The root barrier to radial oxygen loss: a jack of all trades

Research output: Contribution to conferenceConference abstract for conferenceResearchpeer-review

Standard

The root barrier to radial oxygen loss : a jack of all trades. / Peralta Ogorek, Lucas León; Tong, Shuai; Kjær, Johan Emil; Song, Zhiwei; Bastegaard, Viggo Klint; Zonta, Francesco; Yamauchi, Takaki; de la Cruz Jiménez, Juan; Takahashi, Hirokazu; Nakazono, Mikio; Herzog, Max; Pellegrini, Elisa; Pedersen, Ole.

2022. 14 Abstract from 14th Conference of the International Society for Plant Anaerobiosis, Bad Staffelstein, Bavaria, Germany.

Research output: Contribution to conferenceConference abstract for conferenceResearchpeer-review

Harvard

Peralta Ogorek, LL, Tong, S, Kjær, JE, Song, Z, Bastegaard, VK, Zonta, F, Yamauchi, T, de la Cruz Jiménez, J, Takahashi, H, Nakazono, M, Herzog, M, Pellegrini, E & Pedersen, O 2022, 'The root barrier to radial oxygen loss: a jack of all trades', 14th Conference of the International Society for Plant Anaerobiosis, Bad Staffelstein, Germany, 26/09/2022 - 29/09/2022 pp. 14.

APA

Peralta Ogorek, L. L., Tong, S., Kjær, J. E., Song, Z., Bastegaard, V. K., Zonta, F., Yamauchi, T., de la Cruz Jiménez, J., Takahashi, H., Nakazono, M., Herzog, M., Pellegrini, E., & Pedersen, O. (2022). The root barrier to radial oxygen loss: a jack of all trades. 14. Abstract from 14th Conference of the International Society for Plant Anaerobiosis, Bad Staffelstein, Bavaria, Germany.

Vancouver

Peralta Ogorek LL, Tong S, Kjær JE, Song Z, Bastegaard VK, Zonta F et al. The root barrier to radial oxygen loss: a jack of all trades. 2022. Abstract from 14th Conference of the International Society for Plant Anaerobiosis, Bad Staffelstein, Bavaria, Germany.

Author

Peralta Ogorek, Lucas León ; Tong, Shuai ; Kjær, Johan Emil ; Song, Zhiwei ; Bastegaard, Viggo Klint ; Zonta, Francesco ; Yamauchi, Takaki ; de la Cruz Jiménez, Juan ; Takahashi, Hirokazu ; Nakazono, Mikio ; Herzog, Max ; Pellegrini, Elisa ; Pedersen, Ole. / The root barrier to radial oxygen loss : a jack of all trades. Abstract from 14th Conference of the International Society for Plant Anaerobiosis, Bad Staffelstein, Bavaria, Germany.

Bibtex

@conference{22ddcd3d7b4d4d3f91261521ba154d20,
title = "The root barrier to radial oxygen loss: a jack of all trades",
abstract = "The root barrier to radial oxygen loss (ROL) is known as a root trait of many wetland plants, including rice, where it restricts oxygen loss from the root to the anoxic soil so that oxygen supply to the growing root tip is sustained. The barrier is believed to result from suberization and/or lignification in the cell walls of the root exodermis. We have recently discovered that the ROL barrier also restricts radial water loss and thereby possibly provides resistance to tissue desiccation during conditions of water deficit in the topsoil. Moreover, there is now experimental evidence that the ROL barrier can restrict radial intrusion of soil phytotoxins such as reduced iron and sulphide. Interestingly, the root ROL barrier in the Oryza genus is generally not constitutively present but is formed as a response to environmental signals. These signals include waste products from anaerobic bacteria in reduced soils but now also low soil water potential. The present talk presents highlights from our recent research with emphasis on the multiple functions of a suberized and/or lignified root exodermis and the contrasting environmental signals involved in formation of an inducible barrier. The talk will also analyse other key root traits such as root dimensions, the cortex to stele ratio and cortical aerenchyma and the importance of these for root acclimation to both too much and too little soil water.",
author = "{Peralta Ogorek}, {Lucas Le{\'o}n} and Shuai Tong and Kj{\ae}r, {Johan Emil} and Zhiwei Song and Bastegaard, {Viggo Klint} and Francesco Zonta and Takaki Yamauchi and {de la Cruz Jim{\'e}nez}, Juan and Hirokazu Takahashi and Mikio Nakazono and Max Herzog and Elisa Pellegrini and Ole Pedersen",
year = "2022",
language = "English",
pages = "14",
note = "14th Conference of the International Society for Plant Anaerobiosis, ISPA 2022 ; Conference date: 26-09-2022 Through 29-09-2022",
url = "http://www.is-pa.org",

