Your search keyword '"MICROBIAL ecology"' showing total 219 results

1. Profiling of rhizosphere bacterial community associated with sugarcane and banana rotation system.

Author

Yao, Ziting, Khan, Abdullah, Xu, Yuzhi, Pan, Kaiyuan, and Zhang, Muqing

Subjects

BACTERIAL communities, MONOCULTURE agriculture, CROP rotation, SUGARCANE, MICROBIAL ecology, SOIL microbial ecology, RHIZOSPHERE, AGRICULTURE, BANANAS

Abstract

Background: Guangxi is the leading sugarcane-producing area in China. Due to the Panama disease outbreak in banana gardens, sugarcane and banana rotation was recommended. A field experiment with the newly released sugarcane cultivar Zhongzhe 1 (ZZ1) was conducted to understand the role of the sugarcane–banana rotation system in shaping the rhizosphere microbiota. Fields in the region possess characteristics of red laterite soil. Results: Using Illumina HiSeq sequencing to analyze soil samples' 16S rRNA V3-V4 region, the preceding banana rotation field had relatively greater bacterial diversity than the monoculture sugarcane field. Proteobacteria, Chloroflexi, Actinobacteria, and Acidobacteria were the dominant phyla, with distinct taxa enriched in each environment. However, the preceding sugarcane monoculture field enriched functional groups related to nitrogen fixation and cellulolysis. Network analysis highlighted contrasting network structures between sugarcane and banana rhizospheres, suggesting differential stability and susceptibility to environmental influences. Furthermore, correlations between soil properties and bacterial alpha-diversity underscored the influence of preceding crops on rhizosphere microbial communities. Conclusion: This research enhances our understanding of crop rotation effects on soil microbial ecology and provides insights into optimizing agricultural practices for enhanced soil health and crop productivity. Future studies should explore the underlying mechanisms driving these interactions and evaluate the long-term impacts of crop rotation on soil microbial dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

2. Metagenomic and Culturomics Analysis of Microbial Communities within Surface Sediments and the Prevalence of Antibiotic Resistance Genes in a Pristine River: The Zaqu River in the Lancang River Source Region, China.

Author

Yan, Yi, Xu, Jialiang, Huang, Wenmin, Fan, Yufeng, Li, Zhenpeng, Tian, Mingkai, Ma, Jinsheng, Lu, Xin, and Liang, Jian

Subjects

DRUG resistance in bacteria, MOBILE genetic elements, MICROBIAL communities, ECOLOGICAL risk assessment, METAGENOMICS, WATERSHEDS, MICROBIAL ecology

Abstract

Microbial communities inhabiting sedimentary environments in river source regions serve as pivotal indicators of pristine river ecosystems. While the correlation between antibiotic resistome and pathogenicity with core gut bacteria in humans is well established, there exists a significant knowledge gap concerning the interaction of antibiotic resistance genes (ARGs) and human pathogenic bacteria (HPB) with specific microbes in river source basins, often referred to as "terrestrial gut". Understanding the microbial composition, including bacteria and resident genetic elements such as ARGs, HPB, Mobile Genetic Elements (MGEs), and Virulence Factors (VFs), within natural habitats against the backdrop of global change, is imperative. To address this gap, an enrichment-based culturomics complementary along with metagenomics was conducted in this study to characterize the microbial biobank and provide preliminary ecological insights into profiling the dissemination of ARGs in the Lancang River Source Basin. Based on our findings, in the main stream of the Lancang River Source Basin, 674 strains of bacteria, comprising 540 strains under anaerobic conditions and 124 under aerobic conditions, were successfully isolated. Among these, 98 species were identified as known species, while 4 were potential novel species. Of these 98 species, 30 were HPB relevant to human health. Additionally, bacA and bacitracin emerged as the most abundant ARGs and antibiotics in this river, respectively. Furthermore, the risk assessment of ARGs predominantly indicated the lowest risk rank (Rank Ⅳ) in terms of endangering human health. In summary, enrichment-based culturomics proved effective in isolating rare and unknown bacteria, particularly under anaerobic conditions. The emergence of ARGs showed limited correlation with MGEs, indicating minimal threats to human health within the main stream of the Lancang River Source Basin. [ABSTRACT FROM AUTHOR]

Published

2024

3. Start-Ups and Innovation Ecosystem in China.

Author

Zhang, Xinpei and Yi, Gaofeng

Subjects

NEW business enterprises, GRAND strategy (Political science), URBAN planning, MICROBIAL ecology, FOOD chains

Abstract

China plays the dominant role of the 'whole nation system', improves start-ups and innovation ecosystems and creates development cornerstone for building an innovative and scientifically advanced country. China strengthens the supply of key innovative factors such as policies, talents and fund and consolidate foundation for building a national innovation ecosystem to provide institutional guarantee for start-up enterprises. Besides, a 'four-chain integration' innovative service system is built combining 'innovation chain', 'industrial chain', 'capital chain' and 'service chain' and creates an innovative microecology with start-up characteristics. Regional innovation policy is the catalyst for start-ups. China's start-ups fully integrate into the national grand strategy and target planning of the region and city, strengthen synergy and interaction of national and regional resources and closely connect the core strategies and industries of the city or region to develop start-ups. [ABSTRACT FROM AUTHOR]

Published

2024

4. Characteristics of Groundwater Microbial Community Composition and Environmental Response in the Yimuquan Aquifer, North China Plain.

Author

Zhang, Huaisheng, Lv, Yonggao, Zhang, Tao, Zhang, Lei, Ma, Xuemei, Liu, Xuesong, and Lian, Sheng

Subjects

GROUNDWATER, GROUNDWATER monitoring, AQUIFERS, MICROBIAL communities, BODIES of water, MICROBIAL ecology, PLAINS

Abstract

To explore the intricate interrelationship between groundwater microbial communities and hydrochemical characteristics in the Mancheng District, Baoding City, samples from karst groundwater and porous groundwater were collected. Hydrochemical analysis and the 16s RNA gene V4-V5 region sequencing method were used to detail the water environmental characteristics and microbial community distribution pattern in the study area. The hydrochemical results reveal notable differences in major ion contents and other hydrochemical indices between karst water and porous water. Microbial community analysis demonstrates that Proteobacteria, Actinobacteria, and Firmicutes are the dominant taxa in both types of water bodies, albeit with significant variations in their proportions across distinct water bodies. The observed disparities in microbial communities between karst water and porous water underscore the influence of environmental factors such as ion concentration and pH on microbial distribution. Redundancy Analysis (RDA) indicates notable associations between microbial community composition and environmental factors in both types of groundwater environments. Studying the distribution pattern of microbial communities and the connection with environmental factors in two types of groundwater lays a crucial foundation for interpreting the functional roles of microbes in groundwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

5. Relationship between vaginal microecology and human papillomavirus infection as well as cervical intraepithelial neoplasia in 2,147 women from Wenzhou, the southeast of China.

Author

Lejing Zang, Renqian Feng, Yitong Huang, Jiahe Huang, and Yan Hu

Subjects

CERVICAL intraepithelial neoplasia, CONIZATION, HUMAN papillomavirus, PAPILLOMAVIRUS diseases, MICROBIAL ecology, LOGISTIC regression analysis, GENITALIA

Abstract

Objective: The female reproductive tract is a significant microecological region, and its micro-environment can directly affect women's cervical health. This research aimed to investigate the effect of vaginal microecology on human papillomavirus (HPV) infection and cervical intraepithelial neoplasia(CIN). Methods: A retrospective cohort study enrolling 2,147 women who underwent a colposcopic examination between August 2021 and August 2022 was conducted. The relationship between vaginal microecology and HPV infection as well as cervical lesions were assessed using the chi-square test, univariate and multivariate logistic regression analyses, and Cochran-Armitage trend test. Results: HPV infection was linked to the imbalance of vaginal microecology [odds ratio (OR)=3.00, 95% confidence interval (CI)=1.66-5.43; P<0.001]. Clue cell (OR=1.59, 95% CI=0.99-2.54; P=0.054) and sialidase (OR=1.54, 95% CI=1.01-2.35; P<0.046) were considered as significant risk factors for HPV infection. Further analysis showed that vaginal microecological disorder was more likely to be detected in patients infected with HPV 16/18 subtypes (OR=9.86, 95% CI=2.37-41.80; P=0.002). Although there was no significant correlation between the incidence of vaginal microecological disorder and the severity of cervical lesions (P > 0.05), the proportions of abnormal PH value (OR=2.6, 95% CI=1.63-10.42; P=0.001) and abnormal vaginal cleanliness (OR=2.6, 95% CI=1.36-4.0; P= 0.004) increased as the histological stage progressed. Conclusion: Vaginal microecology associates with HPV infection and the progression of cervical lesions. Detection of vaginal secretion may contribute to the development of targets for micro-environmental modulation with probiotics and the reduction of the incidence of cervical cancer. [ABSTRACT FROM AUTHOR]

Published

2024

6. Leaf traits and temperature shape the elevational patterns of phyllosphere microbiome.

Author

Wang, Xing, Yuan, Zuoqiang, Ali, Arshad, Yang, Teng, Lin, Fei, Mao, Zikun, Ye, Ji, Fang, Shuai, Hao, Zhanqing, XugaoWang, and Le Bagousse‐Pinguet, Yoann

Subjects

*LEAF temperature, *BIOMES, *FUNGAL communities, *TEMPERATE forests, *ENDOPHYTIC bacteria, *ENDOPHYTIC fungi, *SPECIES diversity

Abstract

Aim: The phyllosphere microbiome is central to plant health, distribution, and ecosystem function, yet, we lack a clear understanding of the drivers shaping their diversity in mountain ranges. Here, we examined how the endo‐ and epiphytic phyllosphere microbiomes of mountains simultaneously respond to climate and leaf functional traits. Location: Temperate forests of Changbai Mountain Natural Reserve, China. Methods: We collected the leaves of dominant tree species along seven elevations from 800 to 1950. We investigated changes in species richness and Shannon diversity of endo‐ and epiphytic phyllosphere fungal and bacterial communities (using next‐generation sequencing of ITS2 and 16S) along an 1150 m elevational gradient. We also examined the direct and indirect effects of climate (mean annual temperature; MAT) and 13 leaf morphological and chemical traits on the microbiome of the phyllosphere. Results: Phyllosphere microbiome declined monotonically with increasing elevation, contrasting with the hump‐shaped biodiversity patterns that are commonly reported. We observed a steeper decline in epiphytic bacterial diversity than in endophytic bacteria, whereas conversely endophytic fungi diversity declined more dramatically with increasing elevation than epiphytic fungi. Host plant traits – those involved in resource uptake and leaf surface temperature – predominantly shaped the elevational patterns of endophytic phyllosphere microbiome, whereas MAT mostly increased the richness and Shannon diversity of epiphytic organisms. We also observed weak, but significant indirect effects suggesting that host plant traits are important biotic drivers mediating climate effects on endophytic phyllosphere microbiome. Also, no covariation between bacteria and fungi was observed (neither for endophytic nor for epiphytic organisms), supporting neutral associations between bacterial and fungal communities, irrespective of the elevation. Main Conclusions: Both direct and mediating effects of plant traits should be considered to better understand the drivers shaping the richness and Shannon diversity of endo‐ and epiphytic phyllosphere microbiomes, and more generally the plant–microbe associations. Our study also offers a trait‐based attempt to disentangle the effects of biotic and abiotic filters in shaping endo‐ and epiphytic phyllosphere microbiome along an elevational gradient. [ABSTRACT FROM AUTHOR]

Published

2023

7. Patterns of bacterial generalists and specialists in lakes and reservoirs along a latitudinal gradient.

Author

Zuo, Jun, Liu, Lemian, Xiao, Peng, Xu, Zijie, Wilkinson, David M., Grossart, Hans‐Peter, Chen, Huihuang, and Yang, Jun

Subjects

*MICROBIAL ecology, *STOCHASTIC processes, *BIOGEOGRAPHY, *BIOTIC communities, *LAKES

