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פותח על ידי קלירמאש פתרונות בע"מ -
Reduction of visible chilling injury in sweet basil (Ocimum basilicum L.) using artificial illumination
Year:
2017
Authors :
ברנשטיין, נירית
;
.
דודאי, נתיב
;
.
חיימוביץ', דוד
;
.
נהרן, עומר
;
.
רוד, רונית
;
.
שכטר, אלונה
;
.
Volume :
6
Co-Authors:

Dudai, N., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Naharan, O., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Bernstein, N., Institute of Soils, Water and Environmental Science, Agriculture Research Organization, Volcani Center, P.O. Box 173, Bet Dagan 5025001, Israel
Shachter, A., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Rud, R., Institute of Agriculture Engineering, Agriculture Research Organization, Volcani Center, P.O. Box 173, Bet Dagan 5025001, Israel
Chaimovitsh, D., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
 

Facilitators :
From page:
15
To page:
21
(
Total pages:
7
)
Abstract:
The production of sweet basil (Ocimum basilicum L.) in Israel during the winter exposes the crop to temperatures below 12. C, which promote visible chilling injuries, reducing yields by up to 85%. In 2011, the addition of illumination was examined as an agro-technique to mitigate visible chilling injuries under a semi-commercial operation. Lamps were maintained at 30-100. cm above plants' tops, and agronomical, morphological and physiological parameters were evaluated. Artificial illumination increased the mean and minimum temperatures between 7.1 and 1.1. C, and 2.4 and 2.2. C compared to out-door or non-illuminated tunnels, respectively. Leaf temperatures were increased by 3-5. C. Illuminated plants yielded more (P <. 0.05) than non-illuminated plants, regardless of lamp height. Highest (P <. 0.05) yields were recorded when lamps were situated 40-90. cm above plants' tops. The effect of illumination on yield was related to increased leaf area and internodes length. Morning dew was reduced by 85% in plants subjected to artificial illumination; and visible chilling injuries were alleviated by 80-85%, regardless of lamp height. The results indicate that increased leaf and air temperature is likely the fundamental chilling injury mitigating factor. Interestingly, leakage of soluble and accumulation of antioxidant, phenols and rosmarinic acid was similar in illuminated and non-illuminated plants. This discrepancy between the horticultural and the physiological parameters should be studied further, as artificial illumination might have additional mechanisms affecting chilling injury other than direct temperature increase. © 2016 Elsevier GmbH.
Note:
Related Files :
Artificial illumination
CHILLING INJURIES
cold stress
light
Ocimum basilicum
Sweet basil
עוד תגיות
תוכן קשור
More details
DOI :
10.1016/j.jarmap.2016.12.002
Article number:
0
Affiliations:
Database:
סקופוס
Publication Type:
מאמר
;
.
Language:
אנגלית
Editors' remarks:
ID:
24439
Last updated date:
02/03/2022 17:27
Creation date:
17/04/2018 00:07
Scientific Publication
Reduction of visible chilling injury in sweet basil (Ocimum basilicum L.) using artificial illumination
6

Dudai, N., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Naharan, O., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Bernstein, N., Institute of Soils, Water and Environmental Science, Agriculture Research Organization, Volcani Center, P.O. Box 173, Bet Dagan 5025001, Israel
Shachter, A., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
Rud, R., Institute of Agriculture Engineering, Agriculture Research Organization, Volcani Center, P.O. Box 173, Bet Dagan 5025001, Israel
Chaimovitsh, D., The Unit of Medicinal and Aromatic Plants, Agriculture Research Organization, Newe Yaa'r Research Center, P.O. Box 1021, Ramat Yishay 3009500, Israel
 

Reduction of visible chilling injury in sweet basil (Ocimum basilicum L.) using artificial illumination
The production of sweet basil (Ocimum basilicum L.) in Israel during the winter exposes the crop to temperatures below 12. C, which promote visible chilling injuries, reducing yields by up to 85%. In 2011, the addition of illumination was examined as an agro-technique to mitigate visible chilling injuries under a semi-commercial operation. Lamps were maintained at 30-100. cm above plants' tops, and agronomical, morphological and physiological parameters were evaluated. Artificial illumination increased the mean and minimum temperatures between 7.1 and 1.1. C, and 2.4 and 2.2. C compared to out-door or non-illuminated tunnels, respectively. Leaf temperatures were increased by 3-5. C. Illuminated plants yielded more (P <. 0.05) than non-illuminated plants, regardless of lamp height. Highest (P <. 0.05) yields were recorded when lamps were situated 40-90. cm above plants' tops. The effect of illumination on yield was related to increased leaf area and internodes length. Morning dew was reduced by 85% in plants subjected to artificial illumination; and visible chilling injuries were alleviated by 80-85%, regardless of lamp height. The results indicate that increased leaf and air temperature is likely the fundamental chilling injury mitigating factor. Interestingly, leakage of soluble and accumulation of antioxidant, phenols and rosmarinic acid was similar in illuminated and non-illuminated plants. This discrepancy between the horticultural and the physiological parameters should be studied further, as artificial illumination might have additional mechanisms affecting chilling injury other than direct temperature increase. © 2016 Elsevier GmbH.
Scientific Publication
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