植物源烟雾水和卡里金内酯（KAR）可提高罗勒的生理活性、精油产量和生物活性成分。

Plant-derived smoke water and karrikinolide (KAR) enhance physiological activities, essential oil yield and bioactive constituents of L.

作者信息

Singh Sarika, Uddin Moin, Chishti Aman Sobia, Bhat Urooj Hassan, Singh Sangram, Khan M Masroor A

机构信息

Plant Physiology Section, Department of Botany, Aligarh Muslim University, Aligarh, India.

Botany Section, Women's College, Aligarh Muslim University, Aligarh, India.

出版信息

Front Plant Sci. 2023 Apr 20;14:1129130. doi: 10.3389/fpls.2023.1129130. eCollection 2023.

DOI:10.3389/fpls.2023.1129130

PMID:37152142

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10159057/

Abstract

INTRODUCTION

The current study was carried out with the hypothesis that foliar application of plant-derived smoke water (PDSW) and karrikinolide (KAR) might enhanced the plant growth, physiology, and essential oil production of the L. Karrikinolide (KAR) is one of the most important bioactive constituents of PDSW.

METHODS

Mint ( L.) was grown in natural conditions in the net-house. Different concentrations of PDSW (1:125, 1:250, 1:500 and 1:1000 v/v) and KAR (10 M, 10 M, 10 M and 10 M) were used as foliar-spray treatments, using double-distilled water as control. The PDSW was prepared by burning the dried wheat-straw that acted as a growth-promoting substance.

RESULTS

Foliar-spray treatment 1:500 v/v of PDSW and 10 M of KAR proved optimal for enhancing all morphological, physiological, and essential-oil yield related parameters. In comparison with the control, 1:500 v/v of PDSW and 10 M of KAR increased significantly () the height of mint plant (19.23% and 16.47%), fresh weight (19.30% and 17.44%), dry weight (35.36% and 24.75%), leaf area (18.22% and 17.46%), and leaf yield per plant (28.41% and 23.74%). In addition, these treatments also significantly increased the photosynthetic parameters, including chlorophyll fluorescence (12.10% and 11.41%), total chlorophyll content (25.70% and 20.77%), and total carotenoid content (29.77% and 27.18%). Likewise, 1:500 v/v of PDSW and 10 M of KAR significantly increased the essential-oil content (37.09% and 32.25%), essential oil productivity per plant (72.22% and 66.66%), menthol content (29.94% and 25.42%), menthyl acetate content (36.90% and 31.73%), and menthone content (44.38% and 37.75%). Furthermore, the TIC chromatogram of the GCMS analysis revealed the presence of 34 compounds, 12 of which showed major peak areas.

DISCUSSION

Treatment 1: 500 v/v of PDSW proved better than the treatment 10 M of KAR with regard to most of the parameters studied. The outcome of the study can be used as a recommendation tool for agricultural and horticultural crops, since it costs much lesser than that of KAR. In fact, the foliar application of PDSW proved economical and played bioactive role at very low concentrations.

摘要

引言

本研究基于以下假设开展，即叶面喷施植物源烟雾水（PDSW）和卡里金内酯（KAR）可能会促进薄荷的生长、生理机能及精油产量。卡里金内酯（KAR）是植物源烟雾水的最重要生物活性成分之一。

方法

薄荷（唇萼薄荷）在网室自然条件下种植。以双蒸水为对照，采用不同浓度的植物源烟雾水（1:125、1:250、1:500和1:1000 v/v）和卡里金内酯（10⁻⁶ M、10⁻⁷ M、10⁻⁸ M和10⁻⁹ M）进行叶面喷施处理。植物源烟雾水通过燃烧用作促生长物质的干麦秸制备。

结果

叶面喷施1:500 v/v的植物源烟雾水和10⁻⁸ M的卡里金内酯被证明是提高所有与形态、生理及精油产量相关参数的最佳处理。与对照相比，1:500 v/v的植物源烟雾水和10⁻⁸ M的卡里金内酯显著提高（P<0.05）了薄荷植株的高度（分别提高19.23%和16.47%）、鲜重（分别提高19.30%和17.44%）、干重（分别提高35.36%和24.75%）、叶面积（分别提高18.22%和17.46%）以及单株叶片产量（分别提高28.41%和23.74%）。此外，这些处理还显著提高了光合参数，包括叶绿素荧光（分别提高12.10%和11.41%）、总叶绿素含量（分别提高25.70%和20.77%）以及总类胡萝卜素含量（分别提高29.77%和27.18%）。同样，1:500 v/v的植物源烟雾水和10⁻⁸ M的卡里金内酯显著提高了精油含量（分别提高37.09%和32.25%）、单株精油产量（分别提高72.22%和66.66%）、薄荷醇含量（分别提高29.94%和25.42%）、乙酸薄荷酯含量（分别提高36.90%和31.73%）以及薄荷酮含量（分别提高44.38%和37.75%）。此外，气相色谱 - 质谱联用分析的总离子流色谱图显示存在34种化合物，其中12种显示出主要峰面积。

讨论

就大多数研究参数而言，1:500 v/v的植物源烟雾水处理效果优于10⁻⁸ M的卡里金内酯处理。该研究结果可作为农业和园艺作物的推荐工具，因为其成本远低于卡里金内酯。事实上，叶面喷施植物源烟雾水被证明具有经济性，且在极低浓度下发挥生物活性作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f8ec/10159057/9a904306939d/fpls-14-1129130-g001.jpg

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植物源烟雾水和卡里金内酯（KAR）可提高罗勒的生理活性、精油产量和生物活性成分。

Plant-derived smoke water and karrikinolide (KAR) enhance physiological activities, essential oil yield and bioactive constituents of L.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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