Abstract

Aim: The geographical distribution of bacteria is an important, but poorly understood, topic in microbial ecology. A major question is how broadly distributed generalist taxa, and limitedly distributed specialist taxa, vary across a latitudinal gradient in freshwater ecosystems. We predict that: (a) generalists and specialists exhibit latitudinal diversity gradient with different patterns; (b) their community assemblies are mainly driven by stochastic processes; and (c) generalists coexist through niche differences, while specialists coexist through fitness differences. Location: Sixty lakes and reservoirs in China, ranging from 18° N to 50° N. Time Period: July–August in 2012 and 2018. Taxa Studied: Bacterioplankton. Methods: We clustered zero‐radius operational taxonomic unit (zOTU) (subspecies‐like level) into operational taxonomic unit (OTU) (species‐like level) and calculated the intra‐specific variation and spatial asynchrony of OTU. We examined the relative effects of environment versus space (latitude) on bacterial community and quantified the community assembly processes of generalists and specialists, respectively. The binary‐state speciation and extinction (BiSSE) model has been used to estimate the evolutionary characteristics. The abundances of the top zOTUs within each OTU were identified to reveal their niche preferences (distribution patterns at different sites). Results: We found that bacterial generalists had a higher intra‐specific variation, greater asynchrony and wider niche width than the specialists. With increasing latitude, bacterial diversity decreased with abundance variations in generalists and occurrence variations in specialists, respectively. Diversification in stochastic processes was the main driving factor in both groups, though deterministic processes showed greater effects on specialists than generalists in local communities. Bacterial generalists coexisted through niche differences, whereas specialists coexisted through average fitness differences. Main Conclusions: We demonstrated distinct latitudinal distribution patterns of bacterial generalists and specialists. These results highlight differences in biogeography of microbial generalist and specialist taxa mediated by intra‐specific variation and emphasize their distinctly vital roles mediated by differing mechanisms in freshwater ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

8. Microbial community diversity and potential functionality in response to dam construction along the Three Gorge Reservoir, China.

Author

Huan Wang, Bin Yan, Yan Wu, Maoyun Yin, Maoqing Wang, and Chuan Fu

Subjects

DAM design & construction, WATER levels, BACTERIAL communities, GORGES, COMMUNITY development, MICROBIAL diversity, MICROBIAL communities

Abstract

River and reservoir bacterial communities are the most basic part of river biomes and ecosystem structure, and play an important role in river biological processes. Yet, it remains unclear how highly regulated dam reservoirs affect both soil and sediment bacterial communities. A temporal distribution pattern of bacterial communities was investigated using Illumina MiSeq sequencing in a transition section of the Three Gorges Reservoir (TGR). In total, 106,682 features belong to the bacteria kingdom, encompassing 95 phyla, 228 classes, 514 orders, 871 families, 1959 genera, and 3,053 species. With water level regulation, Shannon diversity index, and observed species differed significantly, with no significant difference in Simpson evenness. Both in the high water level period (October) and the low water level period (June), Proteobacteria, Acidobacteri, and Chloroflexi were the most abundant phyla. Whereas, based on PCA plots and Circos plot, the microbial community structure has changed significantly. LEfSe method was used to identify the classified bacterial taxa with significant abundance differences between the low water level and high water level periods. KOs (KEGG Orthology) pathway enrichment analysis were conducted to investigate functional and related metabolic pathways in groups. To some extent, it can be inferred that water level regulation affects community growth by affecting the metabolism of the microbial community. [ABSTRACT FROM AUTHOR]

Published

2023

9. Diversity and Distribution Characteristics of Culturable Bacteria in Burqin Glacier No. 18, Altay Mountains, China.

Author

Tian, Mao, Jia, Puchao, Wu, Yujie, Yu, Xue, Wu, Shiyu, Yang, Ling, Zhang, Binglin, Wang, Feiteng, Liu, Guangxiu, Chen, Tuo, and Zhang, Wei

Subjects

*GLACIERS, *MOUNTAIN ecology, *MICROBIAL ecology, *BACTERIAL diversity, *SPECIES diversity

Abstract

Ecosystems away from human disturbance provide an ideal paradigm for microbial ecology research. The Burqin glacier No. 18 in the Chinese Altay Mountains is such an ecosystem; however, there are no prior studies on the microbiology in the area. Here, we isolated 902 bacterial strains on the Burqin glacier No. 18 to determine the diversity and distribution characteristics of microorganisms. Isolated strains belonged to six phyla (in the order of dominance: Proteobacteria, Actinobacteria, Bacteroidetes, Cyanobacteria, Firmicutes, and Deinococcus-Thermus) and 90 genera. Our results also demonstrated the presence of a high proportion of potential new species (43%) in the Burqin glacier No. 18, and 67% of the potential new species were isolated at 25 °C. Species diversity varied among habitats, with the lowest diversity in surface ice and the highest diversity in the soil farthest from the glacier terminus. The pigmented colonies made up 52.7% of all isolates, with yellow-colored colonies being the most abundant (18.8%). This study indicates that the Burqin glacier No. 18 hosts rich bacterial strain diversity, and may represent a significant potential source of new functional and pigmented bacteria for the development of critical pharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2023

10. Distinctive patterns of soil microbial community during forest ecosystem restoration in southwestern China.

Author

Zuo, Youwei, Liu, Xiangning, Ma, Te, Zeng, Yulian, Li, Wenqiao, Xia, Changying, Zhang, Huan, Li, Zongfeng, and Deng, Hongping

Subjects

FOREST restoration, COMMUNITY forests, MICROBIAL communities, BIOTIC communities, ABANDONED mines

Abstract

Microorganisms are essential in soil biogeochemical processes and vegetation establishment. Nonetheless, investigating predictable patterns in the microbial structure during forest restoration damaged by natural or human factors in southwestern China is still limited. Hence, the study intended to explore the effects of forest restoration damaged by illegal construction, abandoned mines, and meteorological disasters on the microbial structure and its consequence on ecosystem functioning. The results uncovered that soil and plant attributes in the restoration forests damaged by illegal construction were similar to the natural community. Furthermore, the alpha diversity indexes were higher in the restoration forests damaged by human factors than in the natural community. Co‐occurrence network analysis identified hub bacterial (e.g., Roseiarcus and Comamonas) and fungal (e.g., Exophiala and Botryotrichum) taxa, proving densely connected interactions with other microorganisms. Restoration forests damaged by illegal construction harbored beneficial genera belonging to Proteobacteria (Nordella, Xanthobacteraceae, and Sphingomonas) and Basidiomycota (Panaeolus, Psilocybe, and Sebacina), whereas restoration forests damaged by abandoned mines presented specialized bacteria involved in dark sulfur oxidation and ureolysis. Correlation analysis showed that soil properties, especially water content and pH, were the dominant factors affecting the microbial communities. Tree and shrub alpha diversities were significantly related to Chloroflexi in the natural community, and herbaceous richness was remarkably related to Proteobacteria and Mortierellomycota in the restoration forest damaged by human factors. Collectively, this comprehensive analysis generates novel insights to explore the contrasting responses of microbial communities during the process of restoration and provides essential microbial indicators for habitat restoration in southwestern China. [ABSTRACT FROM AUTHOR]

Published

2023

11. Effect of different rice transplanting patterns on microbial community in water, sediment, and Procambarus clarkii intestine in rice-crayfish system.

Author

Jin Huang, Jinghao Li, Wenzong Zhou, Yongxu Cheng, and Jiayao Li

Subjects

CRAYFISH, PROCAMBARUS clarkii, MICROBIAL ecology, MICROBIAL communities, INTEGRATED agricultural systems, AGRICULTURE, RICE

Abstract

Although the microbial ecology of integrated rice-crayfish farming systems is receiving increasing attention with the expanding application area in China, the effects of rice transplanting patterns on the microbial community of water, sediment and Procambarus clarkii intestine in rice-crayfish system has yet to be determined. This study explored the microbial community present in water, sediment and intestine samples from three transplant patterns (rice crayfish with wide-narrow row transplanting, rice-crayfish with normal transplanting and pond-crayfish, abbreviated as RC-W, RC, and PC, respectively) using highthroughput sequencing. The results showed that the dominant microbial taxa from sediment, surrounding water, and intestine at phylum level were Proteobacteria, Chloroflexi, Cyanobacteria, Actinobacteria, Bacteroidetes. The patterns of rice transplanting had significant effects on microbial biodiversity and species composition in surrounding water. The OTUs community richness of water under RC group was significantly higher than that of PC group and RC-W group. The OTU relative abundance of top 10 operational taxonomic units had significantly different (p  <  0.05) in the water samples from the three groups. The intestinal OTU community richness of Procambarus clarkii in the three groups was positively correlated with the community richness of water. The proximity between intestinal and water samples in PCA diagram indicated that their species composition was more similar. The results also showed that rice transplanting patterns can affect intestinal microbial biodiversity of Procambarus clarkii and the intestinal microbial biodiversity correlated with water bodies. Although the intestinal microbial diversity of crayfish in RC-W group was lower than that in RC group, the relative abundance of potential pathogenic bacteria, such as Vibrio, Aeromonas, in intestine of the crayfish in the RC-W group was significantly decreased under rice wide-narrow row transplanting model. Redundancy analysis revealed that environmental parameters, such as pH, DO, nitrate, which regulate the composition of microbial community structures. This study provides an understanding for microbial response to different rice transplanting pattern in rice-crayfish farming system. [ABSTRACT FROM AUTHOR]

Published

2023

12. Metagenomic Insights Reveal the Microbial Diversity and Associated Algal-Polysaccharide-Degrading Enzymes on the Surface of Red Algae among Remote Regions.

Author

Gu, Xiaoqian, Cao, Zhe, Zhao, Luying, Seswita-Zilda, Dewi, Zhang, Qian, Fu, Liping, and Li, Jiang

Subjects

*MICROBIAL ecology, *MICROBIAL diversity, *RED algae, *BACTERIAL diversity, *METAGENOMICS, *ALGAL communities, *AMINO acid metabolism, *GUT microbiome

Abstract

Macroalgae and macroalgae-associated bacteria together constitute the most efficient metabolic cycling system in the ocean. Their interactions, especially the responses of macroalgae-associated bacteria communities to algae in different geographical locations, are mostly unknown. In this study, metagenomics was used to analyze the microbial diversity and associated algal-polysaccharide-degrading enzymes on the surface of red algae among three remote regions. There were significant differences in the macroalgae-associated bacteria community composition and diversity among the different regions. At the phylum level, Proteobacteria, Bacteroidetes, and Actinobacteria had a significantly high relative abundance among the regions. From the perspective of species diversity, samples from China had the highest macroalgae-associated bacteria diversity, followed by those from Antarctica and Indonesia. In addition, in the functional prediction of the bacterial community, genes associated with amino acid metabolism, carbohydrate metabolism, energy metabolism, metabolism of cofactors and vitamins, and membrane transport had a high relative abundance. Canonical correspondence analysis and redundancy analysis of environmental factors showed that, without considering algae species and composition, pH and temperature were the main environmental factors affecting bacterial community structure. Furthermore, there were significant differences in algal-polysaccharide-degrading enzymes among the regions. Samples from China and Antarctica had high abundances of algal-polysaccharide-degrading enzymes, while those from Indonesia had extremely low abundances. The environmental differences between these three regions may impose a strong geographic differentiation regarding the biodiversity of algal microbiomes and their expressed enzyme genes. This work expands our knowledge of algal microbial ecology, and contributes to an in-depth study of their metabolic characteristics, ecological functions, and applications. [ABSTRACT FROM AUTHOR]

Published

2023

13. Seasonal Succession of Fungal Communities in Native Truffle (Tuber indicum) Ecosystems.

Author

Lei Ye, Xuezhen Yang, Bo Zhang, Jie Zhou, Hong Tian, Xiaoping Zhang, and Xiaolin Li

Subjects

*FUNGAL communities, *TUBERS, *TRUFFLES, *MICROBIAL ecology, *ECOSYSTEM dynamics, *SOIL dynamics

Abstract

Truffles are a rare underground fungus and one of the most expensive, and sought-after kitchen ingredients in the world. Microbial ecology plays an important role in the annual growth cycle of truffles, but fungal communities in native truffle ecosystems are still largely unknown, especially for Tuber indicum from China. In this study, the spatial and temporal dynamics of soil physicochemical properties and fungal communities were described associated with four T. indicum-producing plots (TPPs) and one non-truffle-producing plot in four successive growing seasons. A total of 160 biological samples were collected, 80 of which were used for the determination of 10 soil physicochemical indices and 80 for Illumina-based analysis of the fungal microbiome. Soil physicochemical properties and fungal communities exhibited considerable seasonal variation. Ascomycetes, Basidiomycetes, and Mucormycoides dominated. The core microbiome work on the microecological changes in TPPs, and the identified core members contribute to the seasonal succession of communities. The genus Tuber occupies a central position in healthy TPPs. There was a strong correlation between soil physicochemical properties and fungal communities. The genus Tuber showed a positive correlation with Ca, Mg, and total nitrogen, but a negative correlation with total phosphorus and available potassium. This study describes the complex ecological dynamics of soil physicochemical indices and fungal communities occurring during the annual cycle of Tuber indicum, and highlights the succession of core communities in truffle plots, which contribute to better protection of native truffle ecosystems and control of mycorrhizal fungal contamination in artificial truffle plantations in China. [ABSTRACT FROM AUTHOR]

Published

2023

14. Effects of vegetation type differences induced by human disturbance on the nutrition strategy and gut microbiota of Siberian roe deer.

