Dynamics in plant roots and shoots minimize stress, save energy and maintain water and nutrient uptake

被引:44
作者
Arsova, Borjana [1 ]
Foster, Kylie J. [2 ]
Shelden, Megan C. [3 ]
Bramley, Helen [4 ,5 ]
Watt, Michelle [1 ]
机构
[1] Forschungszentrum Julich, Inst Bits & Geosci 2, Root Dynam Grp, Plant Sci, D-52428 Julich, Germany
[2] Univ South Australia, Phen & Bioinformat Res Ctr, Mawson Lakes, SA 5095, Australia
[3] Univ Adelaide, Australian Res Council Arc Ctr Excellence Plant E, Sch Agr Food & Wine, Urrbrae, SA 5064, Australia
[4] Univ Sydney, Sch Life & Environm Sci, Plant Breeding Inst, Narrabri, NSW 2390, Australia
[5] Univ Sydney, Sydney Inst Agr, Narrabri, NSW 2390, Australia
来源
NEW PHYTOLOGIST | 2020年 / 225卷 / 03期
关键词
agriculture; cell-specific; drought stress; nitrogen; plasticity; root architecture; salinity tolerance; transporters; MEMBRANE H+-ATPASE; RESPIRATION RATES; AQUAPORIN GENE; SALT TOLERANCE; DURUM-WHEAT; NITRATE; GROWTH; CHL1; RHIZOSPHERE; TRANSPORT;
D O I
10.1111/nph.15955
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
Plants are inherently dynamic. Dynamics minimize stress while enabling plants to flexibly acquire resources. Three examples are presented for plants tolerating saline soil: transport of sodium chloride (NaCl), water and macronutrients is nonuniform along a branched root; water and NaCl redistribute between shoot and soil at night-time; and ATP for salt exclusion is much lower in thinner branch roots than main roots, quantified using a biophysical model and geometry from anatomy. Noninvasive phenotyping and precision agriculture technologies can be used together to harness plant dynamics, but analytical methods are needed. A plant advancing in time through a soil and atmosphere space is proposed as a framework for dynamic data and their relationship to crop improvement.
引用
收藏
页码:1111 / 1119
页数:9
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