Your search keyword '"Hanting Qu"' showing total 10 results

1. Patterns and drivers of microbiome in different rock surface soil under the volcanic extreme environment

Author

Jin Chen, Zishan Li, Daolong Xu, Qingchen Xiao, Haijing Liu, Xiaoyu Li, Lumeng Chao, Hanting Qu, Yaxin Zheng, Xinyan Liu, Pengfei Wang, and Yuying Bao

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Published

2023

2. Changes of Arbuscular Mycorrhizal Fungal Community and Glomalin in the Rhizosphere along the Distribution Gradient of Zonal Stipa Populations across the Arid and Semiarid Steppe

Author

Xiaodan Ma, Jingpeng Li, Fucheng Ding, Yaxin Zheng, Lumeng Chao, Haijing Liu, Xinyan Liu, Hanting Qu, and Yuying Bao

Subjects

AMF communities, GRSP, Stipa taxa, changes, rhizosphere, Microbiology, QR1-502

Abstract

ABSTRACT Arbuscular mycorrhizal fungi (AMF) have been reported to have a wide distribution in terrestrial ecosystems and to play a vital role in ecosystem functioning and symbiosis with Stipa grasses. However, exactly how AMF communities in the rhizosphere change and are distributed along different Stipa population with substituted distribution and their relationships remain unclear. Here, the changes and distribution of the rhizosphere AMF communities and their associations between hosts and the dynamic differences in the glomalin-related soil protein (GRSP) in the rhizosphere soil of seven Stipa species with spatial substitution distribution characteristics in arid and semiarid grasslands were investigated. Along with the substituted distribution of the Stipa populations, the community structures, taxa, species numbers, and alpha diversity index values of AMF in the rhizosphere changed. Some AMF taxa appeared only in certain Stipa species, but there was no obvious AMF taxon turnover. When the Stipa baicalensis population was replaced by the Stipa gobica population, the GRSP tended to decline, whereas the carbon contribution of the GRSP tended to increase. Stipa grandis and Stipa krylovii had a great degree of network modularity of the rhizosphere AMF community and exhibited a simple and unstable network structure, while the networks of Stipa breviflora were complex, compact, and highly stable. Furthermore, with the succession of zonal populations, the plant species, vegetation coverage, and climate gradient facilitated the differentiation of AMF community structures and quantities in the rhizospheres of different Stipa species. These findings present novel insights into ecosystem functioning and dynamics correlated with changing environments. IMPORTANCE This study fills a gap in our understanding of the soil arbuscular mycorrhizal fungal community distribution, community composition changes, and diversity of Stipa species along different Stipa population substitution distributions and of their adaptive relationships; furthermore, the differences in the glomalin-related soil protein (GRSP) contents in the rhizospheres of different Stipa species and GRSP’s contribution to the grassland organic carbon pool were investigated. These findings provide a theoretical basis for the protection and utilization of regional biodiversity resources and sustainable ecosystem development.

Published

2022

3. Arbuscular Mycorrhizae Fungi Diversity in the Root–Rhizosphere–Soil of Tetraena mongolica, Sarcozygium xanthoxylon, and Nitraria tangutorum Bobr in Western Ordos, China

Author

Daolong Xu, Xiaowen Yu, Jin Chen, Haijing Liu, Yaxin Zheng, Hanting Qu, and Yuying Bao

Subjects

arbuscular mycorrhizal fungi, endangered plants, root and rhizosphere soil, plant symbiosis, Agriculture

Abstract

Arbuscular mycorrhizal fungi (AMF) are considered to be an essential indicator of ecosystem biodiversity and can increase a plant’s ability to withstand arid conditions. Despite the obvious significance of AMF in the root and rhizosphere system, little is known about how the AMF variety varies between the soil and roots of endangered plants and how this varies depending on habitats in dry and semiarid regions. This study aimed to address this research gap by investigating the characteristics and diversity of AMF colonization in Zygophyllaceae. Using Illumina MiSeq high-throughput sequencing, indigenous AMF in the roots and rhizosphere soil of three endangered plants (Tetraena mongolica, Sarcozygium xanthoxylon, and Nitraria tangutorum Bobr) were investigated. The three threatened plants had different AMF populations in their root and rhizosphere soils, according to a hierarchical clustering analysis. AMF communities in rhizosphere soil were more sensitive to LDA than root AMF communities based on linear discriminant analysis effect size (LEfSe). Glomus, Septoglomus, and Rhizophagus were seen to function as dominant fungi as the soil and root AMF populations carried out their various tasks in the soil and roots as a cohesive collective. Distance-based redundancy analysis (db-RDA) showed that pH, total phosphorus, and accessible potassium were closely associated with AMF communities. The pH of the soil appears to be an important factor in determining AMF community stability. These findings can serve as a guide for the use of AM fungus in the rehabilitation of agricultural land in arid regions. In summary, our work contributed new knowledge for the scientific preservation of these endangered plant species and for the further investigation of the symbiotic link between AMF and endangered plant species.

