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Archives of Agronomy and Soil Science Volume 66, 2020 - Issue 7
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Articles

Nitrogen availability and ammonia volatilization in biochar-based fertilizers

Aline Peregrina PugaEmbrapa Meio Ambiente, Jaguariúna, BrazilCorrespondence[email protected]
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Matheus Castro de Almeida QueirozInstituto Agronômico de Campinas, Campinas, Centro de Solos e Recursos Ambientais, BrazilView further author information
,
Marcos Antonio Vieira LigoEmbrapa Meio Ambiente, Jaguariúna, BrazilView further author information
,
Cristina Silva CarvalhoUniversidade Estadual do Maranhão, São Luís, Programa de Pós-Graduação em Agroecologia, BrazilView further author information
,
Adriana Marlene Moreno PiresEmbrapa Meio Ambiente, Jaguariúna, BrazilView further author information
,
Juliana de Oliveira Santos MarcattoEmbrapa Meio Ambiente, Jaguariúna, BrazilView further author information
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Cristiano Alberto de AndradeEmbrapa Meio Ambiente, Jaguariúna, BrazilView further author information
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Pages 992-1004 | Received 13 Dec 2018, Accepted 26 Jul 2019, Published online: 12 Aug 2019

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Mansour Mirzaei Varoei, Shahin Oustan, Adel Reyhanitabar & Nosratollah Najafi. (2023) Preparation, characterization and nitrogen availability of nitrohumic acid as a slow-release nitrogen fertilizer. Archives of Agronomy and Soil Science 69:14, pages 3345-3361.
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Articles from other publishers (31)

Randima Edussuriya, Anushka Upamali Rajapaksha, Chamila Jayasinghe, Chaamila Pathirana & Meththika Vithanage. (2023) Influence of biochar on growth performances, yield of root and tuber crops and controlling plant-parasitic nematodes. Biochar 5:1.
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Alexandre Tisserant, Xiangping Hu, Qi Liu, Zubin Xie, Wenwu Zhao & Francesco Cherubini. (2023) Biochar and Its Potential to Deliver Negative Emissions and Better Soil Quality in Europe. Earth's Future 11:10.
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Raúl Castejón-del Pino, Miguel A. Sánchez-Monedero, María Sánchez-García & María L. Cayuela. (2023) Fertilization strategies to reduce yield-scaled N2O emissions based on the use of biochar and biochar-based fertilizers. Nutrient Cycling in Agroecosystems.
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Mathijs Harmsen, Charlotte Tabak, Lena Höglund-Isaksson, Florian Humpenöder, Pallav Purohit & Detlef van Vuuren. (2023) Uncertainty in non-CO2 greenhouse gas mitigation contributes to ambiguity in global climate policy feasibility. Nature Communications 14:1.
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Alefsi David Sánchez-Reinoso, Edgar Álvaro Ávila-Pedraza, Leonardo Lombardini & Hermann Restrepo-Díaz. (2023) The Application of Coffee Pulp Biochar Improves the Physical, Chemical, and Biological Characteristics of Soil for Coffee Cultivation. Journal of Soil Science and Plant Nutrition 23:2, pages 2512-2524.
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Yang Zhang, Haimeng Du, Yinglong Chen, Huanhe Wei, Qigen Dai, Jiumei Liu & Zhijiang Li. (2022) Influence of biochar‐based urea substituting urea on rice yield, bacterial community and nitrogen cycling in paddy fields. Journal of the Science of Food and Agriculture 103:6, pages 2794-2805.
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Giovana Poggere, Maria Júlia Bonfim Santana, Julierme Zimmer Barbosa, Rodrigo Studart Corrêa & Leônidas Carrijo Azevedo Melo. (2022) A data synthesis on the biochar properties and implications for air, soil, and water quality in Brazil. Environmental Quality Management 32:3, pages 27-41.
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Yurong Gao, Zheng Fang, Lukas Van Zwieten, Nanthi Bolan, Da Dong, Bert F. Quin, Jun Meng, Fangbai Li, Fengchang Wu, Hailong Wang & Wenfu Chen. (2022) A critical review of biochar-based nitrogen fertilizers and their effects on crop production and the environment. Biochar 4:1.
