Functional roles of root plasticity and its contribution to water uptake and dry matter production of CSSLs with the genetic background of KDML105 under soil moisture fluctuation

Stella Owusu-Nketia; Jonaliza Lanceras Siangliw; Meechai Siangliw; Theerayut Toojinda; Apichart Vanavichit; Noppon Ratsameejanphen; Mathurada Ruangsiri; Sararin Sriwiset; Roel Rodriguez Suralta; Yoshiaki Inukai; Shiro Mitsuya; Mana Kano-Nakata; Dinh Thi Ngoc Nguyen; Kabuki Takuya; Akira Yamauchi

doi:10.1080/1343943X.2018.1477509

Plant Production Science (Jul 2018)

Functional roles of root plasticity and its contribution to water uptake and dry matter production of CSSLs with the genetic background of KDML105 under soil moisture fluctuation

Stella Owusu-Nketia,
Jonaliza Lanceras Siangliw,
Meechai Siangliw,
Theerayut Toojinda,
Apichart Vanavichit,
Noppon Ratsameejanphen,
Mathurada Ruangsiri,
Sararin Sriwiset,
Roel Rodriguez Suralta,
Yoshiaki Inukai,
Shiro Mitsuya,
Mana Kano-Nakata,
Dinh Thi Ngoc Nguyen,
Kabuki Takuya,
Akira Yamauchi

Affiliations

Stella Owusu-Nketia: Nagoya University
Jonaliza Lanceras Siangliw: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Meechai Siangliw: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Theerayut Toojinda: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Apichart Vanavichit: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Noppon Ratsameejanphen: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Mathurada Ruangsiri: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Sararin Sriwiset: Rice Gene Discovery Unit, BIOTEC, NSTDA, Kasetsart University, Kamphangsaen Campus
Roel Rodriguez Suralta: Agronomy, Soils and Plant Physiology Division, Philippine Rice Research Institute (PhilRice)
Yoshiaki Inukai: International Center for Research and Education in Agriculture, Nagoya University
Shiro Mitsuya: Nagoya University
Mana Kano-Nakata: Nagoya University
Dinh Thi Ngoc Nguyen: Nagoya University
Kabuki Takuya: Nagoya University
Akira Yamauchi: Nagoya University

DOI: https://doi.org/10.1080/1343943X.2018.1477509
Journal volume & issue: Vol. 21, no. 3
pp. 266 – 277

Abstract

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Soil moisture fluctuation (SMF) stress due to erratic rainfall in rainfed lowland (RFL) rice ecosystems negatively affect production. Under such condition, root plasticity is one of the key traits that play important roles for plant adaptation. This study aimed to evaluate root plasticity expression and its functional roles in water uptake, dry matter production and yield under SMF using three chromosome segment substitution lines (CSSLs) with major genetic background of KDML105 and a common substituted segment in chromosome 8. The CSSLs showed greater shoot dry matter production than KDML105 under SMF, which was attributed to the maintenance of stomatal conductance resulting in higher grain yield. The root system development based on total root length of the CSSLs were significantly higher than that of KDML105 due to the promoted production of nodal and lateral roots. These results implied that the common substituted segments in chromosome 8 of the 3 CSSLs may be responsible for the expression of their root plasticity under SMF and contributed to the increase in water uptake and consequently dry matter production and yield. These CSSLs could be used as a good source of genetic material for drought resistance breeding programs targeting rainfed lowland condition with fluctuating soil moisture environments and for further genetic studies to elucidate mechanisms underlying root plasticity.

Published in Plant Production Science

ISSN: 1343-943X (Print); 1349-1008 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Agriculture: Plant culture
Website: https://www.tandfonline.com/journals/tpps

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