Author

Yuan, Zi‐ao, Zhong, Lin‐qiang, Du, Hai‐rong, Feng, Jia‐nan, Liu, Xin‐xin, Yuan, Hong‐yi, Guo, Jin‐hao, Liu, Peng, and Zhang, Ming‐hai

Subjects

*ROE deer, *MICROBIAL communities, *AMINO acid metabolism, *MICROBIAL ecology, *DEER populations, *TREE farms, *GUT microbiome, *NUTRITION

Abstract

The Siberian roe deer (Capreolus pygargus) is a widely distributed ungulate in northeast China. Due to a series of human disturbance activities such as large‐scale forest cutting, deforestation and reclamation, road construction in the past, the appearance and internal structure of forest vegetation in the habitat of Siberian roe have changed significantly. At the same time, Siberian roe population had a series of ecological adaptation responses in the face of such habitat changes. Therefore, two typical vegetation types with differences were selected in the Muling Forest, China. We used nutritional ecology and microbial metagenomic analysis techniques to compare the nutritional selection strategy and the structure and functional characteristics of faecal microbiota of Siberian roe groups in two vegetation types. The results showed that the α diversity of dietary and gut microbes of deer in Natural Forest was higher than that in Plantation Forest. However, the gut microbes of the Plantation Forest group contained more unique enzymes in the functional pathways of carbon metabolism and biosynthesis of amino acids. This study suggests that habitat type is associated with plant community composition, and contributes to changes in the intake proportions of major macronutrients by altering the availability, quality, and composition of certain edible plants. Feeding behaviour may be an important regulatory factor of gut microbiota structure and function of deer. The metabolic function of gut microbiota to different nutrients may affect the microbial community structure. Therefore, our results suggest that the gut microbes of Siberian roe may have coevolved with their diets, and reflect the adaptability of deer populations to environmental changes (e.g., vegetation type). Our study provides new insights into how spatial heterogeneity affects nutrition and microecosystems by describing the interactions among the environment, diet, and symbiotic gut microbes in wild ungulates. [ABSTRACT FROM AUTHOR]

Published

2023

15. The research progress of skin microecology and probiotic for skin anti-photoaging.

Author

Yiwen Chen, Xia Wen, Jiancong Huang, Shuyao Zhang, Yali Zheng, and Xiaobao Xie

Subjects

MICROBIAL ecology, HOMEOSTASIS, PROBIOTICS, ULTRAVIOLET radiation, COSMETICS industry, SUSTAINABLE development, RADIATION exposure

Abstract

Copyright of China Surfactant Detergent & Cosmetics (1001-1803) is the property of China Surfactant Detergent & Cosmetics Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

16. Viral and Bacterial Communities Collaborate through Complementary Assembly Processes in Soil to Survive Organochlorine Contamination.

Author

Shujian Yuan, Friman, Ville-Petri, Balcazar, Jose Luis, Xiaoxuan Zheng, Mao Ye, Mingming Sun, and Feng Hua

Subjects

*MICROBIAL ecology, *MICROBIAL communities, *ORGANOCHLORINE pesticides, *BACTERIAL genes, *BACTERIAL communities, *DRUG resistance in bacteria, *STOCHASTIC processes, *SOILS

Abstract

The ecological drivers that direct the assembly of viral and host bacterial communities are largely unknown, even though viral-encoded accessory genes help host bacteria survive in polluted environments. To understand the ecological mechanism(s) of viruses and hosts synergistically surviving under organochlorine pesticide (OCP) stress, we investigated the community assembly processes of viruses and bacteria at the taxon and functional gene levels in clean and OCP-contaminated soils in China using a combination of metagenomics/viromics and bioinformatics approaches. We observed a decreased richness of bacterial taxa and functional genes but an increased richness of viral taxa and auxiliary metabolic genes (AMGs) in OCP-contaminated soils (from 0 to 2,617.6 mg . kg-1 ). In OCP-contaminated soils, the assembly of bacterial taxa and genes was dominated by a deterministic process, of which the relative significance was 93.0% and 88.7%, respectively. In contrast, the assembly of viral taxa and AMGs was driven by a stochastic process, which contributed 83.1% and 69.2%, respectively. The virus-host prediction analysis, which indicated Siphoviridae was linked to 75.0% of bacterial phyla, and the higher migration rate of viral taxa and AMGs in OCP-contaminated soil suggested that viruses show promise for the dissemination of functional genes among bacterial communities. Taken together, the results of this study indicated that the stochastic assembly processes of viral taxa and AMGs facilitated bacterial resistance to OCP stress in soils. Moreover, our findings provide a novel avenue for understanding the synergistic interactions between viruses and bacteria from the perspective of microbial ecology, highlighting the significance of viruses in mediating bioremediation of contaminated soils. IMPORTANCE The interaction between viral communities and microbial hosts has been studied extensively, and the viral community affects host community metabolic function through AMGs. Microbial community assembly is the process by which species colonize and interact to establish and maintain communities. This is the first study that aimed to understand the assembly process of bacterial and viral communities under OCP stress. The findings of this study provide information about microbial community responses to OCP stress and reveal the collaborative interactions between viral and bacterial communities to resist pollutant stress. Thereby, we highlight the importance of viruses in soil bioremediation from the perspective of community assembly. [ABSTRACT FROM AUTHOR]

Published

2023

17. Research hotspots in the field of skin microecology based on bibliometrics.

Author

Feiqian Di, Wenjing Cheng, Luyao Li, Jiachan Zhang, Changtao Wang, and Quan An

Subjects

MICROBIAL ecology, MICROBIAL diversity, BIBLIOMETRICS, SKIN care products, MICROBIAL invasiveness, TISSUE metabolism, SKIN

Abstract

Skin microbiome is closely related to skin health. It plays an important role in maintaining skin health, resisting the invasion of foreign microorganisms and participating in skin tissue metabolism. It also provides ideas for the research and development of skin therapeutic drugs and skin care products. In recent years, the literatures on skin microecology are increasing year by year. With the help of literature measurement method and knowledge map visualization software VOSviewer, this paper made quantitative statistics and comparative analysis on the distribution trend, distribution volume of major countries, distribution institutions and research topics from 2010 to 2022. The results show that in recent years, the research in the field of skin microecology has attracted worldwide attention. Its research topics mainly include "skin diseases caused by microecological imbalance and the relationship, pathogenesis and mechanism between some skin diseases and skin microorganisms", "skin problems caused by harmful flora", "diversity of skin microorganisms and influencing factors of colonization", and "genetic correlation of skin microbial community". The majority researches focus on the imbalance of skin microecology and the diversity of skin microorganisms. Then, the differences in research fields between China and the United States are analyzed and compared. The United States researchers mainly focus on the technical means of skin microorganisms, and the Chinese mainly focus on the research of three skin diseases. [ABSTRACT FROM AUTHOR]

Published

2023

18. New microbiological insights from the Bowland shale highlight heterogeneity of the hydraulically fractured shale microbiome.

Author

Hernandez-Becerra, Natali, Cliffe, Lisa, Xiu, Wei, Boothman, Christopher, Lloyd, Jonathan R., and Nixon, Sophie L.

Subjects

*SHALE, *BIOSPHERE, *OIL shales, *HYDRAULIC fracturing, *GAS wells, *SHALE gas, *MICROBIAL ecology

Abstract

Background: Hydraulically fractured shales offer a window into the deep biosphere, where hydraulic fracturing creates new microbial ecosystems kilometers beneath the surface of the Earth. Studying the microbial communities from flowback fluids that are assumed to inhabit these environments provides insights into their ecophysiology, and in particular their ability to survive in these extreme environments as well as their influence on site operation e.g. via problematic biofouling processes and/or biocorrosion. Over the past decade, research on fractured shale microbiology has focused on wells in North America, with a few additional reported studies conducted in China. To extend the knowledge in this area, we characterized the geochemistry and microbial ecology of two exploratory shale gas wells in the Bowland Shale, UK. We then employed a meta-analysis approach to compare geochemical and 16S rRNA gene sequencing data from our study site with previously published research from geographically distinct formations spanning China, Canada and the USA. Results: Our findings revealed that fluids recovered from exploratory wells in the Bowland are characterized by moderate salinity and high microbial diversity. The microbial community was dominated by lineages known to degrade hydrocarbons, including members of Shewanellaceae, Marinobacteraceae, Halomonadaceae and Pseudomonadaceae. Moreover, UK fractured shale communities lacked the usually dominant Halanaerobium lineages. From our meta-analysis, we infer that chloride concentrations play a dominant role in controlling microbial community composition. Spatio-temporal trends were also apparent, with different shale formations giving rise to communities of distinct diversity and composition. Conclusions: These findings highlight an unexpected level of compositional heterogeneity across fractured shale formations, which is not only relevant to inform management practices but also provides insight into the ability of diverse microbial consortia to tolerate the extreme conditions characteristic of the engineered deep subsurface. [ABSTRACT FROM AUTHOR]

Published

2023

19. Bacterial community composition of the sediment in Sayram Lake, an alpine lake in the arid northwest of China.

Author

Shao, Keqiang, Zhang, Lei, Ba, Tunasheng, Chao, Jianying, and Gao, Guang

Subjects

*LAKE sediments, *COMPOSITION of sediments, *MOUNTAIN ecology, *MICROBIAL ecology, *BIOGEOCHEMICAL cycles, *BACTERIAL communities

Abstract

Sediment bacterial communities play a critical role in biogeochemical cycling in alpine lake ecosystems. However, little is known about the sediment microbial communities in these lakes. In this study, the bacterial community composition (BCC) and their relationships with environmental factors of the sediment in Sayram Lake, the largest alpine and cold-water inland lake, China was analyzed using Illumina MiSeq sequencing. In total, we obtained 618,271 high quality sequences. The results showed that the bacterial communities with 30 phyla and 546 genera, were spread out among the 5 furface sediment samples, respectively. The communities were dominated by Proteobacteria, Acidobacteria, Planctomycetes, Gemmatimonadetes, Chloroflexi, Actinobacteria, Verrucomicrobia and Bacteroidetes, accounting for 48.15 ± 8.10%, 11.23 ± 3.10%, 8.42 ± 2.15%, 8.37 ± 2.26%, 7.40 ± 3.05%, 5.62 ± 1.25%, 4.18 ± 2.12% and 2.24 ± 1.10% of the total reads, respectively. At the genus level, the communities were dominated by Aquabacterium, Pseudomonas, Woeseia, MND1, Ignavibacterium and Truepera, accounting for 7.89% ± 8.24%, 2.32% ± 1.05%, 2.14% ± 0.94%, 2% ± 1.22%, 0.94% ± 0.14% and 0.80% ± 0.14% of the total reads, respectively. Statistical analyses showed the similarity of the sediment bacterial communities at our field sites was considerably low, far below 35%, and total organic carbon (TOC) was the dominant environmental factor affecting the spatial changes of BCC in the sediment. Thus, this study greatly improving our understanding of the microbial ecology of alpine lake in the arid and semi-arid ecosystems today so seriously threatened. [ABSTRACT FROM AUTHOR]

Published

2023

20. Stochastic processes dominate community assembly of ectomycorrhizal fungi associated with Picea crassifolia in the Helan Mountains, China.

