Robiul Islam Rubel, Lin Wei, Yajun Wu, Surbhi Gupta, Salman Alanazi, Abdus Sobhan, Augustina Osabutey, Xufei Yang
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In this research, different BCRNFs were developed by impregnating ammonium sulphate (AS) into biochar (BC) and mixing with bentonite (Be), biosolid (BS), rice starch (RS), and bioasphalt (BA) in a different ratio to formulate three new BCRNFs— S1: 40% AS + 55% BC + 5% RS; S2: 50% AS + 15% BC + 15% BS + 20% RS; and S3: 15% AS + 30% BC + 10% Be + 45% BA. Dry pellets of S1 and S2 were coated with 5 wt% poly-lactic acid solution, while pellets of S3 were not coated. The release pattern of N from the BCRNFs was studied in water. The cumulative release of NH<sub>4</sub><sup>+</sup>–N from S1, S2, and S3 was significantly slower than that from AS. The release time of 80% N from S3 was extended up to 30 h. The greenhouse evaluation of BCRNFs consisted of six treatments: control (no N), non-BC commercial controlled-release fertilizer (CCRF), AS, S1, S2, and S3. S1, S2, and S3 corn yields were 196.4%, 209.6%, and 135.7%, respectively, greater than the control treatment (<i>p</i> ≤ 0.05, Tukey’s test). S2 yielded 13.5% and 28.8% more than the non-BC controlled-release fertilizer and AS, respectively. The study demonstrated that BCRNFs coated with poly-lactic acids extend N release duration, boost yield, and reduce N loss in leachate collected in the greenhouse trial of the BCRNFs. Biochar-based BCRNFs have a good prospect for corn production.</p></div>","PeriodicalId":7553,"journal":{"name":"Agricultural Research","volume":null,"pages":null},"PeriodicalIF":1.4000,"publicationDate":"2023-10-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Greenhouse Evaluation of Biochar-Based Controlled-Release Nitrogen Fertilizer in Corn Production\",\"authors\":\"Robiul Islam Rubel, Lin Wei, Yajun Wu, Surbhi Gupta, Salman Alanazi, Abdus Sobhan, Augustina Osabutey, Xufei Yang\",\"doi\":\"10.1007/s40003-023-00673-8\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Low nitrogen use efficiency (NUE) in corn production leads to reduced harvest and substantial nitrogen (N) losses, adversely impacting environment and agricultural sustainability goals. Controlled release of N fertilizers can improve NUE by controlling the release of N from fertilizer granules, extending N availability to crops, and reducing N loss to the environment. Biochar-based controlled-release N fertilizers (BCRNFs) are a new concept to address the N loss problem and increase yield. In this research, different BCRNFs were developed by impregnating ammonium sulphate (AS) into biochar (BC) and mixing with bentonite (Be), biosolid (BS), rice starch (RS), and bioasphalt (BA) in a different ratio to formulate three new BCRNFs— S1: 40% AS + 55% BC + 5% RS; S2: 50% AS + 15% BC + 15% BS + 20% RS; and S3: 15% AS + 30% BC + 10% Be + 45% BA. Dry pellets of S1 and S2 were coated with 5 wt% poly-lactic acid solution, while pellets of S3 were not coated. The release pattern of N from the BCRNFs was studied in water. The cumulative release of NH<sub>4</sub><sup>+</sup>–N from S1, S2, and S3 was significantly slower than that from AS. The release time of 80% N from S3 was extended up to 30 h. The greenhouse evaluation of BCRNFs consisted of six treatments: control (no N), non-BC commercial controlled-release fertilizer (CCRF), AS, S1, S2, and S3. S1, S2, and S3 corn yields were 196.4%, 209.6%, and 135.7%, respectively, greater than the control treatment (<i>p</i> ≤ 0.05, Tukey’s test). S2 yielded 13.5% and 28.8% more than the non-BC controlled-release fertilizer and AS, respectively. The study demonstrated that BCRNFs coated with poly-lactic acids extend N release duration, boost yield, and reduce N loss in leachate collected in the greenhouse trial of the BCRNFs. 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引用次数: 0
