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草业学报 ›› 2019, Vol. 28 ›› Issue (10): 33-43.DOI: 10.11686/cyxb2018652

• 研究论文 • 上一篇    下一篇

甜高粱、高丹草和拉巴豆对难溶性磷的活化与吸收

王亚麒, 袁玲*   

  1. 西南大学资源环境学院,重庆 400715
  • 收稿日期:2018-09-27 修回日期:2019-01-08 出版日期:2019-10-20 发布日期:2019-10-20
  • 通讯作者: E-mail: lingyuannh@aliyun.com
  • 作者简介:王亚麒(1992-),男,宁夏银川人,在读博士。E-mail: 418626455@qq.com
  • 基金资助:
    贵州烟草公司遵义市公司科技项目(201503)资助

Activation of insoluble phosphorus and its absorption by Sorghum dochna, Sorghum hybrid Sudan grass, and Dolichos lablab

WANG Ya-qi, YUAN Ling*   

  1. College of Resources and Environment, Southwest University, Chongqing 400715, China
  • Received:2018-09-27 Revised:2019-01-08 Online:2019-10-20 Published:2019-10-20
  • Contact: E-mail: lingyuannh@aliyun.com

摘要: 磷肥施入土壤后易被土壤吸附固定,其生物有效性降低,通过作物种植制度提高磷肥的生物有效性极其重要。为探索不同牧草对难溶性磷的活化吸收能力,试验以甜高粱、高丹草和拉巴豆为材料,采用营养液栽培的方式,研究了不同水平的水溶性磷(SP、1/4SP、1/8SP)和难溶性磷(IP)对供试牧草生长的影响,以及牧草的吸磷解磷特征。结果表明,牧草对低磷和难溶性磷的响应因牧草种类和磷素水平而异。在低磷(1/4SP、1/8SP和IP)胁迫下,牧草生长受到抑制,根长、茎长和生物量的降幅依次为2.25%~55.92%、3.10%~63.35%和4.06%~57.72%,牧草的养分含量与养分积累量显著低于正常供磷处理(SP)。相反,低磷处理的牧草根冠比和有机酸分泌总量显著提高,与SP相比,IP、1/4SP和1/8SP的总有机酸分泌量分别增加了162.86%~337.14%、84.44%~428.89%和354.55%~1027.27%;甜高粱和高丹草在IP处理溶液中的H2PO4-浓度显著高于对应的1/4SP和1/8SP处理,而拉巴豆在这3个处理中无显著差异,表明牧草根系通过分泌有机酸溶解难溶性磷,使之变为可供作物吸收利用的有效磷,且3种牧草难溶性磷的活化指数存在显著差异,溶磷能力表现为:甜高粱>高丹草>拉巴豆。因此,在种植制度中,安排能高效活化利用难溶性磷的牧草绿肥,能起到减施磷肥,增加效益的作用。

关键词: 水培, 难溶性磷, 甜高粱, 高丹草, 拉巴豆

Abstract: Phosphorus fertilizer is readily absorbed and fixed by soil particles after it is applied to soil, resulting in low bioavailability. Therefore, it is an important goal to improve the bioavailability of phosphorus fertilizer by modifying crop cultivation systems. The aim of this experiment was to compare the ability of different forages to activate and absorb insoluble phosphorus. The forage growth and phosphorus absorption characteristics of Sorghum dochna, Sorghum hybrid Sudan grass, and Dolichos lablab were evaluated under four treatments in hydroponic culture. The four treatments were water-soluble phosphorus (SP, 1/4SP, 1/8SP) and insoluble phosphorus (IP) supplied in the hydroponic growth medium. The responses of forage to insoluble phosphorus and low phosphorus varied among forage species and phosphorus levels. In the IP, 1/4SP, and 1/8SP treatments, the plant roots showed restricted growth, and forage growth was inhibited. The maximum inhibition of root length, stem length, and biomass were 2.25%-55.92%, 3.10%-63.35%, and 4.06%-57.72%, respectively, in the low phosphorus and IP treatments compared with the SP treatment. The nutrient contents and nutrient accumulation in forage were also significantly lower in the IP, 1/4SP, and 1/8SP treatments than in the SP treatment. In contrast, compared with the SP treatment, the IP, 1/4SP, and 1/8SP treatments showed increased root to crown ratios and increased organic acid secretion (maximum increases of 162.9%-337.1%, 84.4%-428.9%, and 354.6%-1027.3% in IP, 1/4SP, and 1/8SP, respectively). The H2PO4- contents in the nutrient solutions of S. dochna and Sorghum hybrid Sudan grass were significantly higher under IP treatment than under the 1/4SP and 1/8SP treatments, but did not differ significantly among the treatments with D. lablab. These results indicated that the roots of the three forage plants can secrete organic acids to dissolve insoluble phosphorus in the nutrient solution and turn it into available phosphorus for crop absorption and utilization. The three species could be ranked, from highest phosphate solubilizing ability under low phosphorus stress to lowest, as follows: S. dochna>Sorghum hybrid Sudan grass>D. lablab. Therefore, adding a forage grass that can efficiently activate and utilize insoluble phosphorus as a green manure in a rotation system can reduce the application of phosphorus fertilizer and promote the soil nutrient cycle.

Key words: hydroponics, insoluble phosphorus, Sorghum dochna, Sorghum hybrid sudan grass, Dolichos lablab