}

RIS

TY - ABST

T1 - The root barrier to radial oxygen loss

T2 - 14th Conference of the International Society for Plant Anaerobiosis

AU - Peralta Ogorek, Lucas León

AU - Tong, Shuai

AU - Kjær, Johan Emil

AU - Song, Zhiwei

AU - Bastegaard, Viggo Klint

AU - Zonta, Francesco

AU - Yamauchi, Takaki

AU - de la Cruz Jiménez, Juan

AU - Takahashi, Hirokazu

AU - Nakazono, Mikio

AU - Herzog, Max

AU - Pellegrini, Elisa

AU - Pedersen, Ole

N1 - Conference code: 14

PY - 2022

Y1 - 2022

N2 - The root barrier to radial oxygen loss (ROL) is known as a root trait of many wetland plants, including rice, where it restricts oxygen loss from the root to the anoxic soil so that oxygen supply to the growing root tip is sustained. The barrier is believed to result from suberization and/or lignification in the cell walls of the root exodermis. We have recently discovered that the ROL barrier also restricts radial water loss and thereby possibly provides resistance to tissue desiccation during conditions of water deficit in the topsoil. Moreover, there is now experimental evidence that the ROL barrier can restrict radial intrusion of soil phytotoxins such as reduced iron and sulphide. Interestingly, the root ROL barrier in the Oryza genus is generally not constitutively present but is formed as a response to environmental signals. These signals include waste products from anaerobic bacteria in reduced soils but now also low soil water potential. The present talk presents highlights from our recent research with emphasis on the multiple functions of a suberized and/or lignified root exodermis and the contrasting environmental signals involved in formation of an inducible barrier. The talk will also analyse other key root traits such as root dimensions, the cortex to stele ratio and cortical aerenchyma and the importance of these for root acclimation to both too much and too little soil water.

AB - The root barrier to radial oxygen loss (ROL) is known as a root trait of many wetland plants, including rice, where it restricts oxygen loss from the root to the anoxic soil so that oxygen supply to the growing root tip is sustained. The barrier is believed to result from suberization and/or lignification in the cell walls of the root exodermis. We have recently discovered that the ROL barrier also restricts radial water loss and thereby possibly provides resistance to tissue desiccation during conditions of water deficit in the topsoil. Moreover, there is now experimental evidence that the ROL barrier can restrict radial intrusion of soil phytotoxins such as reduced iron and sulphide. Interestingly, the root ROL barrier in the Oryza genus is generally not constitutively present but is formed as a response to environmental signals. These signals include waste products from anaerobic bacteria in reduced soils but now also low soil water potential. The present talk presents highlights from our recent research with emphasis on the multiple functions of a suberized and/or lignified root exodermis and the contrasting environmental signals involved in formation of an inducible barrier. The talk will also analyse other key root traits such as root dimensions, the cortex to stele ratio and cortical aerenchyma and the importance of these for root acclimation to both too much and too little soil water.

M3 - Conference abstract for conference

SP - 14

Y2 - 26 September 2022 through 29 September 2022

ER -

ID: 320163172