This page has only limited features, please log in for full access.

Ms. Ruixue Qi
Ningxia University, College of Agriculture

Basic Info

Basic Info is private.

Research Keywords & Expertise

0 Bacillus
0 Pseudomonas fluorescens
0 functional microorganisms
0 Pseudomonas auruginosa
0 Plant growth promoting (rhizo)bacteria

Honors and Awards

The user has no records in this section


Career Timeline

The user has no records in this section.


Short Biography

Research on the development and utilization of functional microorganisms

Following
Followers
Co Authors
Profile ImageXueyan Zhang College of Agriculture, Ning...
Following: 1 user
View all

Feed

Journal article
Published: 13 May 2021 in Agronomy
Reads 0
Downloads 0

Soil salinity has become a serious threat to crop growth and productivity and has aggravated the gap between sustainable food supply and population growth. Application of plant growth-promoting rhizobacteria (PGPR) has emerged as a novel way of alleviating the harmful effects of salt stress and improving soil nutrients. The aim of this study was to study the effects of exposure cucumber seedlings at one co-inoculation of Bacillus licheniformis and B. subtilis, a mitigation of salt stress in cucumber seedlings. In this study, we isolated salt tolerant (NX-3 and NX-4) and growth-promoting (NX-48, NX-59, and NX-62) bacteria from the rhizosphere of cucumber. NX-3 and NX-59 were identified as B. licheniformis, and NX-4, NX-48 and NX-62 were identified as B. subtilis. Under salt stress, relative to non-inoculation, co-inoculation with B. licheniformis and B. subtilis increased stem diameter and plant fresh weight. Moreover, the concentration of substrate available phosphorus increased (except for NX4-59). The catalase and sucrase activities of NX4-62 were the highest. Meanwhile, NX3-62 and NX3-59 had the highest phosphorus content and NX3-59 had the highest urease activities. Comprehensive analysis indicated that NX4-62 and NX3-59 showed the best effect on promoting cucumber seedlings growth, activating substrate nutrients, and alleviate salt stress in seedlings of cucumber.

ACS Style

Ruixue Qi; Wei Lin; Kaixuan Gong; Zeyu Han; Hui Ma; Miao Zhang; Qiannan Zhang; Yanming Gao; Jianshe Li; Xueyan Zhang. Bacillus Co-Inoculation Alleviated Salt Stress in Seedlings Cucumber. Agronomy 2021, 11, 966 .

AMA Style

Ruixue Qi, Wei Lin, Kaixuan Gong, Zeyu Han, Hui Ma, Miao Zhang, Qiannan Zhang, Yanming Gao, Jianshe Li, Xueyan Zhang. Bacillus Co-Inoculation Alleviated Salt Stress in Seedlings Cucumber. Agronomy. 2021; 11 (5):966.

Chicago/Turabian Style

Ruixue Qi; Wei Lin; Kaixuan Gong; Zeyu Han; Hui Ma; Miao Zhang; Qiannan Zhang; Yanming Gao; Jianshe Li; Xueyan Zhang. 2021. "Bacillus Co-Inoculation Alleviated Salt Stress in Seedlings Cucumber." Agronomy 11, no. 5: 966.