Bioenergy sorghum stems respond to mechanical stimulation with tissue-specific modifications in hormone homeostasis and anatomical traits
Qing Li, Omid Zargar, Sungkyu Park, Matt Pharr, Anastasia Muliana, Tesfamichael H. Kebrom, Scott A. Finlayson

TL;DR
This study explores how mechanical stimulation affects hormone levels and stem structure in bioenergy sorghum, potentially improving lodging resistance.
Contribution
The study reveals tissue-specific hormonal and anatomical responses to mechanical stimulation in sorghum stems.
Findings
Mechanical stimulation reduced GA1 in the zone of division and JA in the pulvinus.
Continuous stimulation decreased plant height and internode length by reducing cell elongation.
Stimulation increased vascular bundle density and rind thickness, enhancing lignification.
Abstract
Sorghum [Sorghum bicolor (L.) Moench] is a promising and highly productive bioenergy crop but remains susceptible to stem lodging, typically caused by severe weather-related mechanical forces like wind and rain. However, when exposed to less severe mechanical stimulation, plants may exhibit alterations in their growth and development through a process known as thigmomorphogenesis that may enhance their ability to withstand stronger forces. Accordingly, understanding mechanisms regulating thigmomorphogenesis may facilitate the development of lodging-resistant sorghum varieties. In this study, the hormonal responses of four stem tissues, including pulvinus, white band, zone of division, and zone of maturation, were investigated at multiple time points following moderate mechanical stimulation, revealing distinct hormonal profiles and tissue-specific response patterns across these tissues.…
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Taxonomy
TopicsCrop Yield and Soil Fertility · Tree Root and Stability Studies · Plant Surface Properties and Treatments
