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Plantarray生理表型研究系統(tǒng)助力研究植物空氣互作對水分的影響

瀏覽次數(shù):951 發(fā)布日期:2021-8-30  來源:本站 僅供參考,謝絕轉載,否則責任自負

科學家利用Plantarray生理表型研究系統(tǒng)發(fā)表植物空氣互作文章

 

來自以色列的科學家利用Plantarray高通量植物生理表型平臺和植物逆境生物學生理研究平臺發(fā)表了題為Wild Wheat Introgression Promotes Temporal Water fluxes Dynamics under Terminal Drought Stress through Plant-Atmospheric Interrelations的文章。博普特公司是該系統(tǒng)中國區(qū)合作伙伴,負責其系列產(chǎn)品在中國市場的推廣、銷售和售后服務。

 

 

植物所經(jīng)歷的水分脅迫強度取決于土壤水分狀況以及大氣變量,如溫度、輻射和空氣蒸汽壓差(VPD)。盡管對這些土壤和大氣因素在地上部結構中的作用進行了深入研究,但地上部和根系作為一個連續(xù)體的動態(tài)相互作用受基因型變異控制的程度尚不清楚。在這里,我們利用野生二聚體導入系(IL20)對這些相互作用進行了定位,該導入系具有明顯的干旱誘導的莖根比變化,其輪回親本Svevo是干旱敏感的。利用蒸滲重力測量平臺,研究表明,在極端干旱條件下,IL20保持了較高的根系水分流入和氣體交換,從支持了根系生長更大。有趣的是,在較低的VPD下,IL20在根系內流和蒸騰作用方面的優(yōu)勢在日循環(huán)中更早得已體現(xiàn),因此支持較高的蒸騰效率。結構方程模型的應用表明,在水分脅迫下,VPD和輻射對蒸騰速率具有拮抗作用,而根系水分流入對葉片較高的大氣響應具有反饋作用。總之,這些結果表明,由干旱引起的根冠比變化可以在水分和大氣參數(shù)確定的較短時間窗口內提高植物的吸水潛力。

 

Wild Wheat Introgression Promotes Temporal Water fluxes Dynamics under Terminal Drought Stress through Plant-Atmospheric Interrelations



 

Abstract and Figures

The intensity of water stress experienced by plants depends upon soil moisture status as well as atmospheric variables such as temperature, radiation, and air vapour pressure deficit (VPD). Although the role of shoot architecture with these edaphic and atmospheric factors is well-studied, the extent to shoot and root dynamic interactions as a continuum are controlled by genotypic variation is less known. Here, we targeted these interactions using a wild emmer introgression line (IL20) with a distinct drought-induced shift in the shoot-to-root ratio and its drought-sensitive recurrent parent Svevo. Using a gravimetric platform, we show that IL20 maintained higher root water influx and gas exchange under terminal drought, which supported a greater growth. Interestingly, the advantage of IL20 in root influx and transpiration was expressed earlier during the daily diurnal cycle under lower VPD and therefore supported higher transpiration efficiency. Application of structural equation model indicates that under water-stress, VPD and radiation are antagonistic to transpiration rate, whereas the root water influx operates as feedback for the higher atmospheric responsiveness of leaves. Collectively, these results suggest that a drought-induced shift in root-to-shoot ratio can improve plant water uptake potential in a short preferable time window determined by both water and atmospheric parameters.

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