Author

Xuan Zhang, Yonglong Wang, Ying Xu, Babalola, Busayo Joshua, Simin Xiang, Jianjun Ma, Yun Su, and Yongjun Fan

Subjects

ECTOMYCORRHIZAL fungi, STOCHASTIC processes, COMMUNITIES, FUNGAL communities, DISPERSAL (Ecology), MICROBIAL ecology, SPRUCE, PINACEAE

Abstract

Introduction: Understanding the underlying mechanisms of microbial community assembly is a fundamental topic in microbial ecology. As an integral part of soil organisms, ectomycorrhizal (EM) fungi play vital roles in ecosystems. Picea crassifolia is an important pine species in the Helan Mountains in Inner Mongolia, China, with high ecological and economic values. However, studies of EM fungal diversity and mechanisms underlying community assembly on this pine species are limited. Methods: In this study, we investigated EM fungal communities associated with P. crassifolia from 45 root samples across three sites in the Helan Mountains using Illumina Miseq sequencing of the fungal rDNA ITS2 region. Results: A total of 166 EM fungal OTUs belonging to 24 lineages were identified, of which Sebacina and Tomentella-Thelephora were the most dominant lineages. Ordination analysis revealed that EM fungal communities were significantly different among the three sites. Site/fungus preference analysis showed that some abundant EM fungal OTUs preferred specific sites. Ecological process analysis implied that dispersal limitation and ecological drift in stochastic processes dominantly determined the community assembly of EM fungi. Discussion: Our study indicates that P. crassifolia harbors a high EM fungal diversity and highlights the important role of the stochastic process in driving community assembly of mutualistic fungi associated with a single plant species in a semi-arid forest in northwest China. [ABSTRACT FROM AUTHOR]

Published

2023

21. The impact of early-life antibiotics and probiotics on gut microbial ecology and infant health outcomes: a Pregnancy and Birth Cohort in Northwest China (PBCC) study protocol.

Author

Qi, Qi, Wang, Liang, Gebremedhin, Mitslal Abrha, Li, Shaoru, Wang, Xueyao, Shen, Jiali, Zhu, Yingze, Andegiorgish, Amanuel Kidane, Cheng, Yue, Shi, Lu, Zhou, Jing, Yang, Ying, Kang, Yijun, Yang, Wenfang, Zhu, Zhonghai, and Zeng, Lingxia

Subjects

ENVIRONMENTAL health, MICROBIAL ecology, PREGNANCY outcomes, COHORT analysis, MEDICAL personnel, LACTOBACILLUS rhamnosus

Abstract

Background: Unreasonable use of antibiotics and probiotics can alter the gut ecology, leading to antibiotic resistance and suboptimal health outcomes during early life. Our study aims are to clarify the association among antibiotic and probiotic exposure in early life, the microecology of the gut microbiota, and the development of antibiotic resistance; to investigate the long-term impact of antibiotics and probiotics on the health outcomes of infants and young children; and to provide a theoretical basis for the rational use of antibiotics and probiotics from a life course perspective. Methods: The study is a prospective, longitudinal birth cohort study conducted in Shaanxi Province, China from 2018 to 2024. A total of 3,000 eligible mother–child pairs will be enrolled from rural, suburban, and urban areas. The recruitment of the participants begins at pregnancy, and the newborns will be followed up for 2 years at successive timepoints: within 3 days after birth, 42 days after birth, and at 3, 6, 12, 18, and 24 months of age. Sociodemographic data, environmental exposures, dietary patterns, psychological conditions, and medical and drug histories are collected. Cognitive and behavioural development among infants and young children and questionnaires on antibiotic knowledge and behaviour among caregivers will be collected at 12 and 24 months of age. The faecal samples are collected and analysed by 16S rRNA high-throughput sequencing and quantitative PCR (qPCR) for antibiotic resistance genes. Discussion: The findings will inform antibiotic and probiotic use for pregnant women and infants and contribute to establishing rational use strategies of antibiotics and probiotics for paediatricians, health practitioners, and drug administration policy-makers. Trial registration: The study was registered on the Chinese Clinical Trial Registry (ChiCTR) platform, http://www.chictr.org.cn (Record ID: ChiCTR2100047531, June 20, 2021). [ABSTRACT FROM AUTHOR]

Published

2022

22. Effects of Hemp Sanitary Pads on the Vaginal Microecology.

Author

Sun, Yange, Li, Chao, Yan, Yan, Lai, Ailuan, Peng, Xiaoxiao, Yue, Xiaohong, Li, Yanling, Liu, Junzhuo, and Liu, Yan

Subjects

*SANITARY napkins, *MICROBIAL ecology, *MENSTRUATION, *GENITALIA infections, *VAGINA examination, *HEMP

Abstract

Objective. To evaluate the effect of hemp cotton sanitary pads on the vaginal microecology. Methods. A randomized controlled field trial was used to recruit 1002 community-based women of childbearing age. The women were randomly divided into experimental and control groups. The experimental group used hemp cotton sanitary pads, while the control group used two types of cotton sanitary randomly chosen from the top five sanitary pads in terms of market share in China. The vaginal microecology was compared between the two groups after three months. Results. According to the vaginal microecologic examination results at baseline, 1002 women were included in 3 groups: normal vaginal microecologic, vaginal microecological disorders, and suspected vaginal infections. The number of patients in three groups were 39 (3.9%), 652 (65.1%), and 311 (31%), respectively. Three months later, the vaginal microecologic status and vaginal pH value of the suspected vaginal infection group were not significantly different between the experimental group and control group. The experimental group outperformed the control group with respect to vaginal cleanliness and vaginal microecology status in the women without a vaginal infection (normal vaginal microecology or microecological disorders group). The rate of abnormal cleanliness in the experimental group was lower than the control group (31.95% [108/338] vs. 43.62% [154/353]). The incidence of suspected vaginitis in the experimental group was lower than the control group (15.29% [51/338] vs. 23.51% [83/353]). Conclusion. For women without vaginal inflammation, the use of hemp cotton sanitary pads during menstruation can help maintain the balance of the vaginal microecology to prevent reproductive tract infections. [ABSTRACT FROM AUTHOR]

Published

2022

23. Comparison of assembly process and co-occurrence pattern between planktonic and benthic microbial communities in the Bohai Sea.

Author

Jinmei Liu, Xiaolei Wang, Jiao Liu, Xiaoyue Liu, Xiao-Hua Zhang, and Jiwen Liu

Subjects

MICROBIAL communities, DISPERSAL (Ecology), COMMUNITIES, MICROBIAL diversity, BOTTOM water (Oceanography), MICROBIAL ecology, HABITATS

Abstract

Unraveling the mechanisms structuring microbial community is a central goal in microbial ecology, but a detailed understanding of how community assembly processes relate to living habitats is still lacking. Here, via 16S rRNA gene amplicon sequencing, we investigated the assembly process of microbial communities in different habitats [water verse sediment, free-living (FL) verse particle-associated (PA)] and their impacts on the inter-taxa association patterns in the coastal Bohai Sea, China. The results showed clear differences in the composition and diversity of microbial communities among habitats, with greater dissimilarities between water column and sediment than between FL and PA communities. The microbial community assembly was dominated by dispersal limitation, ecological drift, and homogeneous selection, but their relative importance varied in different habitats. The planktonic communities were mainly shaped by dispersal limitation and ecological drift, whereas homogeneous selection played a more important role in structuring the benthic communities. Furthermore, the assembly mechanisms differed between FL and PA communities, especially in the bottom water with a greater effect of ecological drift and dispersal limitation on the FL and PA fractions, respectively. Linking assembly process to co-occurrence pattern showed that the relative contribution of deterministic processes (mainly homogeneous selection) increased under closer co-occurrence relationships. By contrast, stochastic processes exerted a higher effect when there were less intertaxa connections. Overall, our findings demonstrate contrasting ecological processes underpinning microbial community distribution in different habitats including different lifestyles, which indicate complex microbial dynamic patterns in coastal systems with high anthropogenic perturbations. [ABSTRACT FROM AUTHOR]

Published

2022

24. Microbial Networks Reveal the Structure of Water Microbial Communities in Kalamaili Mountain Ungulate Nature Reserve.

Author

Xiong, Yu, Tang, Liping, Jia, Huiping, Shao, Changliang, Tang, Junyu, Xu, Yanping, Yan, Liping, and Zhang, Dong

Subjects

NATURE reserves, UNGULATES, BODIES of water, WATER distribution, MICROBIAL ecology, MICROBIAL communities

Abstract

Water microorganisms contribute to the key components of ecosystems in dryland waters, which are extremely important for wildlife. However, the distribution patterns of water microbes across different basal water sources are still largely unknown. This study was conducted to compare microorganisms in the water bodies of different types of water sources in the Kalamaili Mountain Ungulate Nature Reserve in China. Bioinformatic analysis revealed that the undirected microbial co-existence network consisted of 15 main modules referring to different water sources, which indicated specific molecular co-existence relationships. It was found that the most dominant phyla (namely Proteobacteria, Patescibacteria, Firmicutes, Bacteroidota, and Actinobacteriota) of the molecular ecological network shared the same structures as the microbial community, which justified the construction of the network via a random network formation. Principal coordinate analysis (PCoA) based on Bray–Curtis distances revealed that there were still considerable variations among different habitats, showing separate sample clusters. Additionally, the different topological roles of subnetworks trimmed to a uniform size indicated different co-existence patterns in the microbiome. The artificially recharged water from concrete pond substrate (ARC) subnetworks had a relatively discrete co-occurrence, while the natural water sources (NRE) and artificially recharged water from earthen pond substrate (ARE) groups were more compact with giant modules. The NRE and ARE groups were also richer in microbial composition and had a higher number of species with low abundance. Consequently, concrete substrates may contribute to dysfunction in water microbiomes. Moreover, the functional diversity of the NRE and ARE groups is due to more intra-module connections and more inter-module connections, indirectly leading to a stable function resilient to external environmental influences. In conclusion, the microecology of the NRE was more stable than that of the concrete substrate, and artificial transportation had less effect on the microbial community. [ABSTRACT FROM AUTHOR]

Published

2022

25. The effect of graphene photocatalysis on microbial communities in Lake Xingyun, southwestern China.

Author

Liu, Qi, Zhang, Hucai, Chang, Fengqin, Qiu, Jian, Duan, Lizeng, Hu, Guangzhi, Zhang, Yun, Zhang, Xiaonan, and Xu, Liang

Subjects

PHOTOCATALYSIS, GRAPHENE, GALACTOSE, FATTY acid oxidation, WATER pollution, STARCH metabolism, MICROBIAL ecology, MICROBIAL communities

Abstract

Graphene photocatalysis is a new method for harmful algae and water pollution control. However, microbial communities undergoing graphene photocatalysis treatment in freshwater lakes have been poorly studied. Here, using 16S rRNA and 18S rRNA gene high-throughput sequencing, the responses of microbial communities to graphene photocatalysis were analyzed in the eutrophic lake, Lake Xinyun, southwestern China. For microeukaryotes, we found that Arthropoda was dominant in summer, while its abundant level declined in spring under natural conditions. The evident reduction of Arthropods was observed after graphene photocatalysis treatment in summer and then reached a relatively stable level. For bacteria, Cyanobacteria decreased in summer due to the graphene photocatalysis-mediated inactivation. However, Cyanobacteria was higher in the treated group in spring with a genera group-shift. Functional analysis revealed that microeukaryotes showed higher potential for fatty acid oxidation and TCA cycle in the treated group in summer, but they were more abundant in control in spring. Pathways of starch and sucrose metabolism and galactose metabolism were more abundant in control in summer, while they were enriched in the treated group in spring for bacteria. This study offers insights into the effects of graphene photocatalysis on microbial communities and their functional potential in eutrophic lake. [ABSTRACT FROM AUTHOR]

Published

2022

26. Comparison of the Oral Microbiota Structure among People from the Same Ethnic Group Living in Different Environments.

