탄소중립 이행을 위한 논에서의 온실가스 배출 저감 기술 개발

References

1. Agnihotri et al., 1999, Mitigation strategy to contain methane emission from rice-fields. Environmental Monitoring and Assessment.
2. Bi et al., 2009, Long-term effects of organic amendments on the rice yields for double rice cropphg systems in subtropical China, Agriculture, Ecosystem & Environment.
3. Choi et al., 2010, Effects of green manure crops on improvement of chemical and biological properties in soil, Korean Journal of Soil Science and Fertilizer.
4. Cicerone et al., 1983, Seasonal variation of methane flux from a California rice paddy. Journal of Geophysical Research: Oceans.
5. Das and baruah, 2008, Methane emission associated with anatomical and morphophysiological characteristics of rice (Oryza sativa) plant, Physiologia Plantarum.
6. de Bont et al., 1978, Bacterial oxidation of methane in a rice paddy, Ecological Bulletins.
7. Denier van der Gon et al, 2002, Optimizing grain yields reduces CH4 emissions from rice paddy fields, Proceedings of the National Academy of Sciences.
8. Fang et al., 2019, Impact of soil puddling intensity on the root system architecture of rice (Oryza sativa L.) seedlings. Soil and Tillage Research.
9. GIR (Greenhouse Gas Inventory and Research Center), 2019, National inventory report in Korea, Greenhouse Gas Inventory and Research Center.
10. Gwon et al., 2022, Research review of methane emissions from Korean rice paddies, Journal of Climate Change Research.
11. Huang et al., 1997, Methane emission from Texas rice paddy soils. 2. Seasonal contribution of rice biomass production to CH4 emission, Global Change Biology.
12. Hwang et al., 2013, Midsummer drainage effects on rice growth and golden apple snails in environment-friendly rice cultivation, Korean Journal of Organic Agriculture.
13. IPCC (Intergovernmental Panel on Climate Change), 2006, Guidelines for national greenhouse gas inventories, IPCC.
14. IPCC (Intergovermental Panel on Climate Change), 2023, Climate change 2023: Synthesis Report, IPCC.
15. Jensen et al, 1967, Tracer studies of oxygen diffusion through roots of barley, corn, and rice, Soil Science.
16. Jeong et al., 2010, Assessment on greenhouse gas (CH4) emissions in Korea cropland sector from 1990 to 2008, Korean Journal of Soil Science and Fertilizer.
17. Ju et al., 2020a, Closed static chamber methods for measurement of methane fluxes from a rice paddy: A review, Korean Journal of Agricultural and Forest Meteorology.
18. Ju et al., 2020b, Measurement uncertainty of methane concentrations from a rice paddy measured by a closed automated chamber system, Korean Journal of Environmental Agriculture.
19. Kalita et al., 2020, Puddling and its effect on soil physical properties and growth of rice and post rice crops: A review. Journal of Pharmacognosy and Phytochemistry.
20. Kenichi et al., 2020, Effects of water management and soil type on greenhouse gases emission from rice production in an Giang province, Vietnam Journal of Science and Technology.
21. Ma and Lu, 2011, Regulation of microbial methane production and oxidation by intermittent drainage in rice field soil, FEMS Microbiology Ecology.
22. Malyan et al., 2016, Methane production, oxidation and mitigation: A mechanistic understanding and comprehensive evaluation of influencing factors, Science of The Total Environment
23. Naser et al., 2007, Methane emissions from five paddy fields with different amounts of rice straw application in central Hokkaido, Japan, Soil Science and Plant Nutrient.
24. Neue et al., 1997, Factors and processes controlling methane emissions from rice fields, Nutrient Cycling in Agroecosystems.
25. Pandey et al., 2014, Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam, Agiruculture, Ecosystem & Environment
26. Rahman, 2019, Potential benefits of dry direct seeded rice culture: A review, Fundamental and Applied Agriculture.
27. RDA (Rural Development Administration), 2005, Development of agricultural practices to mitigate greenhouse gases from agricultural sector, RDA.
28. Rolston et al, 1993, Use of chamber systems to measure trace gas fluxes, ASA special publication.
29. Sarker et al., 2018, Impact of agricultural management practices on the nutrient supply potential of soil organic matter under long-term farming systems, Soil and Tillage Research.
30. Sass et al., 1990, Methane production and emission in a Texas rice field, Global Biogeochemical Cycles.
31. Sass et al„ 1991, Methane emission from rice fields as influenced by solar radiation, temperature, and straw incorporation, Global Biogeochemical Cycles.
32. Sahrawat, 2006, Terminal electron acceptors for controlling methane emissions from submerged rice soils, Communications in Soil Science and Plant Analysis.
33. Sahrawat, 2015, Redox potential and pH as major drivers of fertility in submerged rice soils: A conceptual framework for management, Communications in Soil Science and Plant Analysis.
34. Setyanto et al., 2004, The effect of rice cultivars on methane emission from irrigated rice field, Indonesian Journal of Agricultural Science.
35. Shin et al., 1995, A simplified closed static chamber method for measuring methane flux in paddy soils, Korean Society of Soil Science and Fertilizer.
36. Shin et al., 2003, Seasonal change of rice-mediated emission from a rice paddy under different water management and organic amendments, Korean Journal of Soil Science and Fertilizer.
37. Yang et al., 2007, Water saving and high-yielding irrigation for lowland rice by controlling limiting values of soil water potential, Journal of Integrative Plant Biology.
38. Yang et al., 2010, Effect of long term annual dressing of organic matter on physico-chemical properties and nitrogen uptake in the paddy soil of fluvio-marine deposit. Korean Journal of Soil Science and Fertilizer.
39. Zhang et al., 2008, Postantheis moderate wetting drying improves both quality and quantity of the rice yield, Agronomy Journal.
40. Zhang et al., 2010, Effects of biochar amendment on yield and methane and nitrous oxide emissions from a rice paddy from Tai Lake plain, China, Agriculture, Ecosystems & Environment.