As sessile organisms, it is crucial to sense their surroundings and mount appropriate responses to different environment. Shade avoidance syndrome (SAS) is a typical phenotypic plasticity, which is evolved to reach for more light upon exposure to shade (Casal, 2012). The core molecular mechanism of SAS is light signaling transduction. SAS affects many agronomic traits such as reduced grain yield or plant biomass (Tang and Liesche, 2017; Wille et al., 2017). So the understanding on SAS could contribute to basic research and agriculture application.
In past years, enormous progress has been made in molecular link from shade light perception to shade phenotypic architecture. Chinese researchers have done a lot of work in this field.
Arabidopsis FAR-RED ELONGATED HYPOCOTYL3 (FHY3) and FAR-RED IMPAIRED RESPONSE1 (FAR1), two homologous proteins, which have been reported to regulate the balance between growth and defense responses under shade condition (Liu et al., 2019), were shown to regulate the progression of leaf senescence in this Research Topic (Xie et al.). Xie et al. identified FHY3, PHYTOCHROME-INTERACTING FACTOR 5 (PIF5), and ETHYLENE-INSENSITIVE3 (EIN3) complex and explained how this complex regulates the expression of ORE1 (NAC transcription factor). This study emphasized that the light and ethylene signaling coordinately regulate leaf senescence.
Despite our molecular understanding of shade-induced phenotypes, little is known about how this program is integrated with other environmental factors, such as nitrogen. Yang et al. found that both hypocotyl elongation and leaf expansion promoted by the shade treatment were reduced by the high-N treatment; high-N-induced leaf narrowing and thickening were reduced by the shade treatment, and they identified SHADE AVOIDANCE 3 (SAV3) as a master switch responsive to multiple environmental stimuli.
Soybean, as one of the economically important crops, displays obvious SAS. Mu et al. generated GmBIC overexpression lines and Gmbic1a1b2a2b quadruple mutant. The modified low blue light (LBL)-induced phenotypes of these genetic materials demonstrated the function of GmBICs (BIC:Blue-light Inhibitors of Cryptochromes) in SAS. This study provided essential genetic resources for breeding of shade-tolerant soybean cultivars in future.
One Mini Review in this Research Topic is focused on the role of phytochrome A (phyA) to hint the difference between shade avoidance and shade tolerance plants (Xu et al.). Although it is a mini review, it summarized almost all recently progress on phyA and its downstream components. Modifying the negative regulator of SAS may be a shortcut to obtain high-yield shade tolerance crops.
One opinion article is talking about parental shading on subsequent seed dormancy and germination control. This is a unique angle to consider the effects of exposure of the parental plants to shade on subsequent seed. It will enlarge our horizon on SAS.
With the increasing of population and a predicted decrease in total arable land, denser planting is required to supply the increasing food demand. SAS is one of the limiting issues for denser planting. So we hope more scientists care about this field and join in us.
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All authors listed have made a substantial, direct, and intellectual contribution to the work and approved it for publication.
Acknowledgments
We are grateful to all authors, journal editors, and peer reviewers who contributed to this Research Topic.
Conflict of interest
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References
1
CasalJ. J. (2012). Shade avoidance. Arabidopsis Book10, e0157. 10.1199/tab.0157
2
LiuY.WeiH.MaM.LiQ.KongD.SunJ.et al. (2019). Arabidopsis FHY3 and FAR1 regulate the balance between growth and defense responses under shade conditions. Plant Cell31, 2089–2106. 10.1105/tpc.18.00991
3
TangY.-J.LiescheJ. (2017). The molecular mechanism of shade avoidance in crops – how data from arabidopsis can help to identify targets for increasing yield and biomass production. J. Integ. Agric.16, 1244–1255. 10.1016/S2095-3119(16)61434-X
4
WilleW.PipperC. B.RosenqvistE.AndersenS. B.WeinerJ. (2017). Reducing shade avoidance responses in a cereal crop. AoB Plants9, plx039. 10.1093/aobpla/plx039
Summary
Keywords
shade avoidance, leaf senescence, nitrogen, soybean, phytochrome A, parental shading
Citation
Li L and Wang H (2022) Editorial: Shade avoidance syndrome in plants. Front. Plant Sci. 13:990982. doi: 10.3389/fpls.2022.990982
Received
11 July 2022
Accepted
18 July 2022
Published
11 August 2022
Volume
13 - 2022
Edited and reviewed by
Mikihisa Umehara, Toyo University, Japan
Updates
Copyright
© 2022 Li and Wang.
This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Lin Li linli@fudan.edu.cnHaiyang Wang whyang@scau.edu.cn
This article was submitted to Plant Physiology, a section of the journal Frontiers in Plant Science
Disclaimer
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.