Author

Ma, Guoyun, Qiao, Yanan, Shi, Han, Zhou, Jianye, and Li, Yongming

Subjects

*DIAGNOSIS of dental caries, *CAVITY prevention, *HOME environment, *GENETICS, *DENTAL plaque, *SEQUENCE analysis, *MICROBIAL ecology, *ORAL health, *RURAL conditions, *POPULATION geography, *DIET, *RNA, *HUMAN microbiota, *ATTENTION, *ETHNIC groups, *METROPOLITAN areas, *RESIDENTIAL patterns, *CLUSTER analysis (Statistics), *EARLY diagnosis, *EARLY medical intervention, *MOUTH

Abstract

The characteristics of the oral microbiota may depend on oral health, age, diet, and geography, but the influence of the geographic setting on the oral microbiota has received limited attention. The characteristics of oral microbiota have been reported to differ between urban and rural environments. In order to minimize the influence of genetic background, we recruited 54 volunteers from the same ethnic group, living in urban and rural areas of Gansu Province, China. We collected dental plaque samples and divided them into four groups according to the participant's area of residence and dental caries status. We sequenced the 16S rRNA of these samples using the Pacific Biosciences sequencing platform and analyzed the correlation between the geographic area and the characteristics of the oral microbiota. Analysis of the alpha and beta diversity revealed that there were significant differences in diversity and composition of dental plaque microflora among the four groups. Cluster analysis revealed that geographic area played an important role in determining the oral microbiota. Network analysis of oral microorganisms showed that geographic differences had major influence on the composition characteristics and internal structure of oral microorganisms. We found that some dominant strains which may play a key role in maintaining oral health, such as Streptococcus oralis, Capnocytophaga sputigena, Porphyromonas catoniae, Corynebacterium matruchotii, Haemophilus parainfluenzae, and Prevotella loescheii, were less affected by the geographic setting. These results provide a deeper understanding of factors influencing the composition of the oral microbiota and could contribute to early diagnosis and effective prevention of dental caries in different settings. [ABSTRACT FROM AUTHOR]

Published

2022

27. 酱香型白酒酿造微生态中酵母菌的研究进展.

Author

戎梓溢, 白茹, 闫学娇, 李超, 林良才, and 张翠英

Subjects

MICROBIAL ecology, HIGH temperatures, YEAST, FERMENTATION, METABOLITES, LIQUORS, SAUCES

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

28. Biogeographic Patterns and Elevational Differentiation of Sedimentary Bacterial Communities across River Systems in China.

Author

Sibo Zhang, Xinghui Xia, Junfeng Wang, Xiaokang Li, Yuan Xin, Jia'ao Bao, Lanfang Han, Wei Qin, and Zhifeng Yang

Subjects

*WATERSHEDS, *BACTERIAL diversity, *MICROBIAL diversity, *WATER temperature, *MICROBIAL ecology, *HABITATS, *BACTERIAL communities

Abstract

Bacterial biodiversity is tightly correlated with ecological functions of natural systems, and bacterial rare and abundant subcommunities make distinct contributions to ecosystem functioning. However, the biogeographic pattern and elevational differentiation of sedimentary bacterial diversity have rarely been studied in cross-river systems at a continental scale. This study analyzed the biogeographic patterns and elevational differentiations of the entire, abundant, and rare bacterial (sub) communities as well as the underlying mechanisms across nine rivers that span distinct geographic regions and large elevational gradients in China. We found that bacterial rare and abundant subcommunities shared similar biogeographic patterns and both demonstrated strong distance-decay relationships, despite their distinct community compositions. However, both null model and variation partitioning analysis results showed that while environmental selection governed rare subcommunity assemblies (contribution: 51.9%), dispersal limitation (62.7%) controlled the assembly of abundant subcommunities. The disparity was associated with the broader threshold width of abundant taxa to water temperature and pH variations than rare taxa. Elevation-induced bacterial composition variations were more evident than latitudeinduced ones. Some specific operational taxonomic units (OTUs), representing 16.4% of the total sequences, much preferentially and even exclusively lived in high-elevation or low-elevation habitats and demonstrated some adaptations to local conditions. Greater positive: negative link ratios in bacterial co-occurrence networks of low elevations than high elevations (P < 0.05) partly resulted from their harboring higher organic carbon: nitrogen ratios. Together, this study draws a biogeographic picture of sedimentary bacterial communities in a continental-scale riverine system and highlights the importance of incorporating elevation-associated patterns of microbial diversity into riverine microbial ecology studies. [ABSTRACT FROM AUTHOR]

Published

2022

29. Moss biocrusts buffer the negative effects of karst rocky desertification on soil properties and soil microbial richness.

Author

Cheng, Cai, Li, Yujie, Long, Mingzhong, Gao, Min, Zhang, Yuandong, Lin, Jiayu, and Li, Xiaona

Subjects

*CRUST vegetation, *DESERTIFICATION, *KARST, *MICROBIAL ecology, *RESTORATION ecology, *MOUNTAIN soils, *SOIL composition

Abstract

Background and aims: Karst rocky desertification (KRD), a land degradation form which is widespread but unique to karst ecosystems, has become an ecological disaster in southwest China. Biocrusts play crucial roles in many ecological processes of the degraded ecosystems. However, little is known about the effects of biocrusts on soil properties and soil microbial communities in the progression of KRD. Methods: We sampled soil beneath moss biocrusts and bare soil in four grades of KRD (none, light, moderate, and severe) to compare soil nutrients, soil microbial diversity, community composition, structure, and networks across the range of KRD progression. Results: Moss biocrusts had a positive effect on all soil nutrients and buffered the negative effects of KRD progression compared to bare soil. Moss biocrusts significantly increased soil microbial richness but had little contribution to diversity and community composition. Both soil bacterial and fungal communities were significantly correlated with total and available phosphorus, total potassium, soil temperature, slope, and altitude. Soil bacterial and fungal communities showed different sensitivities and strategies in face of environmental degradation in KRD-affected ecosystems. Conclusions: Moss biocrust restoration could be used as a supplementary method in promoting ecological restoration in areas undergoing KRD due to their positive effects on soil nutrients and soil microbial richness. Our findings filled a knowledge gap pertaining to the microbial ecology of biocrust in regions experiencing KRD. [ABSTRACT FROM AUTHOR]

Published

2022

30. Characteristics of a pseudolysogenic phage vB_YpM_HQ103 infecting Yersinia pestis.

Author

Wang, Zijian, Yang, Jiao, Yang, Lihua, Zhong, Youhong, and Wang, Peng

Subjects

*YERSINIA pestis, *LIFE cycles (Biology), *LYTIC cycle, *MEMBRANE proteins, *BACTERIOPHAGES, *MICROBIAL ecology

Abstract

• A new Y. pestis phage was isolated and identified. • we identified a pseudolysogenic Y. pestis phage. The phage existed as a plasmid-like at 21 °C and could enter the lytic cycle to release offspring when the temperature increased to 37 °C. • we discovered that the outer membrane protein OmpA on the surface of Y. pestis is one of the receptors for phage HQ103. The plague, caused by Yersinia pestis , is a natural focal disease and the presence of Y. pestis in the environment is a critical ecological concern worldwide. The role of Y. pestis phages in the ecological life cycle of the plague is crucial. Previously, a temperature-sensitive phage named vB_YpM_HQ103 was isolated from plague foci in Yunnan province, China. Upon infecting the EV76 strain of Y. pestis , vB_YpM_HQ103 exhibits lysogenic behavior at 21 °C and lytic behavior at 37 °C. Various methods including continuous passage lysogenic tests, in vitro lysis tests, comparative genomic assays, fluorescence quantitative PCR and receptor identification tests were employed to demonstrate that the lysogenic life cycle of this phage is applicable to wild Y. pestis strains; its lysogeny is pseudolysogenic (carrying but not integrating), allowing it to replicate and proliferate within Y. pestis. Furthermore, we have identified the outer membrane protein OmpA of Y. pestis as the receptor for phage infection. In conclusion, our research provides insight into the characteristics and receptors of a novel Y. pestis phage infection with a pseudolysogenic cycle. The findings of this study enhance our understanding of Y. pestis phages and plague microecology, offering valuable insights for future studies on the conservation and genetic evolution of Y. pestis in nature. [ABSTRACT FROM AUTHOR]

Published

2024

31. Characterization of the bacterial microbiota in different gut and oral compartments of splendid japalure (Japalura sensu lato).

Author

Tian, Zhige, Pu, Hongli, Cai, Dongdong, Luo, Guangmei, Zhao, Lili, Li, Ke, Zou, Jie, Zhao, Xiang, Yu, Min, Wu, Yayong, Yang, Tiankuo, Guo, Peng, and Hu, Xiaoliang

Subjects

*BACTERIAL population, *ANIMAL communities, *GUT microbiome, *MICROBIAL ecology, *BACTERIAL communities, *MICROBIAL communities, *EXTREME environments, *LIZARDS

Abstract

Background: Gut and oral microbes form complex communities and play key roles in co-evolution with their hosts. However, little is understood about the bacterial community in lizards. Results: In this study, we investigated the gut and oral bacterial communities in Japalura sensu lato from Sichuan Province, China, using 16S rRNA gene sequencing. Results showed that Bacteroidota (36.5%) and Firmicutes (32.8%) were the main phyla in the gut, while Proteobacteria, Bacteroidota, Firmicutes, and Actinobacteriota were the dominant phyla in the oral cavity. 16 S rRNA sequencing analysis of fecal samples showed that: (1) Bacteroidota was the most abundant in Japalura sensu lato, which was different from the bacterial community of insectivorous animals; (2) Bacteroidota, Firmicutes, Actinobacteriota, Fusobacteriota, and Cyanobacteria were the most abundant phylum in Japalura sensu lato. (3) Proteobacteria was the dominant phylum in Japalura sensu lato and other domestic insectivorous lizards (Shinisaurus crocodilurus, Phrynocephalus vlangalii, and Takydromus septentrionalis); (4) Comparing with the bacterial community of Shinisaurus crocodilurus, Phrynocephalus vlangalii, Takydromus septentrionalis, Liolaemus parvus, L. ruibali, and Phymaturus williamsi, Desulfobacterota was uniquely present in the gut of Japalura sensu lato. 16 S rRNA sequencing of oral samples showed that Chloroflexi and Deinococcota phyla were enriched in the oral cavity, which may have a significant influence on living in extreme environments. Conclusions: Thus, based on 16 S rRNA sequencing analysis of the community composition of the gut and oral microbiomes, this study firstly represents a foundation for understanding the gut and oral microbial ecology of Japalura sensu lato, and constitutes a detail account of the diversity of the microbiota inhabiting the gut and oral cavity of Japalura sensu lato. Further researches will continue to reveal how gut and oral microbial communities may be impacting the ecology and evolution of lizards. [ABSTRACT FROM AUTHOR]

Published

2022

32. Rare soil bacteria are more responsive in desertification restoration than abundant bacteria.

Author

Pan, Chengchen, Feng, Qi, Li, Yulin, Li, Yuqiang, Liu, Linde, Yu, Xiaoya, and Ren, Shilong

Subjects

SOIL microbiology, DESERTIFICATION, ECOLOGICAL disturbances, MICROBIAL ecology, BACTERIA

Abstract

Soil microbes play key roles in ecosystem functions, especially in the recovery of ecosystems from disturbance, and exploring community assembly under changing environments has long been a central theme in microbial ecology. The response of abundant and rare bacteria in desertified land to restoration is still unclear. Here, we investigated the effects of vegetation restoration on the assemblage patterns of abundant and rare bacteria in soil across the four sandy lands (Hulunbeir, Horqin, Otindag, and Mu Us) in northern China. Our results revealed that abundant bacteria maintained a relatively stable state under restoration, whereas rare taxa were more responsive, indicating the higher resilience of the rare community to change. Our network analysis also showed that restoration promoted destabilizing properties in rare, but not in abundant, bacterial co-occurrence networks in soil. Environmental selection played a key role in abundant and rare community assembly under restoration. Of the two, the rare subcommunity was mainly affected by environmental filtering. The variations in the abundant and rare communities at the sampling sites under restoration were controlled mainly by plant species richness, and stronger effects were observed in the rare taxa. Overall, these results provide new insight into the mechanisms controlling bacterial community assembly in response to vegetation restoration. [ABSTRACT FROM AUTHOR]

Published

2022

33. Effect of g-C3N4 on biodiversity and structure of bacterial community in sediment of Xiangjiang River under tetracycline pressure.

