under Different Fertilization Practices in South China J. Zheng et al.
28. Regenerative rice farming for sustaining productivity, reducing energy demand, and methane emissions in India: A comprehensive review G. Sawargaonkar et al.
29. Effect of Tillage Depths on Methane Emission and Rice Yield in Paddy Soil during Rice Cultivation H. Cho et al.
30. Simulating the effects of soil temperature and moisture in the off-rice season on rice straw decomposition and subsequent CH4 production during the growth season in a paddy soil S. Tang et al.
31. Wheat husk: A renewable resource for bio-based building materials V. Barbieri et al.
32. Study on properties of clay brick incorporating sludge of water treatment plant and agriculture waste A. Heniegal et al.
33. Microbial stoichiometric flexibility regulates rice straw mineralization and its priming effect in paddy soil Z. Zhu et al.
34. Effects of straw return and aeration on oxygen status and redox environment in flooded soil Y. An et al.
35. Effects of using rice straw and cotton stalk ashes on the properties of lightweight self-compacting concrete I. Agwa et al.
36. Methane production from rice straw carbon in five different methanogenic rice soils: rates, quantities and microbial communities Q. Yuan et al.
37. Acetate Additions Stimulate CO2 and CH4 Production from Urban Wetland Soils B. Brigham et al.
38. Comparison of isotope methods for partitioning methane production and soil C priming effects during anaerobic decomposition of rice residue in soil R. Ye et al.
39. Long-term management of rice agroecosystem towards climate change mitigation B. Gogoi et al.
40. Impact of 38-year integrated nutrient management on soil carbon sequestration and greenhouse gas emissions of a rice-wheat cropping system M. Kaur et al.
41. Rice straw incorporation affects global warming potential differently in early vs. late cropping seasons in Southeastern China W. Wang et al.
42. Stable carbon isotope fractionation as tracer of carbon cycling in anoxic soil ecosystems M. Blaser & R. Conrad
43. Straw type governs methane-cycling microbiomes and CH4 emissions in paddy soils via abiotic and biotic interactions Y. Wang et al.
44. Deep Drainage Lowers Methane and Nitrous Oxide Emissions from Rice Fields in a Semi-Arid Environment in Rwanda O. Tuyishime et al.
45. Mitigation of Greenhouse Gas Emissions by Water Management in a Forage Rice Paddy Field Supplemented with Dry-Thermophilic Anaerobic Digestion Residue S. Riya et al.
46. Rice rhizodeposits affect organic matter priming in paddy soil: The role of N fertilization and plant growth for enzyme activities, CO 2 and CH 4 emissions Z. Zhu et al.
47. Soil carbon flux research in the Asian region: Review and future perspectives . Liqing SHA et al.
48. Effect of organic carbon addition on paddy soil organic carbon decomposition under different irrigation regimes H. Deroo et al.
49. Accelerated straw decomposition and mitigated methane emissions via autumn puddling incorporation enhances soil health and yield stability in cold-region rice systems of China B. He et al.
50. Water-saving irrigation mitigates methane emissions from paddy fields: The role of iron Y. Han et al.
51. Carbon input management in temperate rice paddies: Implications for methane emissions and crop response C. Bertora et al.
52. Contrasting effects of EDTA applications on the fluxes of methane and nitrous oxide emissions from straw‐treated rice paddy soils P. Pramanik & P. Kim
53. Life cycle assessment of rice straw utilization practices in India S. Soam et al.
54. Importance of biochar as a key amendment to convert rice paddy into carbon negative R. Canatoy et al.
55. Sustainable bio-energy production models for eradicating open field burning of paddy straw in Punjab, India A. Trivedi et al.
56. Coupling effects of biochar and sediment microbial fuel cells on CH4 and CO2 emissions from straw-amended paddy soil A. Bekele et al.
57. Impacts of rice–upland rotation during its rice season on greenhouse gas emissions and crop yield Y. Kang et al.
58. Effects of N loading rate on CH4 and N2O emissions during cultivation and fallow periods from forage rice fields fertilized with liquid cattle waste S. Riya et al.
59. Effect of Soil Texture and Tillage Method on Rice Yield and Methane Emission during Rice Cultivation in Paddy Soil H. Cho et al.
60. Influence of rice straw on priming of soil C for dissolved organic C and CH4 production R. Ye & W. Horwath
61. Relative importance of aceticlastic methanogens and hydrogenotrophic methanogens on mercury methylation and methylmercury demethylation in paddy soils Z. Hao et al.
62. Fate of rice shoot and root residues, rhizodeposits, and microbe-assimilated carbon in paddy soil – Part 1: Decomposition and priming effect Z. Zhu et al.
63. Effects of foliar application of plant growth hormone on methane emission from tropical rice paddy L. Borah & K. Baruah
64. Rice straw recycling: A sustainable approach for ensuring environmental quality and economic security A. KUMAR et al.
65. Physicomechanical and Hygrothermal Characterization of a Sugarcane Waste / Spent Coffee Grounds Composite for Buildings T. Moussa et al.
66. Incorporation of rice straw mitigates CH4and N2O emissions in water saving paddy fields of Central Vietnam T. Hoang et al.
67. Effects of water and rice straw management practices on water savings and greenhouse gas emissions from a double-rice paddy field in the Central Plain of Thailand S. Maneepitak et al.
68. Rice straw ash: A potential pozzolanic supplementary material for cementing systems J. Roselló et al.
69. Geographical pattern of methanogenesis in paddy and wetland soils across eastern China X. Hao et al.
70. Effects of different fertilizers on methane emission from paddy field of Zhejiang, China T. Brahima et al.