Combined Role of ACC Deaminase Producing Bacteria and Biochar on Cereals Productivity under Drought

Most of the cereal crops are widely cultivated to fulfil the humans food requirements. Under changing climate scenario, the intensity of drought stress is continuously increasing that is adversely affecting the growth and yield of cereal crops. Although the cereals can tolerate moderate drought to s...

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Bibliographic Details
Published in:Phyton (Buenos Aires) 2020, Vol.89 (2), p.217-227
Main Authors: Danish, Subhan, Zafar-ul-Hye, Muhammad
Format: Article
Language:English
Subjects:
Bioavailability
Biosynthesis
Cereal crops
Cereals
Charcoal
Climate change
Crop yield
Crops
Cultivation
Drought
Ethylene
Grain cultivation
Growth hormones
Hormones
Inoculation
Nutrients
Physiochemistry
Plant growth
Porosity
Scientists
Soil improvement
Soil porosity
Stress
Water availability
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Summary:Most of the cereal crops are widely cultivated to fulfil the humans food requirements. Under changing climate scenario, the intensity of drought stress is continuously increasing that is adversely affecting the growth and yield of cereal crops. Although the cereals can tolerate moderate drought to some extent, but mostly they are susceptible to severe drought stress. Higher biosynthesis of ethylene under drought stress has been reported. Many scientists observed that inoculation of 1-aminocyclopropane-1-carboxylate (ACC) deaminase producing plant growth promoting rhizobacteria (PGPR) is an efficacious tool to overcome this problem. These PGPR secrete ACC deaminase which cleavage the ACC into the compounds, other than ethylene. Furthermore, secretion of growth hormones also play imperative role in enhancing the growth of the cereals under limited availability of water. In addition, the use of biochar has also been recognized as another effective amendment to grant resistance against drought. Biochar application improves the soil physiochemical attributes i.e., porosity, nutrients retention and water holding capacity which decrease the loss of water and increase its bioavailability. In recent era, the idea of coapplication of ACC deaminase producing PGPR and biochar is becoming popular which might be more efficient to use water under drought stress. The aim of current review is to combine the facts and understanding of this novel idea to grant maximum resistance to crops against drought stress. Some scientists have observed significant improvement in yield of cereal crops by combined use of ACC deaminase producing PGPR and biochar. However, more research is suggested for deep understanding of complex synergistic mechanism of ACC deaminase activity in combination with biochar.
ISSN:1851-5657
0031-9457
1851-5657
DOI:10.32604/phyton.2020.08523