Author

Hu, Xuemei, Peng, Kuan, Chen, Yijun, Chen, Xiaoyong, Liu, Shuguang, Zhao, Yunlin, Wu, Yaohui, and Xu, Zhenggang

Subjects

BACTERIAL communities, RIVER sediments, TETRACYCLINE, TETRACYCLINES, MICROBIAL communities, BACTERIAL population, MICROBIAL diversity

Abstract

Photocatalysts have been widely prepared and used in wastewater treatment. Although the influence of photocatalyst application on survival and activity of organisms has been examined, its impact on composition and diversity of microbial community is not fully understood. In this study, the impact of photocatalyst g-C3N4 (Graphitic carbon nitride) on microbial communities in riverbed sediments polluted by antibiotic tetracycline (TC) was investigated. The sediment samples collected from the Xiangjiang River of China were exposed to different concentrations of TC, g-C3N4 and TC/g-C3N4 and the bacterial community were analyzed by Illumina sequencing. The results showed that the dominant bacterial phyla were Acidobacteriota, Proteobacteria, Actinobacteriota, and Chloroflexi in the study site. When compared to the control treatments, the application of TC, g-C3N4 and TC/g-C3N4 exhibited distinguishable effects on bacterial community structure in sediments. The presence of TC had greater influence on bacterial composition, while g-C3N4 and TC/g-C3N4 had less influence on bacteria. The diversity and richness of microorganisms in sediment increased under g-C3N4 application and reached the highest values when g-C3N4 was 75 mg/kg. The photocatalyst g-C3N4 restored bacterial community diversity affected by TC, reduced the TC residues in aquatic environment, and eliminated the side effects of TC application in sediments. Our study indicated that g-C3N4 was an environmentally friendly photocatalyst with lightly negative effects on microbial community in riverbed sediments, and could be used for effective remediation of TC-contaminated environments. [ABSTRACT FROM AUTHOR]

Published

2022

34. Seasonal variation significantly affected bacterioplankton and eukaryoplankton community composition in Xijiang River, China.

Author

Liu, Qianfu, Lai, Zini, Wang, Chao, Ni, Jiajia, and Gao, Yuan

Subjects

BACTERIOPLANKTON, OXIDATION-reduction potential, PRINCIPAL components analysis, GEOCHEMICAL cycles, SEASONS, COMMUNITIES

Abstract

Both bacterioplankton and eukaryoplankton communities play important roles in the geochemical cycles and energy flows of river ecosystems. However, whether a seasonal change in bacterioplankton and eukaryoplankton communities is synchronous remains unclear. To test the synchronicity and analyze how physical and chemical environmental factors affect these communities, we compared bacterioplankton and eukaryoplankton communities in surface water samples between March (dry season) and June (rainfall season) considering water environmental factors. Our results showed that there was no significant difference in operational taxonomic unit number, Shannon index, and Chao1 index in bacterioplankton and eukaryoplankton communities between March and June. However, principal component analysis showed that the communities were significantly different between the sampling times and sampling sites. Water temperature (WT), oxidation–reduction potential (ORP), water transparency (SD), NO3-N, and NH3 significantly influenced bacterioplankton communities, and WT, SD, ORP, and NH4-N significantly influenced eukaryoplankton communities in the river. These results implied that compared with the sampling sites, sampling times more significantly affected the bacterioplankton and eukaryoplankton river communities by influencing WT, ORP, SD, and nitrogen forms. [ABSTRACT FROM AUTHOR]

Published

2022

35. Screening and Identification of Trichoderma Strains isolated from Natural Habitats in China with Potential Agricultural Applications.

Author

Xue, Ming, Wang, Rui, Zhang, Chongyuan, Wang, Weiwei, Zhang, Fengtao, Chen, Di, Ren, Sen, Manman, Zhang, Hou, Jumei, and Liu, Tong

Subjects

*ANTIFUNGAL agents, *SOILS, *RICE, *MICROBIAL ecology, *CUCUMBERS, *PHYLOGENY, *AGRICULTURE, *FUNGI, *MELONS, *PLANT physiology, *PLANTS, *PLANT roots, *DESCRIPTIVE statistics, *SEEDS, *TOMATOES, *BIOTIC communities

Abstract

Trichoderma spp. are widely distributed in natural habitats and have been evaluated as a potential biocontrol agent (BCA) for disease control and plant growth promotion. In this study, 1308 Trichoderma strains were obtained from the plant rhizosphere soil, above-ground plants, and decaying wood from natural habitats in China. Among them, 49 Trichoderma strains showed a good inhibitory effect, especially against Botrytis cinerea, Fusarium oxysporum, and Colletotrichum gloeosporioides with inhibition rate above 85% in the dual culture test. Among these 49 strains, the 13 strains with broad-spectrum inhibitory effects also significantly promoted the seed germination of five crops (rice, cucumber, tomato, melon, and pakchoi) and root growth of four crop seedlings (watermelon, tomato, eggplant, and chili). Furthermore, these strains showed effective colonization in the rhizosphere and root of cucumber. Trichoderma strains SC012 and NX043 showed the highest chitinase and β-1,3-glucanase activity among all strains. Based on the morphological characterization and phylogenetic analysis of the nuclear ribosomal internal transcribed spacer (ITS) and translation elongation factor 1 (tef1), twelve Trichoderma strains were identified as Trichoderma asperellum and one as Trichoderma afroharzianum. This study suggests that the 13 Trichoderma strains are promising BCAs and could be developed as biofertilizers and biological pesticides for agricultural applications. [ABSTRACT FROM AUTHOR]

Published

2021

36. The Predominance of Proteobacteria and Cyanobacteria in the Cycas dolichophylla Coralloid Roots Revealed by 16S rRNA Metabarcoding.

Author

Zheng, Y., Chiang, T.-Y., Huang, Ch-Li, Feng, X.-Y., Yrjälä, K., and Gong, X.

Subjects

*CYANOBACTERIA, *GENETIC barcoding, *PROTEOBACTERIA, *RIBOSOMAL RNA, *MICROBIAL ecology, *ENDOPHYTIC bacteria

Abstract

The endophytes of plants are receiving increased attention since they have important functions for improving plant growth and fitness, especially in more challenging environmental conditions. The adaptation of cycads, an ancient gymnosperm taxon, to arid and nutrient-limited habitats is thought to be dependent on their symbiosis with nitrogen-fixing Cyanobacteria. We investigated the endophytic community in seeds, taproots, and young and mature coralloid roots of Cycas dolichophylla using 16S rRNA metabarcoding. Geographically distinct populations were studied in China and Vietnam. Higher endophyte diversity was found in Vietnamese populations than in Chinese ones. A significant difference in the bacterial endophytic community was identified between populations of mature coralloid roots from Chinese and Vietnamese samples, with the predominance of Alpha-, Gamma-, and Beta-Proteobacteria in the Vietnamese samples. Moreover, five core endophytic families, Nostocaceae, Burkholderiaceae, Pseudomonadaceae, Enterobacteriaceae, and Rhizobiaceae were revealed among all the samples. This study offers a robust knowledge of cycad microbial ecology and lends guidelines to the investigation of the adaptation mechanism of cycads in arid and nutrient-poor environments. [ABSTRACT FROM AUTHOR]

Published

2021

37. 中国喀斯特天坑演化及植被生态系统研究进展.

Author

蒲高忠, 王柯懿, 莫 凌, 曾丹娟, and 陈霞霞

Subjects

*NATURAL resources, *RESTORATION ecology, *MICROBIAL ecology, *TOURISM impact, *SPECIES diversity, *PLANT communities, *ECOSYSTEMS

Abstract

Karst Tiankengs are one type of negative topography that are of high value for conservation, providing habitats and breeding unique biological resources not found in the surrounding landscape. In recent years, the studies on karst Tiankeng in China has increased our understanding of diverse geological and ecological questions, from the formation and evolution of Tiankeng to species diversity. Based on a systematic review of the previous studies on karst Tiankeng, we reviewed the main advances and new findings, and addressed key topics for future studies. These key findings and topics include the distribution, evolution and vegetation ecology of Tiankeng. We also propose five key areas of focus for future studies:(1)The causes of Tiankeng formation and its vegetation ecology in systematicness, large scale and multidisciplinary collaboration;(2)The effect of biological resources in Tiankeng on ecological restoration of desertification area outside Tiankeng;(3)The distribution of soil microbial community and their interactions with plants in Tiankeng;(4)The impact of environmental change on karst Tiankeng ecosystem;(5)The assessment of the impact of tourism development on Tiankeng vegetation ecology. [ABSTRACT FROM AUTHOR]

Published

2021

38. Stochastic community assembly decreases soil fungal richness in arid ecosystems.

Author

Jiao, Shuo, Zhang, Baogang, Zhang, Guozhuang, Chen, Weimin, and Wei, Gehong

Subjects

*MICROBIAL ecology, *FUNGAL communities, *ECOSYSTEMS, *SOIL fungi, *SOIL surveys, *GRASSLAND soils, *SPECIES diversity

Abstract

Uncovering the linkages between community assembly and species diversity is a fundamental issue in microbial ecology. In this study, a large‐scale (transect intervals of 1257.6 km) cross‐biome soil survey was conducted, which ranged over agricultural fields, forests, wetlands, grasslands and desert, in the arid regions of northwest China. The aim was to investigate the biogeographic distribution, community assembly and species co‐occurrence of soil fungi. The fungal communities in agricultural soils exhibited a steeper distance–decay slope and wider niche breadths, and were more strongly affected by stochastic assembly processes, than fungi in other natural habitats. A strong relationship was revealed between soil fungal richness and community assembly in arid ecosystems, with the influence of stochastic assembly processes decreasing with increasing fungal richness. Moreover, aridity was the most important environmental factor influencing fungal richness, β‐diversity and species co‐occurrence patterns. Specifically, the predicted increase in arid conditions will probably reduce fungal richness and network complexity. These findings represent a considerable advance in linking fungal richness to mechanisms underlying the biogeographic patterns and assembly processes of fungal communities in arid ecosystems. These results can thus be used to forecast species co‐occurrence and diversities pattern of soil fungi under climate aridity and land‐use change scenarios. [ABSTRACT FROM AUTHOR]

Published

2021

39. Response of Soil Microbial Community to Vegetation Reconstruction Modes in Mining Areas of the Loess Plateau, China.

Author

Zhao, Jiao, Ma, Jing, Yang, Yongjun, Yu, Haochen, Zhang, Shaoliang, and Chen, Fu

Subjects

GRASSLAND soils, MICROBIAL communities, SOIL microbial ecology, FUNGAL communities, MINE soils, MICROBIAL ecology, BIOGEOCHEMICAL cycles, SOIL microbiology

