Differential responses of contrasting low phosphorus tolerant cotton genotypes under low phosphorus and drought stress

Drought is one of the main reasons for low phosphorus (P) solubility and availability. The use of low P tolerant cotton genotypes might be a possible option to grow in drought conditions. This study investigates the tolerance to drought stress in contrasting low P-tolerant cotton genotypes (Jimian16...

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Bibliographic Details
Published in:BMC plant biology 2023-03, Vol.23 (1), p.168-168, Article 168
Main Authors: Iqbal, Asif, Huiping, Gui, Qiang, Dong, Xiangru, Wang, Hengheng, Zhang, Xiling, Zhang, Meizhen, Song
Format: Article
Language:English
Subjects:
Amino acids
antioxidant activity
Antioxidant system, osmotic adjustment
Antioxidants
Antioxidants - metabolism
Carbon dioxide
Carotenoids
Chlorophyll
Cotton
Drought
Drought stress
Droughts
Dry matter
dry matter accumulation
Efficiency
Enzymes
Genotype
Genotypes
growth retardation
Hardiness
Hydroponics
Identification and classification
malondialdehyde
Metabolism
Morphology
Osmoprotectants
osmotolerance
Oxidative Stress
Phosphorus
Phosphorus in the body
Photosynthesis
Physiological aspects
Physiology
Plant growth
Plants
Potassium phosphate
Potassium phosphates
proline
Reactive oxygen species
Seeds
Signal transduction
solubility
Stress, Physiological - genetics
water stress
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Summary:Drought is one of the main reasons for low phosphorus (P) solubility and availability. The use of low P tolerant cotton genotypes might be a possible option to grow in drought conditions. This study investigates the tolerance to drought stress in contrasting low P-tolerant cotton genotypes (Jimian169; strong tolerant to low P and DES926; weak tolerant to low P). In hydroponic culture, the drought was artificially induced with 10% PEG in both cotton genotypes followed by low (0.01 mM KH PO ) and normal (1 mM KH PO ) P application. The results showed that under low P, PEG-induced drought greatly inhibited growth, dry matter production, photosynthesis, P use efficiency, and led to oxidative stress from excessive malondialdehyde (MDA) and higher accumulation of reactive oxygen species (ROS), and these effects were more in DES926 than Jimian169. Moreover, Jimian169 alleviated oxidative damage by improving the antioxidant system, photosynthetic activities, and an increase in the levels of osmoprotectants like free amino acids, total soluble proteins, total soluble sugars, and proline. The present study suggests that the low P-tolerant cotton genotype can tolerate drought conditions through high photosynthesis, antioxidant capacity, and osmotic adjustment.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-023-04171-5