Sufficient nitrogen promoted high phosphorus tolerance and phosphorus-accumulating capability of Polygonum hydropiper in relation to changes of phytohormones and phenols

Nitrogen (N) application is efficient to enhance phosphorus (P)-phytoextraction efficiency of P-accumulating plants. However, there is little available information on growth, P uptake and physiological changes of P-accumulating plants in high P media with different N application, and that whether th...

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Published in:Chemosphere (Oxford) 2021-09, Vol.278, p.130318-130318, Article 130318
Main Authors: Ye, Daihua, Shen, Qiwei, Guo, Yu, Yu, Haiying, Huang, Huagang, Zhang, Xizhou, Zheng, Zicheng, Wang, Yongdong, Li, Tingxuan
Format: Article
Language:English
Subjects:
abscisic acid
bioaccumulation
biomass
ecotypes
flavonoids
indole acetic acid
leaves
nitrogen
Nitrogen supply
Persicaria hydropiper
Phenol
phosphorus
Phosphorus accumulation
Phytoextraction
Phytohormone
zeatin
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Summary:Nitrogen (N) application is efficient to enhance phosphorus (P)-phytoextraction efficiency of P-accumulating plants. However, there is little available information on growth, P uptake and physiological changes of P-accumulating plants in high P media with different N application, and that whether the improved growth or P uptake is related with changes of phytohormones and phenols. This study investigated growth, P-accumulating capability, phytohormones and phenols of a mining ecotype (ME) and a non-mining ecotype (NME) of Polygonum hydropiper in high P media (400 mg L−1) with sufficient N (SN, 50 mg L−1) and low N (LN, 12.5 mg L−1) supply. SN supply greatly increased tissue biomass, P-accumulating capability of P. hydropiper in high P media, and the ME showed higher P bioaccumulation coefficient, and tissue P accumulation than the NME. The greatest tissue biomass and P accumulation was found at 5 weeks. At 5 weeks, SN supply greatly decreased concentrations of indole-3-acetic acid (IAA), zeatin, abscisic acid (ABA), total phenolic and flavonoid in tissues of P. hydropiper, compared with LN supply. The ME produced lower concentrations of IAA, zeatin, ABA, total phenolic and flavonoid than the NME in leaf and stem in high P media with N supply. Significantly negative correlations were found between IAA, zeatin, ABA, flavonoid concentrations and biomass as well as P accumulation in leaf. Thus, SN supply promoted high P tolerance and P-accumulating capability of the ME in relation to modulating phytohormones and phenols to suitable concentrations, ultimately improving P-phytoextraction ability. •Sufficient N enhanced plant tolerance to high P, especially the ME of P. hydropiper.•Sufficient N increased P-accumulating capability of P. hydropiper in high P media.•The ME showed higher leaf and stem P accumulation than the NME with SN supply.•The ME down-regulated the levels of shoot phytohormones and phenols by SN supply.•The reduced shoot phytohormones and phenols enhanced P-accumulating of the ME.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2021.130318