| 潮土长期施用生物炭提高小麦产量及氮素利用率 |
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| 引用本文: | 谢迎新,刘宇娟,张伟纳,董成,赵旭,贺德先,王晨阳,郭天财,王慎强. 潮土长期施用生物炭提高小麦产量及氮素利用率[J]. 农业工程学报, 2018, 34(14): 115-123 |
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| 作者姓名: | 谢迎新 刘宇娟 张伟纳 董成 赵旭 贺德先 王晨阳 郭天财 王慎强 |
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| 作者单位: | 河南农业大学农学院/国家小麦工程技术研究中心/河南粮食作物协同创新中心;中国科学院南京土壤研究所/土壤与农业可持续发展国家重点实验室 |
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| 基金项目: | 国家自然科学基金(41771338);国家科技支撑计划项目(2015BAD26B00)联合资助 |
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| 摘 要: | 该文于2011年起在黄淮海典型潮土区建立的秸秆炭化还田定位试验的基础上,系统观测了2011至2017年时间段秸秆生物炭连续施用下小麦生长及氮吸收情况,分析了产量构成因素,地上干物质及氮累积,关键生育期叶面积指数(LAI)、叶绿素相对含量(SPAD值)和群体数量等与小麦增产的关系,并监测了长期生物炭施用下土壤有机碳(SOC)与全氮(TN)含量的变化。该试验采用小麦/玉米周年轮作,设每季0、2.25、6.75和11.25 t/hm2四个秸秆生物炭处理(分别表示为BC0(对照)、BC2.25(低)、BC6.75(中)和BC11.25(高))。结果表明,与BC0相比,BC2.25仅在2015/2016季提高小麦产量,对其他5季无明显效果;BC6.75则在2014/2015、2015/2016和2016/2017的后3季显著提高小麦产量;而BC11.25提高了2014/2015和2015/2016季小麦产量。尽管生物炭处理对各季小麦产量影响各异,但6季各处理平均产量数据显示低、中、高量生物炭处理均可提高小麦产量7.0%~8.5%、生物量5.2%~10.8%和氮肥偏生产力6.8%~8.6%,且3个处理间并无差异;中、高量生物炭处理还可提高小麦秸秆产量11.4%~12.6%、穗数10.1%~11.2%、籽粒氮积累量9.4%~11.2%、秸秆氮积累量17.4%~23.8%、地上部氮积累量13.3%~20.9%。生物炭施用在促进小麦生长和氮吸收利用的作用方面与其增加小麦生育期LAI和SPAD值一致,具体表现为低、中、高量生物炭处理均可明显增加2015/2016和2016/2017两季小麦主要生育期群体数量以及增加两季拔节期、抽穗期SPAD值和LAI值。3个生物炭处理对提高2011/2012土壤SOC含量和2011—2014年土壤TN含量无明显效果,中、高量生物炭处理可增加2012—2017年土壤SOC含量32.6%~215.6%和2014—2017年土壤TN含量20.0%~36.8%。研究表明,合理施用生物炭能够促进黄淮区潮土农田冬小麦籽粒产量和氮肥偏生产力以及促进小麦生长和地上部氮素吸收,进而起到提高土壤肥力和增加土壤固碳的作用。
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| 关 键 词: | 氮;生物炭;潮土;冬小麦;籽粒产量 |
| 收稿时间: | 2018-02-28 |
| 修稿时间: | 2018-06-05 |
Long-term application of biochar in fluvio-aquatic soil improving wheat yield and nitrogen utilization |
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| Xie Yingxin,Liu Yujuan,Zhang Wein,Dong Cheng,Zhao Xu,He Dexian,Wang Chenyang,Guo Tiancai and Wang Shenqiang. Long-term application of biochar in fluvio-aquatic soil improving wheat yield and nitrogen utilization[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(14): 115-123 |
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| Authors: | Xie Yingxin Liu Yujuan Zhang Wein Dong Cheng Zhao Xu He Dexian Wang Chenyang Guo Tiancai Wang Shenqiang |
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| Affiliation: | 1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,2. State Key Laboratory of Soil and Sustainable Agriculture/Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008, China,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China;,1.College of Agronomy, Henan Agricultural University/National Engineering Research Center for Wheat/Collaborative Innovation Center of Henan Grain Crops, Zhengzhou 450046, China; and 2. State Key Laboratory of Soil and Sustainable Agriculture/Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008, China |
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| Abstract: | |
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| Keywords: | nitrogen biochar fluvio-aquatic soil winter wheat grain yield |
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