Localisation of nitrate in the rhizosphere of biochar-amended soils

Prendergast-Miller Miranda T.; Duvall Michael; Sohi Saran P. .

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Localisation of nitrate in the rhizosphere of biochar-amended soils

机译：生物炭改良土壤根际硝态氮的定位

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A wheat seedling rhizobox approach was used to differentiate between the rhizosphere and non-rhizosphere (bulk) soil amended with low and high rates of biochar (20 and 60 t ha(-1) vs. control). Nitrate (NO3-) was added as the main nitrogen (N) source because emerging biochar research points to reduced NO3- loss through leaching and gaseous loss as nitrous oxide. The rhizosphere under the different treatments were distinct (P = 0.021), with greater soil-NO3- and biochar-NO3- contents in the high biochar treatment. Biochar addition increased wheat root length ratio (P = 0.053) and lowered root N uptake (P = 0.017), yet plant biomass and N content were similar between treatments. The results indicate localisation of NO3- within the rhizosphere of biochar-amended soils which has implications for No-3(-) loss and improved nitrogen use efficiency

机译：小麦幼苗的根际盒子方法被用来区分根际和非根际（散装）土壤，低和高比例的生物炭（20和60 t ha（-1）与对照相比）进行了修正。加入硝酸盐（NO3-）作为主要的氮（N）源，是因为新兴的生物炭研究指出通过浸出和作为一氧化二氮的气体损失减少了NO3-的损失。在不同生物处理下的根际不同（P = 0.021），在高生物炭处理中土壤NO3-和生物炭NO3-的含量更高。添加生物碳增加了小麦根长比（P = 0.053）并降低了根系氮吸收（P = 0.017），但两次处理之间的植物生物量和氮含量相似。结果表明，NO3-在生物炭改良土壤的根际内定位，这对NO-3（-）的损失和提高的氮利用效率具有影响

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《Soil Biology & Biochemistry》 |2011年第11期|共4页
作者
Prendergast-Miller Miranda T.; Duvall Michael; Sohi Saran P. .;
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正文语种 eng
中图分类农业基础科学;
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nitrogen: 7727-37-9; nitrous oxide: 10024-97-2; nitrate ion: 14797-55-8; leaching; rhizosphere; plant biomass; biochar;

机译：氮：7727-37-9;一氧化二氮：10024-97-2;硝酸根离子：14797-55-8;浸出;根际;植物生物量;生物炭;

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1. Localisation of nitrate in the rhizosphere of biochar-amended soils [J] . Prendergast-Miller Miranda T., Duvall Michael, Sohi Saran P. . Soil Biology & Biochemistry . 2011,第11期

机译：生物炭改良土壤根际硝态氮的定位
2. Localised nitrate and phosphate application enhances root proliferation by wheat and maximises rhizosphere alkalisation in acid subsoil [J] . C. Weligama, C. Tang, P. W. G. Sale, Plant and Soil . 2008,第s1a2期

机译：局部施用硝酸盐和磷酸盐可增强小麦的根系繁殖，并使酸性土壤中的根际碱化最大化
3. Localised nitrate and phosphate application enhances root proliferation by wheat and maximises rhizosphere alkalisation in acid subsoil [J] . Weligama C., Tang C., Sale P. W. G., Plant and Soil . 2008,第1a2期

机译：局部施用硝酸盐和磷酸盐可增强小麦的根系增殖，并使酸性土壤中的根际碱化最大化
4. Unsaturated Hydraulic Properties of Biochar and Biochar-Amended Soils for Landfill Covers [C] . Girish Kumar, Jairo E. Yepes, Laureano R. Hoyos, Pan-American conference on unsaturated soils . 2018

机译：Biochar和Biochar修正的垃圾填埋场土壤的不饱和液压性能
5. Nitrate Removal by Biochar-Amended Woodchip Biofilters [D] . Berger, Alexander William. 2018

机译：Biochar修改的木片生物过滤器硝酸盐拆卸
6. Particulate matter emissions from biochar-amended soils as a potential tradeoff to the negative emission potential [O] . Sujith Ravi, Brenton S. Sharratt, Junran Li, -1

机译：从生物炭改良过的土壤中排放的颗粒物作为对负排放潜力的潜在权衡
7. Enhanced growth of halophyte plants in biochar-amended coastal soil: roles of nutrient availability and rhizosphere microbial modulation [O] . Hao Zheng, Xiao Wang, Lei Chen, 2017

机译：增强生物炭修正的沿海土壤中卤素植物的生长：营养可用性和根际微生物调制的作用

Localisation of nitrate in the rhizosphere of biochar-amended soils

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