Root-Shoot Signaling Crosstalk Involved in the Shoot Growth Promoting Action of Rhizospheric Humic Acids

Overview

Journal Plant Signal Behav

Specialty Biology

Date 2016 Mar 12

PMID 26966789

Citations 3

Authors

Maite Olaetxea

Veronica Mora

Andres Calderin Garcia

Leandro Azevedo Santos

Roberto Baigorri

Marta Fuentes

Maria Garnica

Ricardo Luis Louro Berbara

Angel Maria Zamarreno

Jose M Garcia-Mina

Affiliations

Soon will be listed here.

Abstract

Numerous studies have shown the ability of humic substances to improve plant development. This action is normally reflected in an enhancement of crop yields and quality. However, the mechanisms responsible for this action of humic substances remain rather unknown. Our studies have shown that the shoot promoting action of sedimentary humic acids is dependent of its ability to increase root hydraulic conductivity through signaling pathways related to ABA, which in turn is affected in roots by humic acids in an IAA-NO dependent way. Furthermore, these studies also indicate that the primary action of humic acids in roots might also be physical, resulting from a transient mild stress caused by humic acids associated with a fouling-cleaning cycle of wall cell pores. Finally the role of alternative signal molecules, such as ROS, and corresponding signaling pathways are also discussed and modeled in the context of the above-mentioned framework.

Citing Articles

Biomass composite with exogenous organic acid addition supports the growth of sweet sorghum ( '') by reducing salinity and increasing nutrient levels in coastal saline-alkaline soil.

Yang R, Sun Z, Liu X, Long X, Gao L, Shen Y Front Plant Sci. 2023; 14:1163195.

PMID: 37056508 PMC: 10086266. DOI: 10.3389/fpls.2023.1163195.

Root ABA and H-ATPase are key players in the root and shoot growth-promoting action of humic acids.

Olaetxea M, Mora V, Bacaicoa E, Baigorri R, Garnica M, Fuentes M Plant Direct. 2019; 3(10):e00175.

PMID: 31624800 PMC: 6785783. DOI: 10.1002/pld3.175.

Humic Substances: Determining Potential Molecular Regulatory Processes in Plants.

Shah Z, Rehman H, Akhtar T, Alsamadany H, Hamooh B, Mujtaba T Front Plant Sci. 2018; 9:263.

PMID: 29593751 PMC: 5861677. DOI: 10.3389/fpls.2018.00263.

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