Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas
Soil salinity is a serious environmental issue in arid China. Halophytes show extreme salt tolerance and are grow in saline-alkaline environments. There rhizosphere have complex bacterial communities, which mediate a variety of interactions between plants and soil. High-throughput sequencing was use...
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oai:doaj.org-article:27729b27c5fe429ca9f7c2ed2587bef92021-11-18T08:14:36ZRhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas1932-6203https://doaj.org/article/27729b27c5fe429ca9f7c2ed2587bef92021-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC8584676/?tool=EBIhttps://doaj.org/toc/1932-6203Soil salinity is a serious environmental issue in arid China. Halophytes show extreme salt tolerance and are grow in saline-alkaline environments. There rhizosphere have complex bacterial communities, which mediate a variety of interactions between plants and soil. High-throughput sequencing was used to investigated rhizosphere bacterial community changes under the typical halophyte species in arid China. Three typical halophytes were Leymus chinensis (LC), Puccinellia tenuiflora (PT), Suaeda glauca (SG). The dominant phyla were Proteobacteria, Actinobacteria, Chloroflexi, Gemmatimonadetes, Acidobacteria and Bacteroidetes, Suaeda glauca rhizosphere has stronger enrichment of Nitrospirae and Cyanobacteria. The Ace, Chao and Shannon indices were significantly higher in soils under LC and SG (P<0.05). Functional predictions, based on 16S rRNA gene by PICRUSt, indicated that Energy metabolism, Amino acid metabolism, Carbohydrate metabolism and Fatty acid metabolism are dominant bacterial functions in three halophytes rhizosphere soil. Carbon metabolism, Oxidative phosphorylation, Methane metabolism, Sulfur metabolism and Nitrogen metabolism in SG were significantly higher than that in LC and PT. Regression analysis revealed that rhizosphere soil bacterial community structure is influenced by soil organic matter (SOM) and soil water content (SWC), while soil bacterial community diversity is affected by soil pH. This study contributes to our understanding of the distribution characteristics and metabolic functions under different halophyte rhizosphere bacterial communities, and will provide references for the use of rhizosphere bacteria to regulate the growth of halophytes and ecological restoration of saline soil.Fating YinFenghua ZhangHaoran WangPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 16, Iss 11 (2021) |
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Medicine R Science Q Fating Yin Fenghua Zhang Haoran Wang Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
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Soil salinity is a serious environmental issue in arid China. Halophytes show extreme salt tolerance and are grow in saline-alkaline environments. There rhizosphere have complex bacterial communities, which mediate a variety of interactions between plants and soil. High-throughput sequencing was used to investigated rhizosphere bacterial community changes under the typical halophyte species in arid China. Three typical halophytes were Leymus chinensis (LC), Puccinellia tenuiflora (PT), Suaeda glauca (SG). The dominant phyla were Proteobacteria, Actinobacteria, Chloroflexi, Gemmatimonadetes, Acidobacteria and Bacteroidetes, Suaeda glauca rhizosphere has stronger enrichment of Nitrospirae and Cyanobacteria. The Ace, Chao and Shannon indices were significantly higher in soils under LC and SG (P<0.05). Functional predictions, based on 16S rRNA gene by PICRUSt, indicated that Energy metabolism, Amino acid metabolism, Carbohydrate metabolism and Fatty acid metabolism are dominant bacterial functions in three halophytes rhizosphere soil. Carbon metabolism, Oxidative phosphorylation, Methane metabolism, Sulfur metabolism and Nitrogen metabolism in SG were significantly higher than that in LC and PT. Regression analysis revealed that rhizosphere soil bacterial community structure is influenced by soil organic matter (SOM) and soil water content (SWC), while soil bacterial community diversity is affected by soil pH. This study contributes to our understanding of the distribution characteristics and metabolic functions under different halophyte rhizosphere bacterial communities, and will provide references for the use of rhizosphere bacteria to regulate the growth of halophytes and ecological restoration of saline soil. |
format |
article |
author |
Fating Yin Fenghua Zhang Haoran Wang |
author_facet |
Fating Yin Fenghua Zhang Haoran Wang |
author_sort |
Fating Yin |
title |
Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
title_short |
Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
title_full |
Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
title_fullStr |
Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
title_full_unstemmed |
Rhizosphere bacteria community and functions under typical natural halophyte communities in North China salinized areas |
title_sort |
rhizosphere bacteria community and functions under typical natural halophyte communities in north china salinized areas |
publisher |
Public Library of Science (PLoS) |
publishDate |
2021 |
url |
https://doaj.org/article/27729b27c5fe429ca9f7c2ed2587bef9 |
work_keys_str_mv |
AT fatingyin rhizospherebacteriacommunityandfunctionsundertypicalnaturalhalophytecommunitiesinnorthchinasalinizedareas AT fenghuazhang rhizospherebacteriacommunityandfunctionsundertypicalnaturalhalophytecommunitiesinnorthchinasalinizedareas AT haoranwang rhizospherebacteriacommunityandfunctionsundertypicalnaturalhalophytecommunitiesinnorthchinasalinizedareas |
_version_ |
1718421973966520320 |