植物促生根际细菌作为改善水培系统中球茎甘蓝（变种）植物生长的工具。

Plant Growth-Promoting Rhizobacteria as Tools to Improve the Growth of Kohlrabi ( var. ) Plants in an Aquaponics System.

作者信息

Piñero María Carmen, Collado-González Jacinta, Otálora Ginés, López-Marín Josefa, Del Amor Francisco M

机构信息

Department of Crop Production and Agri-Technology, Instituto Murciano de Investigación y Desarrollo Agrario y Medioambiental (IMIDA), C/Mayor s/n, 30150 Murcia, Spain.

出版信息

Plants (Basel). 2024 Feb 22;13(5):595. doi: 10.3390/plants13050595.

DOI:10.3390/plants13050595

PMID:38475442

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10934560/

Abstract

The use of nitrogen as a fertilizer can be highly risky when used excessively, and it is therefore necessary to find novel techniques to reduce its use. Aquaponics reduces the use of synthetic fertilizers and water, and the leaching of nitrate into the environment. One way to avoid problems due to a reduction in nitrogen availability could be the use of plant growth promoting rhizobacteria (PGPR). This study examines the effect of PGPR on kohlrabi plants grown with a traditional nutrient solution (100S), in combination with "fish water" (50F/50D), or with a supplement of synthetic fertilizers (50F/50D + S). Two formulations were used: T1 ( and ) and T2 (). Irrigation with 50F/50D caused a reduction in several of the measured parameters. The combined application of 50F/50D with T1 attenuated the negative effects. T2 did not present significant effects on the parameters measured. The results obtained with 50F/50D + S hardly showed differences with the 100S. Thus, by irrigating with 50F/50D + S, we were able to maintain the yields while reducing fertilizer use and water. The combined use of T1 and 50F/50D was also positive; however, it would be necessary to continue adjusting the amount of nitrate supplied to maintain production.

摘要

过度使用氮肥风险极高，因此有必要寻找新的技术来减少氮肥使用量。水培养殖减少了合成肥料和水的使用，以及硝酸盐向环境中的渗漏。避免因氮素供应减少而产生问题的一种方法可能是使用植物促生根际细菌（PGPR）。本研究考察了PGPR对用传统营养液（100S）、“鱼水”（50F/50D）或添加合成肥料（50F/50D + S）种植的球茎甘蓝植株的影响。使用了两种配方：T1（和）和T2（）。用50F/50D灌溉导致几个测量参数降低。50F/50D与T1联合施用减轻了负面影响。T2对所测参数未表现出显著影响。50F/50D + S的结果与100S几乎没有差异。因此，通过用50F/50D + S灌溉，我们能够在减少肥料使用和用水的同时维持产量。T1与50F/50D联合使用也有积极效果；然而，有必要继续调整硝酸盐供应量以维持产量。

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植物促生根际细菌作为改善水培系统中球茎甘蓝（变种）植物生长的工具。

Plant Growth-Promoting Rhizobacteria as Tools to Improve the Growth of Kohlrabi ( var. ) Plants in an Aquaponics System.

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