Nitrogen Fertilizer Programs for Organic Flue-Cured Tobacco (Nicotiana Tabacum L.) Seedling Production

D. Suchoff, M. Vann, M. McGinnis, J. H. Mason, L. Fisher
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引用次数: 0

Abstract

Certified organic flue-cured tobacco (Nicotiana tabacum L.) production has experienced significant expansion in the United States. Despite this expansion, there is very little information available that outlines organic nitrogen (N) programs for seedling production. To develop grower recommendations, research was conducted to evaluate the effects of a Peruvian seabird guano (SG), sodium nitrate (SN), or a combination of the two (SN_SG) in a float system on float water chemistry and seedling vigor. A conventional treatment (Conv; SQM Ultrasol Premium) was included for comparison. A greenhouse study was conducted twice between June 2016 and January 2017. Nitrogen fertilizer treatments were applied to tobacco float system water twice during the germination and growth of tobacco transplants. Float system water was collected every 5 days and analyzed for N forms, pH, dissolved oxygen, and bicarbonate. At the end of each experiment, transplant dimensions were measured and percent of usable plants collected. Float water bicarbonate concentration was <1 meq L−1 in treatments absent of SG for the duration of the study, but were in excess of 12 meq L−1 25 days after seeding (DAS) when SG was the exclusive N source. Despite high ammonium and bicarbonate concentrations with SG, neither factor negatively impacted seedling growth. Both SG and SN_SG produced as many usable plants as Conv; however, seedling height and diameter tended to be lower in SG compared to the other two treatments. No usable transplants were produced when SN was the sole fertility source, likely because of lack of nutrients other than N. Furthermore, many of the organic fertility products require biological activity to mineralize organic N to a plant-available form. This activity can have potentially detrimental outcomes on float system solution pH, dissolved oxygen, and bicarbonate levels.
有机烤烟氮肥方案研究苗生产
经过认证的有机烤烟(Nicotiana tabacum L.)的生产在美国经历了显著的扩张。尽管有这种扩大,但很少有信息概述有机氮(N)计划的苗木生产。为了制定种植者建议,研究了秘鲁海鸟鸟粪(SG)、硝酸钠(SN)或两者组合(SN_SG)在浮子系统中对浮子水化学和幼苗活力的影响。常规治疗(Conv;纳入SQM Ultrasol Premium进行比较。2016年6月至2017年1月期间进行了两次温室研究。在移栽植株萌发和生长过程中,对烟草浮水进行两次氮肥处理。浮子系统的水每5天收集一次,分析N形态、pH值、溶解氧和碳酸氢盐。在每次试验结束时,测量移栽尺寸并收集可用植株的百分比。在研究期间,在没有SG的处理中,浮水碳酸氢盐浓度<1 meq L−1,但在播种后(DAS),当SG是唯一的氮源时,浮水碳酸氢盐浓度超过12 meq L−1。尽管SG的铵和碳酸氢盐浓度较高,但这两种因素对幼苗生长都没有负面影响。SG和SN_SG生产的可用植物与Conv一样多;但SG处理的苗高和苗径均低于其他2个处理。当氮是唯一的肥力来源时,没有产生可用的移栽,可能是因为缺乏除氮以外的营养物质。此外,许多有机肥力产品需要生物活性才能将有机氮矿化为植物可利用的形式。这种活性可能会对浮子系统溶液的pH值、溶解氧和碳酸氢盐水平产生潜在的有害影响。
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来源期刊
自引率
0.00%
发文量
3722
期刊介绍: Chinese Tobacco Science is an academic scientific journal (bimonthly) under the supervision of the Ministry of Agriculture and Rural Affairs of the People's Republic of China, and sponsored by the Tobacco Research Institute of the Chinese Academy of Agricultural Sciences and the Qingzhou Tobacco Research Institute of China National Tobacco Corporation. It was founded in 1979 and is publicly distributed nationwide. The journal mainly publishes academic papers on scientific research results, new production technologies, and modern management in my country's tobacco science research and tobacco production technology. In addition, it also publishes forward-looking review articles in the field of tobacco research. There are columns such as tobacco genetics and breeding, cultivation technology, modulation and processing, physiology and biochemistry, plant protection, review or monograph, quality chemistry, etc.
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