Abstract

Vegetation reconstruction and restoration is vital to the health of the mine land ecosystem. Different vegetations might change microbial community structure and function of soil, mediating the biogeochemical cycle and nutrition supply to the soil. To clarify the response of soil microbes to different vegetation reconstruction modes in the mining areas of the Loess Plateau, China, soil microbial community structures and functions were determined by the MiSeq high-throughput sequencing along with PICRUSt2 and FUNGuild tools. The fungal community richness was observed to be the highest in grassland soil and positively correlated with soil organic matter, total nitrogen, and nitrate-nitrogen. The bacterial and fungal community structures were similar in grassland and brushland areas, but were significantly differentiated in the coniferous and broadleaf forest, and the leading factors were soil pH and nitrate-nitrogen. Actinobacteriota, Proteobacteria, and Acidobacteriota were the dominant bacterial phyla under different vegetation reconstruction modes. The dominant phyla of fungi were Ascomycota, Basidiomycota, and Mortierellomycota. Different vegetation reconstruction modes did not affect the bacterial functional communities but shaped different functional groups of fungi. The grassland soil was dominated by saprotrophic fungi, while symbiotrophic fungi dominated the coniferous and broadleaf forests. The results suggested that shifts in vegetation reconstruction modes may alter the mining soil bacterial and fungal community structures and function. These findings improve the understanding of microbial ecology in the reclaimed mine soil and provide a reference for the ecological restoration of fragile mining ecosystems. [ABSTRACT FROM AUTHOR]

Published

2021

40. Bacterial Community Spacing Is Mainly Shaped by Unique Species in the Subalpine Natural Lakes of China.

Author

Liu, Jinxian, Su, Jiahe, Zhang, Meiting, Luo, Zhengming, Li, Xiaoqi, and Chai, Baofeng

Subjects

MICROBIAL ecology, BACTERIAL communities, CLIMATE change, BIOGEOCHEMICAL cycles, LAKES, BACTERIAL diversity, BIOTIC communities

Abstract

Bacterial communities have been described as early indicators of both regional and global climatic change and play a critical role in the global biogeochemical cycle. Exploring the mechanisms that determine the diversity patterns of bacterial communities and how they share different habitats along environmental gradients are, therefore, a central theme in microbial ecology research. We characterized the diversity patterns of bacterial communities in Pipahai Lake (PPH), Mayinghai Lake (MYH), and Gonghai Lake (GH), three subalpine natural lakes in Ningwu County, Shanxi, China, and analyzed the distribution of their shared and unique taxa (indicator species). Results showed that the species composition and structure of bacterial communities were significantly different among the three lakes. Both the structure of the entire bacterial community and the unique taxa were significantly influenced by the carbon content (TOC and IC) and space distance; however, the structure of the shared taxa was affected by conductivity (EC), pH, and salinity. The structure of the entire bacterial community and unique taxa were mainly affected by the same factors, suggesting that unique taxa may be important in maintaining the spatial distribution diversity of bacterial communities in subalpine natural freshwater lakes. Our results provide new insights into the diversity maintenance patterns of the bacterial communities in subalpine lakes, and suggest dispersal limitation on bacterial communities between adjacent lakes, even in a small local area. We revealed the importance of unique taxa in maintaining bacterial community structure, and our results are important in understanding how bacterial communities in subalpine lakes respond to environmental change in local habitats. [ABSTRACT FROM AUTHOR]

Published

2021

41. The bacterial community composition and its environmental drivers in the rivers around eutrophic Chaohu Lake, China.

Author

Shao, Keqiang, Yao, Xin, Wu, Zhaoshi, Jiang, Xingyu, Hu, Yang, Tang, Xiangming, Xu, Qiujin, and Gao, Guang

Subjects

*BACTERIAL communities, *BACTERIAL diversity, *MICROBIAL communities, *AQUATIC ecology, *MICROBIAL ecology, *LAKES, *CHEMICAL oxygen demand

Abstract

Background: Bacterial community play a key role in environmental and ecological processes in river ecosystems. Rivers are used as receiving body for treated and untreated urban wastewaters that brings high loads of sewage and excrement bacteria. However, little is known about the bacterial community structure and functional files in the rivers around the eutrophic Chaohu Lake, the fifth largest freshwater lake in China, has been subjected to severe eutrophication and cyanobacterial blooms over the past few decades. Therefore, understanding the taxonomic and functional compositions of bacterial communities in the river will contribute to understanding aquatic microbial ecology. The main aims were to (1) examine the structure of bacterial communities and functional profiles in this system; (2) find the environmental factors of bacterial community variations. Results: We studied 88 sites at rivers in the Chaohu Lake basin, and determined bacterial communities using Illumina Miseq sequencing of the 16 S rRNA gene, and predicted functional profiles using PICRUSt2. A total of 3,390,497 bacterial 16 S rRNA gene sequences were obtained, representing 17 phyla, and 424 genera; The dominant phyla present in all samples were Bacteroidetes (1.4-82.50 %), followed by Proteobacteria (12.6–97.30 %), Actinobacteria (0.1–17.20 %). Flavobacterium was the most numerous genera, and accounted for 0.12–80.34 % of assigned 16 S reads, followed by Acinetobacter (0.33–49.28 %). Other dominant bacterial genera including Massilia (0.06–25.40 %), Psychrobacter (0-36.23 %), Chryseobacterium (0.01–22.86 %), Brevundimonas (0.01–12.82 %), Pseudomonas (0-59.73 %), Duganella (0.08–23.37 %), Unidentified Micrococcaceae (0-8.49 %). The functional profiles of the bacterial populations indicated an relation with many human diseases, including infectious diseases. Overall results, using the β diversity measures, coupled with heatmap and RDA showed that there were spatial variations in the bacterial community composition at river sites, and Chemical oxygen demand (CODMn) and (NH4+)were the dominant environmental drivers affecting the bacterial community variance. Conclusions: The high proportion of the opportunistic pathogens (Acinetobacter, Massilia, Brevundimonas) indicated that the discharge of sewage without adequate treatment into the rivers around Chaohu Lake. We propose that these bacteria could be more effective bioindicators for long-term sewage monitoring in eutrophic lakes. [ABSTRACT FROM AUTHOR]

Published

2021

42. Tree diversity and functional leaf traits drive herbivore‐associated microbiomes in subtropical China.

Author

Li, Yi, Chesters, Douglas, Wang, Ming‐Qiang, Wubet, Tesfaye, Schuldt, Andreas, Anttonen, Perttu, Guo, Peng‐Fei, Chen, Jing‐Ting, Zhou, Qing‐Song, Zhang, Nai‐Li, Ma, Ke‐Ping, Bruelheide, Helge, Wu, Chun‐Sheng, and Zhu, Chao‐Dong

Subjects

*PLANT diversity, *INSECT diversity, *HOST plants, *BACTERIAL diversity, *PLANT anatomy, *BACTERIAL communities, *PLANT-soil relationships, *LEAF physiology

Abstract

Herbivorous insects acquire microorganisms from host plants or soil, but it remains unclear how the diversity and functional composition of host plants contribute to structuring herbivore microbiomes. Within a controlled tree diversity setting, we used DNA metabarcoding of 16S rRNA to assess the contribution of Lepidoptera species and their local environment (particularly, tree diversity, host tree species, and leaf traits) to the composition of associated bacterial communities. In total, we obtained 7,909 bacterial OTUs from 634 caterpillar individuals comprising 146 species. Tree diversity was found to drive the diversity of caterpillar‐associated bacteria both directly and indirectly via effects on caterpillar communities, and tree diversity was a stronger predictor of bacterial diversity than diversity of caterpillars. Leaf toughness and dry matter content were important traits of the host plant determining bacterial species composition, while leaf calcium and potassium concentration influenced bacterial richness. Our study reveals previously unknown linkages between trees and their characteristics, herbivore insects, and their associated microbes, which contributes to developing a more nuanced understanding of functional dependencies between herbivores and their environment, and has implications for the consequences of plant diversity loss for trophic interactions. [ABSTRACT FROM AUTHOR]

Published

2021

43. SOIL BACTERIAL DIVERSITY AND COMPOSITION OF DIFFERENT FOREST TYPES IN GREATER XING’AN MOUNTAINS, CHINA.

Author

SONG D. D., REN L., LI X., MA D. L., and ZANG S. Y.

Subjects

MICROBIAL ecology, BACTERIAL diversity, NUCLEOTIDE sequencing, BIOGEOCHEMICAL cycles, SOILS, DEEP ecology, FOREST soils

Abstract

Soil microorganisms are an important component of forest ecosystems and have an important role in maintaining ecosystem stability. High-throughput sequencing technology was used to analyze the microbial composition and diversity of three typical forest, including Larix gmelinii forest (LG), Pinus sylvestris forest (PS), and Betula platyphylla forest (BP) in the Greater Xing’an Mountains, China. The results showed that there were significant differences in soil physical and chemical properties (pH, total organic carbon, total nitrogen and total phosphorus) among the three forest types. Soil bacterial alpha diversity (Shannon and Simpson) was not significantly different between forest types, but principal co-ordinates analysis (PCoA) results showed that soil bacterial beta diversity varied significantly (PERMANOVA: R2 = 0.5014, P < 0.01). In the three forest types of soil, the composition of the dominant bacterial phyla was basically the same. The relative abundance of Acidobacteria in BP soil was 34.64%, Proteobacteria was 27.00%, Chloroflexi was 10.32%; the relative abundance of Proteobacteria in LG soil dominant bacteria was 30.62%, Acidobacteria was 18.31%, Actinobacteria was 16.01%; the relative abundance of Proteobacteria in PS soil was 25.54%, Acidobacteria was 24.59%, Actinobacteria was 16.46%. Redundancy analysis (RDA) results showed that pH, TP, TN and TOC were the main environmental factors affecting the soil bacterial community structure. The findings of this study are intended to provide a new perspective on microbial ecology for a deeper understanding of the biogeochemical cycle in forest soils in the Greater Xing’an Mountains, China. [ABSTRACT FROM AUTHOR]

Published

2021

44. Geographic distribution of bacterial communities of inland waters in China.

Author

Wang, Binhao, Hu, Kaiming, Li, Chuqiao, Zhang, Yinan, Hu, Chao, Liu, Zhiquan, Ding, Jiafeng, Chen, Lin, Zhang, Wei, Fang, Jing, and Zhang, Hangjun

Subjects

*BODIES of water, *BACTERIAL communities, *MICROBIAL ecology, *BACTERIAL diversity, *WATER sampling, *RNA analysis

Abstract

Microorganisms are integral to freshwater ecological functions and, reciprocally, their activity and diversity are shaped by the ecosystem state. Yet, the diversity of bacterial community and its driving factors at a large scale remain elusive. To bridge this knowledge gap, we delved into an analysis of 16S RNA gene sequences extracted from 929 water samples across China. Our analyses revealed that inland water bacterial communities showed a weak latitudinal diversity gradient. We found 530 bacterial genera with high relative abundance of hgcI clade. Among them, 29 core bacterial genera were identified, that is strongly linked to mean annual temperature and nutrient loadings. We also detected a non-linear response of bacterial network complexity to the increasing of human pressure. Mantel analysis suggested that MAT, HPI and P loading were the major factors driving bacterial communities in inland waters. The map of taxa abundance showed that the abundant CL500-29 marine group in eastern and southern China indicated high eutrophication risk. Our findings enhance our understanding of the diversity and large-scale biogeographic pattern of bacterial communities of inland waters and have important implications for microbial ecology. [Display omitted] • Inland water bacterial communities showed a weak latitudinal diversity gradient. • Bacterial network complexity exhibited humped patterns as HPI increasing. • Bacterial community composition depended on temperature, nutrient loading, and HPI. • HgcI clade is highly abundant and widely distributed in inland waters. [ABSTRACT FROM AUTHOR]

Published

2024

45. Responses of abundant and rare bacterioplankton to temporal change in a subtropical urban reservoir.

Author

Nyirabuhoro, Pascaline, Gao, Xiaofei, Ndayishimiye, Jean Claude, Xiao, Peng, Mo, Yuanyuan, Ganjidoust, Hossein, and Yang, Jun

Subjects

*BACTERIOPLANKTON, *MICROBIAL ecology, *BIOTIC communities, *MICROBIAL communities, *MUNICIPAL water supply, *DETERMINISTIC processes, *BACTERIAL communities, *RESERVOIR sedimentation

Abstract

Investigation of bacterial community dynamics across different time scales is important for understanding how environmental conditions drive community change over time. Bacterioplankton from the surface waters of a subtropical urban reservoir in southeast China were analyzed through high-frequency sampling over 13 months to compare patterns and ecological processes between short (0‒8 weeks), medium (9‒24 weeks) and long (25‒53 weeks) time intervals. We classified the bacterial community into different subcommunities: abundant taxa (AT); conditionally rare taxa (CRT); rare taxa (RT). CRT contributed > 65% of the alpha-diversity, and temporal change of beta-diversities was more pronounced for AT and CRT than RT. The bacterial community exhibited a directional change in the short- and medium-time intervals and a convergent dynamic during the long-time interval due to a seasonal cycle. Cyanobacteria exhibited a strong succession pattern than other phyla. CRT accounted for > 76% of the network nodes in three stations. The bacteria–environment relationship and deterministic processes were stronger for large sample size at station G (n = 116) than small sample size at stations C (n = 12) and L (n = 22). These findings suggest that a high-frequency sampling approach can provide a better understanding on the time scales at which bacterioplankton can change fast between being abundant or rare, thus providing the facts about environmental factors driving microbial community dynamics. Patterns and processes in alpha- and beta-diversities and community assembly of bacterioplankton differ among different time intervals (short-, medium- and long-time intervals) and different subcommunities (abundant, conditionally rare and rare taxa) in a subtropical urban reservoir, demonstrating the importance of temporal scale and high-frequency sampling in microbial community ecology. [ABSTRACT FROM AUTHOR]

Published

2021

46. Microbial diversity of representative traditional fermented sausages in different regions of China.

Author

Huang, Z., Shen, Y., Huang, X., Qiao, M., He, R.K, and Song, L.

