Paclobutrazol Enhanced Stem Lodging Resistance of Direct-Seeded Rice by Affecting Basal Internode Development

Overview

Journal Plants (Basel)

Date 2024 Aug 29

PMID 39204725

Authors

Weiyang Liu

Jiehao Cui

Cheng Ran

Yuchen Zhang

Jianuo Liang

Xiwen Shao

Qiang Zhang

Yanqiu Geng

Liying Guo

Affiliations

Soon will be listed here.

Abstract

The objectives of this study were to explore the mechanism of stem mechanical strength in direct-seeded rice (DSR) as affected by paclobutrazol, especially its related endogenous hormone and cell wall component changes in culm tissue and response to the application of paclobutrazol. Field experiments were conducted in Changchun County, Jilin Province, China, by using two japonica rice varieties, Jiyujing and Jijing305, with soaking seeds in paclobutrazol at concentrations of (0 mg L, S0; 50 mg L; S1; 100 mg L; S2; 150 mg L, S3; 200 mg L, S4) in 2021 and 2022. The results suggest that the application of paclobutrazol increased the grain yield and reduced the lodging rate of DSR. Compared with the S0 treatments, soaking the seeds in paclobutrazol treatments rapidly shortened the length of the basal internode by decreasing the endogenous indole acetic acid (IAA) and gibberellin A3 (GA) contents in culm tissue. The larger breaking strength (M) was attributed to a higher section modulus (SM) and bending stress (BS). The higher mechanical tissue thickness in culm tissue under paclobutrazol treatments, which was raised by higher endogenous zeatin and zeatin riboside (Z+ZR) content in culm tissue, increased the culm diameter, culm wall thickness, and section modulus (SM) of the internode. Compared with the S0 treatments, soaking the seeds in paclobutrazol treatments increased the cellulose content, lignin content, activities of lignin-related enzymes, and expression of key genes in lignin biosynthesis, as well as resulted in a higher bending stress (BS) to enhance the culm breaking strength (M).

Citing Articles

Effects of nitrogen fertilizer application rate on lodging resistance for rice (Oryza sativa L.) stem.

Lu Y, Cui J, Bao S, Liu W, Geng Y, Liang X Sci Rep. 2025; 15(1):2149.

PMID: 39820090 PMC: 11739702. DOI: 10.1038/s41598-025-85641-8.

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