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Jingting Chen, Xuerui Wang, Xinyu Liu, Shufeng Wang, Jianan Zhao, He Zhang, Yubo Wang & Caifeng Li. (2022) Beneficial Effects of Biochar-Based Organic Fertilizers on Nitrogen Assimilation, Photosynthesis, and Sucrose Synthesis of Sugar Beet (Beta vulgaris L.). International Journal of Plant Production 16:4, pages 755-768.
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Valéria Viana Pereira, Marina Moura Morales, Dalton Henrique Pereira, Fabiana Abreu de Rezende, Ciro Augusto de Souza Magalhães, Larissa Borges de Lima, Ben Hur Marimon-Junior & Fabiano André Petter. (2022) Activated Biochar-Based Organomineral Fertilizer Delays Nitrogen Release and Reduces N2O Emission. Sustainability 14:19, pages 12388.
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Tianling Li, Zhengguo Wang, Chenxu Wang, Jiayu Huang, Yanfang Feng, Weishou Shen, Ming Zhou & Linzhang Yang. (2022) Ammonia volatilization mitigation in crop farming: A review of fertilizer amendment technologies and mechanisms. Chemosphere 303, pages 134944.
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Yu Zhang, Paramsothy Jeyakumar, Changlei Xia, Su Shiung Lam, Jiang Jiang, Haijun Sun & Weiming Shi. (2022) Being applied at rice or wheat season impacts biochar's effect on gaseous nitrogen pollutants from the wheat growth cycle. Environmental Pollution 306, pages 119409.
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Ahmed I. Osman, Samer Fawzy, Mohamed Farghali, Marwa El-Azazy, Ahmed M. Elgarahy, Ramy Amer Fahim, M. I. A. Abdel Maksoud, Abbas Abdullah Ajlan, Mahmoud Yousry, Yasmeen Saleem & David W. Rooney. (2022) Biochar for agronomy, animal farming, anaerobic digestion, composting, water treatment, soil remediation, construction, energy storage, and carbon sequestration: a review. Environmental Chemistry Letters 20:4, pages 2385-2485.
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Gul Roz Khan, Hiba M. Alkharabsheh, Mohammad Akmal, Arwa Abdulkreem AL-Huqail, Nawab Ali, Bushra A. Alhammad, Muhammad Mehran Anjum, Rabia Goher, Fazli Wahid, Mahmoud F. Seleiman & Gerrit Hoogenboom. (2022) Split Nitrogen Application Rates for Wheat (Triticum aestivum L.) Yield and Grain N Using the CSM-CERES-Wheat Model. Agronomy 12:8, pages 1766.
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Farzad Rasouli, Yousef Nasiri, Mohammad Asadi, Mohammad Bagher Hassanpouraghdam, Sina Golestaneh & Yaghoub Pirsarandib. (2022) Fertilizer type and humic acid improve the growth responses, nutrient uptake, and essential oil content on Coriandrum sativum L.. Scientific Reports 12:1.
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Meng Zhang, Yanling Liu, Quanquan Wei, Lingling Liu & Jiulan Gou. (2022) Biochar-based fertiliser improved the yield, quality and fertiliser utilisation of open field tomato in karst mountainous area. Plant, Soil and Environment 68:4, pages 163-172.
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Chongqing Wang, Dan Luo, Xue Zhang, Rong Huang, Yijun Cao, Gonggang Liu, Yingshuang Zhang & Hui Wang. (2022) Biochar-based slow-release of fertilizers for sustainable agriculture: A mini review. Environmental Science and Ecotechnology 10, pages 100167.
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D. Luyima, M. Egyir, J.-H. Lee, J.-H. Yoo & T.-K. Oh. (2021) A review of the potentiality of biochar technology to abate emissions of particulate matter originating from agriculture. International Journal of Environmental Science and Technology 19:4, pages 3411-3428.
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Filipe Selau Carlos, Roberta Jeske Kunde, Rogerio Oliveira de Sousa, Cristiano Weinert, André da Rosa Ulguim, Fernando Viero, Iuri Rossi, Marina Patel Buchain, Cacio Luiz Boechat & Flávio Anastácio de Oliveira Camargo. (2022) Urease inhibitor reduces ammonia volatilization and increases rice grain yield under irrigation delay. Nutrient Cycling in Agroecosystems 122:3, pages 313-324.
