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Root-to-shoot signaling positively mediates source-sink relation in late growth stages in diploid and tetraploid wheat

Authors :
Asfa Batool
Shi-Sheng Li
Dong-Xia Yue
Fazal Ullah
Ling Zhao
Zheng-Guo Cheng
Chao Wang
Hai-Xia Duan
Guang-Chao Lv
Zeeshan ul Haq
Khalil Ahmed
Yan-Wen Gui
Li Zhu
Yun-Li Xiao
You-Cai Xiong
Source :
BMC Plant Biology, Vol 24, Iss 1, Pp 1-18 (2024)
Publication Year :
2024
Publisher :
BMC, 2024.

Abstract

Abstract Non-hydraulic root source signaling (nHRS) is a unique positive response to soil drying in the regulation of plant growth and development. However, it is unclear how the nHRS mediates the tradeoff between source and sink at the late growth stages and its adaptive mechanisms in primitive wheat. To address this issue, a root-splitting design was made by inserting solid partition in the middle of the pot culture to induce the occurrence of nHRS using four wheat cultivars (MO1 and MO4, diploid; DM22 and DM31, tetraploid) as materials. Three water treatments were designed as 1) both halves watered (CK), 2) holistic root system watered then droughted (FS), 3) one-half of the root system watered and half droughted (PS). FS and PS were designed to compare the role of the full root system and split root system to induce nHRS. Leaves samples were collected during booting and anthesis to compare the role of nHRS at both growth stages. The data indicated that under PS treatment, ABA concentration was significantly higher than FS and CK, demonstrating the induction of nHRS in split root design and nHRS decreased cytokinin (ZR) levels, particularly in the PS treatment. Soluble sugar and proline accumulation were higher in the anthesis stage as compared to the booting stage. POD activity was higher at anthesis, while CAT was higher at the booting stage. Increased ABA (nHRS) correlated with source-sink relationships and metabolic rate (i.e., leaf) connecting other stress signals. Biomass density showed superior resource acquisition and utilization capabilities in both FS and PS treatment as compared to CK in all plants. Our findings indicate that nHRS-induced alterations in phytohormones and their effect on source-sink relations were allied with the growth stages in primitive wheat.

Details

Language :
English
ISSN :
14712229
Volume :
24
Issue :
1
Database :
Directory of Open Access Journals
Journal :
BMC Plant Biology
Publication Type :
Academic Journal
Accession number :
edsdoj.9694c45ffbad4af28c1f57d175c3951c
Document Type :
article
Full Text :
https://doi.org/10.1186/s12870-024-05046-z