Mitigation Effects of Proline and Glycine Betaine to Green Onion Under Flooding Stress

Global climate change is increasing its negative impact on agricultural production day by day. Abiotic stress factors brought about by climate change cause significant losses in yield, quality, and plant growth. In addition to increasing the effects of drought and salinity with global warming, chang...

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Bibliographic Details
Published in:Gesunde Pflanzen 2023-10, Vol.75 (5), p.1639-1652
Main Authors: Seymen, Musa, Şahin, Abdullah Şamil, Tanrıverdi, Ömer Burak
Format: Article
Language:English
Subjects:
Agricultural production
Agriculture
Biomedical and Life Sciences
Climate change
Drought
Flooding
Global climate
Global warming
Glycine
Glycine betaine
Hydrogen peroxide
Irrigation
Leaves
Life Sciences
Onions
Original Article
Originalbeitrag
Parameters
Peroxidase
Physiological effects
Plant growth
Plant Pathology
Plants
Plants (botany)
Proline
Stress
Sustainable agriculture
Weight loss
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Summary:Global climate change is increasing its negative impact on agricultural production day by day. Abiotic stress factors brought about by climate change cause significant losses in yield, quality, and plant growth. In addition to increasing the effects of drought and salinity with global warming, changes in precipitation regimes and flooding stresses have recently negatively affected agricultural areas. To avoid the negative effects of stress, proline (Pro) and glycine betaine (GB) applications are the subject of research as important applications. This study, it was aimed to determine the effects of Pro and GB doses on growth, physiological and biochemical parameters applied under conditions artificially created ten-day flooding stress in green onions. One full irrigation subject (I 100 ) and one stress subject (flooding), were created in the experiment. On the other hand, three different Pro doses (Pro 1 –1 μM, Pro 2 –2 μM, and Pro 3 –3 μM) and three different GB doses (GB 50 –50 μM, GB 100 –100 μM, and GB 150 –150 μM) administration and control were the other subjects of the study. Pro and GB applications were applied to the leaves as a spray twice. As a result of the study, flooding stress revealed 28% loss in leaf number, 43% plant fresh weight, and 32% plant dry weight loss. Malondialdehyde (MDA), hydrogen peroxidase (H 2 O 2 ), and leaf temperature (T leaf) flooding stress conditions were found to be the parameters that provide the most significant increase and define the stress. It was observed that Pro 2 , Pro 3, and GB 50 applications supported plant growth under full irrigation conditions. Besides, it was revealed that Pro 3 and GB 50 doses reduced the negative effects of flooding stress. It has been concluded that appropriate doses of Pro and GB applications in terms of sustainable agriculture are important applications in reducing the negative effects of stress.
ISSN:0367-4223
1439-0345
DOI:10.1007/s10343-023-00854-z