Published

2023

4. Response of Soil Microbial Community Composition and Diversity at Different Gradients of Grassland Degradation in Central Mongolia

Author

Lumeng Chao, Xiaodan Ma, Munkhzul Tsetsegmaa, Yaxin Zheng, Hanting Qu, Yuan Dai, Jingpeng Li, and Yuying Bao

Subjects

Illumina MiSeq high-throughput sequencing, grassland degradation, soil microbial communities, microbial difference analysis, environmental factors, Agriculture (General), S1-972

Abstract

Vegetation and soil microorganisms are important components of terrestrial ecosystems and play a crucial role in ecosystem functioning. However, little is known about the synergistic changes in soil microbial community with aboveground plants in grassland degradation and the role of the microbial community in the process of vegetation restoration succession. In this study, we investigated the characteristics of soil microbial communities and diversities in the different levels of grassland degradation using Illumina MiSeq high-throughput sequencing. The dominant bacteria phyla were: Actinobacteriota, 31.61–48.90%; Acidobacteriota, 7.19–21.73%; Chloroflexi, 9.08–19.09%; and Proteobacteria, 11.14–18.03%. While the dominant fungi phyla were: Ascomycota, 46.36–81.58%; Basidiomycota, 5.63–33.18%; and Mortierellomycota, 1.52–37.69%. Through RDA/CCA, the effects of environmental factors on the differences in the soil microbial community between different sites were interpreted. Results showed that the pH was the most critical factor affecting soil microbial communities in seriously degraded grassland; nevertheless, soil microbial communities in non-degraded grassland and less degraded grasslands were mainly affected by the soil moisture content and soil enzyme activities (sucrase activity, alkaline phosphatase activity and catalase activity). We systematically demonstrated the soil microbial communities of different grassland degradation gradients in Mongolia, which provided valuable information for grassland degradation reduction and vegetation restoration succession.

Published

2022

5. Changes of root AMF community structure and colonization levels under distribution pattern of geographical substitute for four Stipa species in arid steppe

Author

Xiaodan Ma, Hanting Qu, Xinyan Liu, Yan Zhang, Lumeng Chao, Haijing Liu, and Yuying Bao

Subjects

Microbiology

Published

2023

6. Correlationship between cellular DNA and AgNOR protein content in the developing course of colorectal adenocarcinoma

Author

Yao, Xie and Hanting, Qu

Published

1995

7. Differences in microbial communities from Quaternary volcanic soils at different stages of development: Evidence from Late Pleistocene and Holocene volcanoes

Author

Siyu Wang, Baojie Wang, Daolong Xu, Jin Chen, Yuying Bao, Yuqing Guo, Yaxin Zheng, Lumeng Chao, Hanting Qu, Xiaodan Ma, and Fansheng Li

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Pleistocene, Ecology, 04 agricultural and veterinary sciences, Soil carbon, complex mixtures, 01 natural sciences, Volcano, Disturbance (ecology), Microbial population biology, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Species richness, Quaternary, Holocene, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Volcanic eruptions are a universal cause of ecological and geological disturbance; however, the differences in microbial communities from Quaternary volcanic soils at different stages of development in Inner Mongolia are little known. Microbial communities were investigated in Quaternary volcanic soils from Late Pleistocene volcano and Holocene volcano with the objective of elucidating their differences. The composition and potential functionality of soil microbial communities was significantly diverse between Late Pleistocene volcanic soils and Holocene volcanic soils. Although the richness, diversity and evenness of microbial communities at older volcanic soils were significantly greater than at younger volcanic soils, younger volcanic soils possessed a more complex microbial community network than older volcanic soils. The soil bacterial community was more sensitive to Quaternary volcanic soils than the fungal community, exhibiting significant differences at the phylum level and possessing more biomarkers. Quaternary volcanic soils may have enriched some specific microorganisms, i.e., biomarkers and generalists, closely related to the metabolism of soil carbon, nitrogen and phosphorus. Quaternary volcanic soils first directly mediated soil carbon, nitrogen and phosphorus, and then guided microbial multifunctionality. These results clarify the difference patterns of soil microbial communities in support of better ecological management of volcanic area in Inner Mongolia.