Subjects

*MICROBIAL diversity, *SAUSAGES, *LACTIC acid bacteria, *BACTERIAL diversity, *PATHOGENIC microorganisms

Abstract

Aims: The purpose of this experiment was to study the bacterial diversity of traditional fermented sausages from four typical regions of China (Chengdu, Shenzhen, Changsha and Harbin) and to further evaluate their microbiological safety. Methods and Results: The diversity of the microbiota of the sausages was studied using the Illumina HiSeq platform. The results showed that compared with the highest diversity of fermented bacteria in Guangdong, the bacterial diversity of fermented sausage was the lowest in Sichuan. The percentage of dominant phylum (Firmicutes, Cyanophyta, Proteobacter) were 78·39, 13·13 and 7·14% in SC, 35·47, 30·36 and 28·04% in GD, 54·81, 28·91 and 14·00% in HN, 20·20, 58·16 and 17·31% in HB respectively. The main genus distribution of fermented sausages in different regions is varied, but lactic acid bacteria and cyanobacteria are generally the main ones. Traditional fermented sausages using natural fermentation methods have poor microbiological safety, and pathogenic and spoilage micro‐organisms such as Acinetobacter, Brochothrix and Pseudomonas have been detected in all four regions. Conclusions: The results in this paper provide a microbiota profile of four typical fermented sausages in China. There is a big difference in the microbiota of sausages in different regions, and the good flavour of traditional Chinese fermented sausage is related closely with the abundant microbial resources, however, the natural fermentation method also expose to the product security threats, including spoilage, pathogenic micro‐organisms and biogenic amines, etc. Significance and Impact of the Study: The results would offer guidance for industrial fermented sausage production with certain flavour and also improve the microbial resource utilization, and contribute to the control of harmful micro‐organisms in traditional fermented sausage. [ABSTRACT FROM AUTHOR]

Published

2021

47. Total Arsenic, pH, and Sulfate Are the Main Environmental Factors Affecting the Microbial Ecology of the Water and Sediments in Hulun Lake, China.

Author

Shang, Yongquan, Wu, Xiaoyang, Wei, Qinguo, Dou, Huashan, Wang, Xibao, Chen, Jun, Zhang, Huanxin, Ma, Shengchao, and Zhang, Honghai

Subjects

MICROBIAL ecology, LAKE sediments, BIOGEOCHEMICAL cycles, BACTERIAL diversity, BACTERIAL communities, ARSENIC

Abstract

Bacteria have the metabolic potential to produce a diverse array of secondary metabolites, which have important roles in biogeochemical cycling processes. However, for Hulun Lake and the rivers that enter into it, the bacterial community structures and their effects have not previously been widely studied, limiting our ecological understanding of this habitat. To address this, we have analyzed the bacterial communities in the water ecosystem of the Hulun Lake Basin. 16S rRNA high-throughput sequencing identified 64 phyla, 165 classes, 218 orders, 386 families, and 740 genera of bacteria across all samples. The dominant phyla in the central area of the lake were Proteobacteria, Actinobacteria, Firmicutes, and Cyanobacteria, while in all other areas, Proteobacteria, Actinobacteria, and Bacteroidetes were dominant. The microbial community structures were significantly affected by environmental factors [arsenic (As), pH, and sulfate (SO42–)] and their location in the lake. The species richness in the sediments of Hulun Lake was higher than in the water, and this ecosystem harbored the highest proportion of unclassified sequences, representing unclassified bacteria. This study provides basic data for future investigations into the Hulun lake ecosystem and for water microbial monitoring and protection measures. [ABSTRACT FROM AUTHOR]

Published

2020

48. Molecular Characteristics and Zoonotic Potential of Salmonella Weltevreden From Cultured Shrimp and Tilapia in Vietnam and China.

Author

Hounmanou, Yaovi M. G., Dalsgaard, Anders, Sopacua, Tirzania Frannetta, Uddin, Gazi Md. Noor, Leekitcharoenphon, Pimlapas, Hendriksen, Rene S., Olsen, John E., and Larsen, Marianne Halberg

Subjects

SINGLE nucleotide polymorphisms, SALMONELLA enterica, SALMONELLA, SHRIMPS, TILAPIA, PLASMIDS, GENOMES, BIOSYNTHESIS

Abstract

Salmonella Weltevreden is increasingly reported from aquatic environments, seafood, and patients in several Southeast Asian countries. Using genome-wide analysis, we characterized S. Weltevreden isolated from cultured shrimp and tilapia from Vietnam and China to study their genetic characteristics and relatedness to clinical isolates of S. Weltevreden ST-365. The phylogenetic analysis revealed up to 312 single-nucleotide polymorphism (SNP) difference between tilapia isolates, whereas isolates from shrimp were genetically more closely related. Epidemiologically unrelated isolates from Vietnam were closely related to isolates from China, e.g., 20 SNPs differences between strains 28V and 75C. In comparison with strains from other parts of the world, our environmental isolates predominantly clustered within the continental South Asia lineage, constituted mostly of strains from human stool with as low as seven SNPs difference, e.g., 30V versus Cont_ERR495254. All sequenced isolates were MLST type ST-365 and contained the major virulence-related genes encoded by the Salmonella Pathogenicity Islands 1–5. Ten of the isolates harbored the Inc FII(S) plasmid similar to the virulence genes-mediated plasmid pSPCV of S. Paratyphi C, and one isolate had the Inc Q1 plasmid on the same contig with str A/B, sul 2, and tet A resistance genes similar to the Inc Q1 type, pNUC of S. Typhimurium. A pangenomic analysis yielded 7891 genes including a core genome of 4892 genes, with a closely related accessory genome content between clinical and environmental isolates (Benjamini p > 0.05). In a search for differences that could explain the higher prevalence of S. Weltevreden in aquatic samples, genomes were compared with those of other Salmonella enterica serovars. S. Weltevreden revealed specific regions harboring glp X (Fructose-1;6-bisphosphatase; class II), rfb C (dTDP-4-dehydrorhamnose 3;5-epimerase), and cmt B (PTS Mannitol-specific cryptic phosphotransferase enzyme IIA component) involved in carbohydrate biosynthesis pathways. Our study builds grounds for future experiments to determine genes or pathways that are essential when S. Weltevreden are in aquatic environments and microbial interactions providing survival advantages to S. Weltevreden in such environments. [ABSTRACT FROM AUTHOR]

Published

2020

49. Regional distribution of Christensenellaceae and its associations with metabolic syndrome based on a population-level analysis.

Author

Xiang Li, Zewen Li, Yan He, Pan Li, Hongwei Zhou, and Nianyi Zeng

Subjects

METABOLIC syndrome, CHINESE people, MICROBIAL ecology, BODY mass index, GUT microbiome

Abstract

The link between the gut microbiota and metabolic syndrome (MetS) has attracted widespread attention. Christensenellaceae was recently described as an important player in human health, while its distribution and relationship with MetS in Chinese population is still unknown. This study sought to observe the association between Christensenellaceae and metabolic indexes in a large sample of residents in South China. A total of 4,781 people from the GGMP project were included, and the fecal microbiota composition of these individuals was characterized by 16S rRNA sequencing and analyzed the relation between Christensenellaceae and metabolism using QIIME (Quantitative Insight Into Microbial Ecology, Version 1.9.1). The results demonstrated that microbial richness and diversity were increased in the group with a high abundance of Christensenellaceae, who showed a greater complexity of the co- occurrence network with other bacteria than residents who lacked Christensenellaceae. The enriched bacterial taxa were predominantly represented by Oscillospira, Ruminococ- caceae, RF39, Rikenellaceae and Akkermansia as the Christensenellaceae abundance increased, while the abundances of Veillonella, Fusobacterium and Klebsiella were significantly reduced. Furthermore, Christensenellaceae was negatively correlated with the pathological features of MetS, such as obesity, hypertriglyceridemia and body mass index (BMI). We found reduced levels of lipid biosynthesis and energy metabolism pathways in people with a high abundance of Christensenellaceae, which may explain the negative relationship between body weight and Christensenellaceae. In conclusion, we found a negative correlation between Christensenellaceae and MetS in a large Chinese population and reported the geographical distribution of Christensenellaceae in the GGMP study. The association data from this population-level research support the investigation of strains within Christensenellaceae as potentially beneficial gut microbes. [ABSTRACT FROM AUTHOR]

Published

2020

50. Contrast diversity patterns and processes of microbial community assembly in a river-lake continuum across a catchment scale in northwestern China.

Author

Tang, Xiangming, Xie, Guijuan, Shao, Keqiang, Hu, Yang, Cai, Jian, Bai, Chengrong, Gong, Yi, and Gao, Guang

Subjects

*MICROBIAL communities, *MICROBIAL ecology, *ECOLOGICAL succession, *AQUATIC ecology, *TOTAL suspended solids, *LAKES, *WATERSHEDS

Abstract

Background: Microorganisms in rivers and lakes are essential for nutrient recycling in aquatic ecosystems. Understanding the ecological processes shaping microbial communities is of crucial importance for aquatic microbial ecology and biogeography. However, the diversity of microorganisms and the forces that control this diversity are poorly understood. This is particularly true within the framework of the river-lake continuum in arid regions. Results: Using a whole catchment-sampling effort, we explored biogeographical patterns and mechanisms of microbial community (bacteria and archaea) assembly within the catchment of the largest inland once freshwater lake (Lake Bosten) in China. Water samples from headstream tributaries, the mainstream of the River Kaidu to downstream Lake Bosten were characterized using amplicon sequencing of 16S rRNA genes. Higher α-diversity was found in mainstream of River Kaidu and in the tributaries compared with Lake Bosten. And the microbial community composition was also significantly different between the lake and its connected river habitats. Canonical correspondence analysis demonstrated that salinity and total suspended solids were the most important environmental factors shaping the community variations. Overall, pure environmental and pure spatial factors explained 13.7 and 5.6% of the community variation, respectively, while 32.0% of the variation was explained by combined environmental and spatial variables. These observations suggested that spatially structured environmental variations mainly shaped the microbial biogeography in this region. Both deterministic and stochastic processes influenced the microbial community assembly in river and lake habitats, and the stochastic pattern was particularly pronounced for microbiome in river habitat. Co-occurrence network analysis revealed more abundant and complicated correlations among frequently occurred taxa in lake habitat compared with the river habitat, implying that ecological multispecies interactions (e.g., competition) shaped lake microbial community structures. Conclusions: Our findings demonstrate an ecological succession along the river-lake continuum of microbial communities across the largest inland once freshwater lake basin in China, and highlight the effects of spatially structured environmental factors on regional microbial β-diversity and species interactions on local community assembly. [ABSTRACT FROM AUTHOR]

Published

2020