Root morphology, growth, and physiology in Begonia (Malus × micromalus) grown in copper hydroxide containers

IF 1 4区 农林科学 Q3 AGRONOMY
Yumei Zhou, Ming Yang, Jifeng Deng, Z. Tai, D. Luan, Siyi Zhu, Jingjing Jia, Zhuo Yang, Yuxin Luo, Wen Wu
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引用次数: 1

Abstract

Abstract A major concern with container seedlings is root circling and deformation that will affect post-planting performance and stability. To improve root quality, 3-year-old Begonia (Malus × micromalus) plants were grown in the containers treated on interior surfaces with different concentrations of copper hydroxide (Cu(OH)2) (0, 40, 80, 120, 160, and 200 g L−1) for 1 year. Compared with the standard container control (SC) and carrier asphalt container control (AC), the number of terminal lateral roots and lateral root volume were increased by 21% and 13% at 80 and 120 g L−1 Cu(OH)2 but decreased by 8% and 10% at 200 g L−1 Cu(OH)2. Only 80 g L−1 Cu(OH)2 increased the plant height and root weight, while other concentrations of Cu(OH)2 resulted in the declines. Phosphorus and potassium were improved with lower concentrations of Cu(OH)2 but decreased with 160 and 200 g L−1 Cu(OH)2. No significant difference in the concentrations of soluble protein and sugars in leaves was observed between Cu(OH)2 treatments and the controls. AC decreased nitrogen concentration in leaves by 12% over the SC across the whole growing season and increased taproot diameter by 17%. Our results indicate that 80 g L−1 Cu(OH)2 was the optimum concentration for root pruning and the maintenance of physiological function. Disadvantages in growth and physiology gradually showed up with increased concentrations.
氢氧化铜容器中生长的秋海棠(Malus×micromalus)的根系形态、生长和生理
摘要对容器苗来说,最主要的问题是根系的缠绕和变形,这将影响种植后的性能和稳定性。为了提高根系质量,将3年生海棠(Malus × micromalus)植株置于不同浓度的氢氧化铜(Cu(OH)2)(0、40、80、120、160和200 g L−1)处理过的容器中生长1年。与标准容器对照(SC)和载体沥青容器对照(AC)相比,在80和120 g L−1 Cu(OH)2条件下,侧根数量和侧根体积分别增加了21%和13%,而在200 g L−1 Cu(OH)2条件下,侧根体积分别减少了8%和10%。只有80 g L−1 Cu(OH)2处理能提高植株的株高和根重,而其他浓度的Cu(OH)2处理能降低植株的株高和根重。当Cu(OH)2浓度较低时,磷和钾含量提高,但当Cu(OH)2浓度为160和200 g L−1时,磷和钾含量降低。Cu(OH)2处理与对照叶片中可溶性蛋白和糖类含量无显著差异。在整个生长季中,AC使叶片氮浓度比SC降低了12%,使主根直径增加了17%。结果表明,80 g L−1 Cu(OH)2是根修剪和生理功能维持的最佳浓度。随着浓度的增加,生长和生理上的不利因素逐渐显现。
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来源期刊
CiteScore
1.90
自引率
8.30%
发文量
91
审稿时长
1 months
期刊介绍: Published since 1957, the Canadian Journal of Plant Science is a bimonthly journal that contains new research on all aspects of plant science relevant to continental climate agriculture, including plant production and management (grain, forage, industrial, and alternative crops), horticulture (fruit, vegetable, ornamental, greenhouse, and alternative crops), and pest management (entomology, plant pathology, and weed science). Cross-disciplinary research in the application of technology, plant breeding, genetics, physiology, biotechnology, microbiology, soil management, economics, meteorology, post-harvest biology, and plant production systems is also published. Research that makes a significant contribution to the advancement of knowledge of crop, horticulture, and weed sciences (e.g., drought or stress resistance), but not directly applicable to the environmental regions of Canadian agriculture, may also be considered. The Journal also publishes reviews, letters to the editor, the abstracts of technical papers presented at the meetings of the sponsoring societies, and occasionally conference proceedings.
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