Published

2021

8. Distinct effects of volcanic cone types on soil microbiomes: Evidence from cinder cone and spatter cone

Author

Baojie Wang, Yuying Bao, Daolong Xu, Lumeng Chao, Hanting Qu, Fansheng Li, Jin Chen, Yaxin Zheng, Haijing Liu, and Yuqing Guo

Subjects

Cinder cone, genetic structures, 010504 meteorology & atmospheric sciences, Ecology, 04 agricultural and veterinary sciences, Biology, 01 natural sciences, Cone (formal languages), Abundance (ecology), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Terrestrial ecosystem, Alpha diversity, sense organs, Species richness, Water content, Volcanic cone, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Volcanic cones, as essential components of the terrestrial ecosystem, provide an excellent model for studying the soil formation process, fertility and structure. However, there have not been any studies comparing soil microbial differences between cinder cones and spatter cones. To complement this lack of knowledge, we characterized the compositions of soil microbiomes between cinder cone and spatter cone sites using Illumina MiSeq high-throughput sequencing. Compared with spatter cone sites, cinder cone sites had higher microbial richness and greater abundance of arbuscular mycorrhizal (AM) fungi, which were found to work as keystone taxa. The cooccurrence network showed more complex interspecies relationships in spatter cone than in cinder cone; however, there was a larger proportion of positive correlations in cinder cone than in spatter cone. The functional composition profiles indicated that carbohydrate metabolism and amino acid metabolism were significantly enhanced in spatter cone and that there was a strong positive correlation between the two. Soil fungal communities were likely to be more resilient and resistant to Wulanhada volcanic activity than bacterial communities, which may have been due to the effects of the larger number of keystone taxa in soil fungal communities. Structural equation modeling (SEM) demonstrated that aboveground biomass and soil moisture exerted a significant impact on soil microbial communities and that alpha diversity was the biggest positive contributor of microbial multifunctionality. Our findings indicate the prospect of exploring the characteristics of the soil microbial communities in volcanoes of different types.

Published

2021

9. Response differences between soil fungal and bacterial communities under opencast coal mining disturbance conditions

Author

Li Mo, Daolong Xu, Ji Nan, Yuqing Guo, Jin Chen, Yuying Bao, Hanting Qu, Yaxin Zheng, Lumeng Chao, and Fansheng Li

Subjects

Pollutant, 010504 meteorology & atmospheric sciences, business.industry, Ecology, Coal mining, Species diversity, 04 agricultural and veterinary sciences, 01 natural sciences, Ecological network, Disturbance (ecology), Microbial population biology, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Coal, business, Restoration ecology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Despite significant progress in understanding the effect of disturbances on microbial communities, little research has been performed to systematically assess the stability of bacterial and fungal communities in response to environmental changes associated with opencast coal mining. To address this research gap, in this study, we investigated the characteristics of soil microbial communities along the distance gradient in the Shengli east#2 opencast coal mine using Illumina MiSeq high-throughput sequencing. Through phylogenetic analysis and community heat map approaches, we observed that the structure of bacterial and fungal communities was altered by an opencast coal mining disturbance and that microorganisms associated with coal degradation and pollutant detoxification were enriched. LEfSe analysis and molecular ecological networks revealed that the fungal community was more stable than the bacterial community, as it exhibited more biomarkers and a more connected and complex ecological network despite having a lower species diversity. Redundancy analysis showed that soil enzymes among total environmental factors were consistently and tightly aggregated, suggesting that soil enzymes may be key drivers associated with microbial community stability. In summary, our findings provide innovative information for the ecological restoration of mining areas in the future.

Published

2020

10. Colorectal cancer screening for the natural population of Beijing with sequential fecal occult blood test: a multicenter study

Author

Shirong, Li, Zhaohua, Nie, Nan, Li, Junxiang, Li, Ping, Zhang, Zhaoxu, Yang, Shankun, Mu, Yaping, Du, Jichun, Hu, Shenyuan, Yuan, Hanting, Qu, Taichang, Zhang, Shixin, Wang, Enyu, Dong, and Defang, Qi

Subjects

Adult, Aged, 80 and over, Male, China, Occult Blood, Humans, Female, Middle Aged, Colorectal Neoplasms, Aged

Abstract

To assess the prevalence of colorectal cancer (CRC) in Beijing and the reliability of the sequential fecal occult blood test (SFOBT) for CRC screening.Of the natural population (48 100 persons) in several Beijing communities, we screened 26 827 persons with age over 30 using the SFOBT screening program, Guaiacum Fecal Occult Blood Test (GFOBT), Immuno Fecal Occult Blood Test (IFOBT), and colonoscopies.The screening rate of the population was 74%. The positive rate of SFOBT was 5.6%. The prevalence of CRC in the entire population of Beijing was therefore calculated to be 36.57/10(5). Of 12 CRC detected patients, 4 cases were in stage Dukes A (33.33%), 7 cases in stage Dukes B (58.33%), only 1 case (8.34%) in stage Dukes C.The prevalence of CRC in Beijing is one of the highest in China. Individuals at high risk for CRC or those over 50 years of age should be considered as primary candidates for screening. SFOBT screening is a cost-effective and reliable method for early detection of CRC.

Published

2003