Citations (20)
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Hari Mohan Meena & H. C. Prakasha. (2022) The impact of biochar, lime and fertilizer on soil acidity and microbiological properties and their relationship with yield of rice and cowpea in an acidic soil of Southern India. Journal of Plant Nutrition 45:3, pages 358-368.
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Hari Mohan Meena & H. C. Prakasha. (2020) Effect of biochar, lime and soil test value based fertilizer application on soil fertility, nutrient uptake and yield of rice-cowpea cropping system in an acid soil of Karnataka. Journal of Plant Nutrition 43:17, pages 2664-2679.
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Shinichi Koyama & Hisayoshi Hayashi. (2019) Effects of single and successive applications of rice husk charcoal on paddy soil carbon content and rice productivity during two cropping seasons. Soil Science and Plant Nutrition 65:2, pages 196-202.
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Articles from other publishers (17)
Franklin Linam, Matt A. Limmer, Alina M. Ebling & Angelia L. Seyfferth. (2023) Rice husk and husk biochar soil amendments store soil carbon while water management controls dissolved organic matter chemistry in well-weathered soil. Journal of Environmental Management 339, pages 117936.
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Sita Koné & Xavier Galiegue. (2023) Potential Development of Biochar in Africa as an Adaptation Strategy to Climate Change Impact on Agriculture. Environmental Management.
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S. D. S. Piyathissa, P. D. Kahandage, Namgay, Hao Zhang, Ryozo Noguchi & Tofael Ahamed. (2023) Introducing a Novel Rice Husk Combustion Technology for Maximizing Energy and Amorphous Silica Production Using a Prototype Hybrid Rice Husk Burner to Minimize Environmental Impacts and Health Risk. Energies 16:3, pages 1120.
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Haiyuan Ma, Yong Hu, Jiang Wu, Takuro Kobayashi, Kai-Qin Xu & Hidetoshi Kuramochi. (2022) Enhanced anaerobic digestion of tar solution from rice husk thermal gasification with hybrid upflow anaerobic sludge-biochar bed reactor. Bioresource Technology 347, pages 126688.
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Zhaoliang Song, Yuntao Wu, Xiaodong Zhang, Zichuan Li, Bhupinder Pal Singh & Hailong Wang. 2022. Biochar in Agriculture for Achieving Sustainable Development Goals. Biochar in Agriculture for Achieving Sustainable Development Goals
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Félix de Tombeur, Philippe Roux & Jean-Thomas Cornelis. (2021) Silicon dynamics through the lens of soil-plant-animal interactions: perspectives for agricultural practices. Plant and Soil 467:1-2, pages 1-28.
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Franklin Linam, Kendall McCoach, Matt A. Limmer & Angelia L. Seyfferth. (2021) Contrasting effects of rice husk pyrolysis temperature on silicon dissolution and retention of cadmium (Cd) and dimethylarsinic acid (DMA). Science of The Total Environment 765, pages 144428.
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A Fahmi & A Susilawati. (2020) The utilization of agricultural waste for peatland management; in case chili cultivation. IOP Conference Series: Materials Science and Engineering 980:1, pages 012069.
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Dilys S. MacCarthy, Eric Darko, Eric K. Nartey, Samuel G. K. Adiku & Abigail Tettey. (2020) Integrating Biochar and Inorganic Fertilizer Improves Productivity and Profitability of Irrigated Rice in Ghana, West Africa. Agronomy 10:6, pages 904.
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Peter Lyod P. SABES, Mathias Mawo LON, Mchuno Alfred PETER, Jumpei MARUYAMA, Shinichi KOYAMA, Tetsu WATANABE & Shinzo KOIZUMI. (2020) Effect of Increased Silicon Content of Paddy Rice on Sheath Blight Development through Carbonized Rice Husk Application. Japan Agricultural Research Quarterly: JARQ 54:2, pages 145-151.
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Yaofeng Wang, Xin Xiao, Yiliang Xu & Baoliang Chen. (2019) Environmental Effects of Silicon within Biochar (Sichar) and Carbon–Silicon Coupling Mechanisms: A Critical Review. Environmental Science & Technology 53:23, pages 13570-13582.
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Dandan Zhu, Shiding Miao, Bing Xue, Yinshan Jiang & Cundi Wei. (2019) Effect of Coal Gasification Fine Slag on the Physicochemical Properties of Soil. Water, Air, & Soil Pollution 230:7.
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Hadi Yaghoubi, Mohammad Sadegh Allahyari, Saeed Firouzi, Christos A Damalas & Soroush Marzban. (2019) Identifying sustainable options for rice husk valorization using the analytic hierarchy process. Outlook on Agriculture 48:2, pages 117-125.
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Zichuan Li, Zhaoliang Song, Bhupinder Pal Singh & Hailong Wang. (2019) The impact of crop residue biochars on silicon and nutrient cycles in croplands. Science of The Total Environment 659, pages 673-680.
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Cosmas Wacal, Naoki Ogata, Daniel Basalirwa, Takuo Handa, Daisuke Sasagawa, Robert Acidri, Tadashi Ishigaki, Masako Kato, Tsugiyuki Masunaga, Sadahiro Yamamoto & Eiji Nishihara. (2019) Growth, Seed Yield, Mineral Nutrients and Soil Properties of Sesame (Sesamum indicum L.) as Influenced by Biochar Addition on Upland Field Converted from Paddy. Agronomy 9:2, pages 55.
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Phuong T. M. Do, Taro Ueda, Ryota Kose, Loc X. Nguyen, Takayuki Okayama & Takayuki Miyanishi. (2018) Properties and potential use of biochars from residues of two rice varieties, Japanese Koshihikari and Vietnamese IR50404. Journal of Material Cycles and Waste Management 21:1, pages 98-106.
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Vimala D. Nair, P. K. Ramachandran Nair, Biswanath Dari, Andressa M. Freitas, Nilovna Chatterjee & Felipe M. Pinheiro. (2017) Biochar in the Agroecosystem–Climate-Change–Sustainability Nexus. Frontiers in Plant Science 8.
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