摘要
玉米生产中氮素利用效率(NUE)低会导致收成减少和大量氮素(N)流失,对环境和农业可持续发展目标产生不利影响。控释氮肥可以通过控制氮从肥料颗粒中的释放来提高氮利用率,延长作物的氮利用率并减少环境中的氮损失。基于生物炭的控释氮肥(BCRNFs)是解决氮流失问题和提高产量的新概念。在这项研究中,通过将硫酸铵(AS)浸渍到生物炭(BC)中,并与膨润土(Be)、生物固体(BS)、大米淀粉(RS)和生物沥青(BA)以不同的比例混合,开发出了三种不同的生物炭控释氮肥--S1:40% AS + 55% BC + 5% RS;S2:50% AS + 15% BC + 15% BS + 20% RS;S3:15% AS + 30% BC + 10% Be + 45% BA。S1 和 S2 的干颗粒涂有 5 wt% 的聚乳酸溶液,而 S3 的颗粒没有涂覆。研究了 BCRNFs 在水中的氮释放模式。S1、S2 和 S3 中 NH4+-N 的累积释放速度明显慢于 AS。对 BCRNFs 的温室评估包括六个处理:对照(无氮)、非BC 商用控释肥料(CCRF)、AS、S1、S2 和 S3。与对照处理相比,S1、S2 和 S3 的玉米产量分别提高了 196.4%、209.6% 和 135.7%(p ≤ 0.05,Tukey's 检验)。S2比非BC控释肥和AS分别增产13.5%和28.8%。该研究表明,涂有聚乳酸的 BCRNFs 延长了氮释放时间,提高了产量,并减少了在 BCRNFs 温室试验中收集的浸出液中的氮损失。基于生物炭的 BCRNFs 在玉米生产中具有良好的应用前景。
Greenhouse Evaluation of Biochar-Based Controlled-Release Nitrogen Fertilizer in Corn Production
Low nitrogen use efficiency (NUE) in corn production leads to reduced harvest and substantial nitrogen (N) losses, adversely impacting environment and agricultural sustainability goals. Controlled release of N fertilizers can improve NUE by controlling the release of N from fertilizer granules, extending N availability to crops, and reducing N loss to the environment. Biochar-based controlled-release N fertilizers (BCRNFs) are a new concept to address the N loss problem and increase yield. In this research, different BCRNFs were developed by impregnating ammonium sulphate (AS) into biochar (BC) and mixing with bentonite (Be), biosolid (BS), rice starch (RS), and bioasphalt (BA) in a different ratio to formulate three new BCRNFs— S1: 40% AS + 55% BC + 5% RS; S2: 50% AS + 15% BC + 15% BS + 20% RS; and S3: 15% AS + 30% BC + 10% Be + 45% BA. Dry pellets of S1 and S2 were coated with 5 wt% poly-lactic acid solution, while pellets of S3 were not coated. The release pattern of N from the BCRNFs was studied in water. The cumulative release of NH4+–N from S1, S2, and S3 was significantly slower than that from AS. The release time of 80% N from S3 was extended up to 30 h. The greenhouse evaluation of BCRNFs consisted of six treatments: control (no N), non-BC commercial controlled-release fertilizer (CCRF), AS, S1, S2, and S3. S1, S2, and S3 corn yields were 196.4%, 209.6%, and 135.7%, respectively, greater than the control treatment (p ≤ 0.05, Tukey’s test). S2 yielded 13.5% and 28.8% more than the non-BC controlled-release fertilizer and AS, respectively. The study demonstrated that BCRNFs coated with poly-lactic acids extend N release duration, boost yield, and reduce N loss in leachate collected in the greenhouse trial of the BCRNFs. Biochar-based BCRNFs have a good prospect for corn production.
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The main objective of this initiative is to promote agricultural research and development. The journal will publish high quality original research papers and critical reviews on emerging fields and concepts for providing future directions. The publications will include both applied and basic research covering the following disciplines of agricultural sciences: Genetic resources, genetics and breeding, biotechnology, physiology, biochemistry, management of biotic and abiotic stresses, and nutrition of field crops, horticultural crops, livestock and fishes; agricultural meteorology, environmental sciences, forestry and agro forestry, agronomy, soils and soil management, microbiology, water management, agricultural engineering and technology, agricultural policy, agricultural economics, food nutrition, agricultural statistics, and extension research; impact of climate change and the emerging technologies on agriculture, and the role of agricultural research and innovation for development.
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