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Sebastian Meyer, Daniel Fischer, Anne Meyer, Erik Karltun & Malin Pettersson Silvén. (2021) Biochar-Fertilizer Blends—a Valuable Soil Amendment for Asparagus Cultivation?. Journal of Soil Science and Plant Nutrition 22:1, pages 691-705.
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Filipe Selau Carlos, Naihana Schaffer, Marino José Tedesco, Cristiano Weinert, Julia Lima Reginato, Rogério Oliveira de Sousa, Cacio Luiz Boechat, Robson Andreazza & Flávio Anastácio de Oliveira Camargo. (2021) Chemical attributes of percolate from degraded sand soil irrigated with treated industrial wastewater. Environmental Quality Management 31:3, pages 19-29.
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Cristiane Francisca Barbosa, Dehon Aparecido Correa, Jefferson Santana da Silva Carneiro & Leônidas Carrijo Azevedo Melo. (2022) Biochar Phosphate Fertilizer Loaded with Urea Preserves Available Nitrogen Longer than Conventional Urea. Sustainability 14:2, pages 686.
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Yiman Jia, Zhengyi Hu, Yuxin Ba & Wenfang Qi. (2021) Application of biochar-coated urea controlled loss of fertilizer nitrogen and increased nitrogen use efficiency. Chemical and Biological Technologies in Agriculture 8:1.
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Miaorong Zhou, Shanshan Ying, Junhui Chen, Peikun Jiang & Yuanxin Teng. (2021) Effects of biochar-based fertilizer on nitrogen use efficiency and nitrogen losses via leaching and ammonia volatilization from an open vegetable field. Environmental Science and Pollution Research 28:46, pages 65188-65199.
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Khadim Dawar, Saif-ur-Rahman, Shah Fahad, Syed Sartaj Alam, Shah Alam Khan, Atif Dawar, Uzma Younis, Subhan Danish, Rahul Datta & Richard P. Dick. (2021) Influence of variable biochar concentration on yield-scaled nitrous oxide emissions, Wheat yield and nitrogen use efficiency. Scientific Reports 11:1.
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D.H.H. Sim, I.A.W. Tan, L.L.P. Lim & B.H. Hameed. (2021) Encapsulated biochar-based sustained release fertilizer for precision agriculture: A review. Journal of Cleaner Production 303, pages 127018.
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Xiuneng Li, Xiaohou Shao, Rongqi Li, Chao Gao, Xu Yang, Fuzhang Ding & Youbo Yuan. (2021) Optimization of tobacco water‐fertilizer coupling scheme under effective microorganisms biochar‐based fertilizer application condition. Agronomy Journal 113:2, pages 1653-1663.
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Deogratius Luyima, Jwakyung Sung, Jae-Han Lee, Seong-Ah Woo, Seong-Jin Park & Taek-Keun Oh. (2020) Sorption of urea hydrogen peroxide by co-pyrolysed bone meal and cow dung slowed-down phosphorus and nitrogen releases but boosted agronomic efficiency. Applied Biological Chemistry 63:1.
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Deogratius Luyima, Jae-Han Lee, Jwakyung Sung & Taek-Keun Oh. (2020) Co-pyrolysed animal manure and bone meal-based urea hydrogen peroxide (UHP) fertilisers are an effective technique of combating ammonia emissions. Journal of Material Cycles and Waste Management 22:6, pages 1887-1898.
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Aline Peregrina Puga, Priscila Grutzmacher, Carlos Eduardo Pellegrino Cerri, Victor Sanches Ribeirinho & Cristiano Alberto de Andrade. (2020) Biochar-based nitrogen fertilizers: Greenhouse gas emissions, use efficiency, and maize yield in tropical soils. Science of The Total Environment 704, pages 135375.
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Thaís Alves de Carvalho, Aline Peregrina Puga, Adriana Marlene Moreno Pires, Marcos Antônio Vieira Ligo & Cristiano Alberto de Andrade. (2019) Residual effect of nitrogen fertilizers formulated with biochar. Horticulture International Journal 3:6.
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