Responses of bacterial community structure and denitrifying bacteria in biofilm to submerged macrophytes and nitrate

Zhang, Songhe; Pang, Si; Wang, Peifang; Chao, Wang; Guo, Chuling; Addo, Felix Gyawu; Li, Yang

doi:10.1038/srep36178

Cited by 78 publications

(45 citation statements)

References 53 publications

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“…Compared with conventional denitrifying bacteria, Flavobacterium species can grow well and exhibit denitrification activity under aerobic conditions. Moreover, most of these strains are able to degrade organic matter via heterotrophic nitrification and metabolic activities [34,35]. In the present study, we found that Limnohabitans sp.…”

Section: Discussionsupporting

confidence: 53%

Dynamics of Bacterial Community Diversity and Structure in the Terminal Reservoir of the South-To-North Water Diversion Project in China

Jia

Liu

et al. 2018

Water

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Abstract:The South-to-North Water Diversion Project (SNWDP) is the largest water transfer project in the world, and its purpose is to relax water constraints in a region facing severe water scarcity. Bacterial communities from these reservoirs are important to human health, and analyzing their diversity and structure is crucial to water safety. Here, we investigated the dynamics of bacterial communities and their relationship with environmental parameters in the terminal reservoir (Miyun Reservoir) of the Middle Route of the SNWDP by high-throughput sequencing technology. Our results showed that Firmicutes, Proteobacteria, Cyanobacteria and Bacterioidetes were the most abundant phyla in the water column, and the community composition fluctuated seasonally. Moreover, the detected diversity of the bacterial community composition provided novel insights into the ongoing biogeochemical processes. The temperature was positively correlated with the dominant bacteria, with other factors, including the total dissolved solids, total phosphorus, dissolved oxygen and total nitrogen, shaping the structure and distribution of the microbial community. Furthermore, the metagenome showed broad phylogenetic diversity, indicating that organisms were involved in multiple essential environmental processes. This work is important for building a database to understand how microbial communities change after water transfers.

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Section: Discussionsupporting

confidence: 53%

Dynamics of Bacterial Community Diversity and Structure in the Terminal Reservoir of the South-To-North Water Diversion Project in China

Jia

Liu

et al. 2018

Water

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“…Furthermore, formerly reported differences in phosphate concentrations (Hafouzov, ) cannot be supported by our data. Interestingly, nitrate, which we hypothesized would influence bacterial communities, is negatively correlated with strontium but had no significant effect on either the composition or diversity of bacterial communities, which is in contrast to results reported from other studies (Ben Maamar et al., ; Carrino‐Kyker, Smemo, & Burke, ; Ibekwe, Ma, & Murinda, ; Turlapati et al., ; Zhang et al., ). Nitrate might thus either not be a discriminating factor for the variation in BCC, or the effect of strontium overrides the effect of nitrate.…”

Section: Discussioncontrasting

confidence: 99%

Do composition and diversity of bacterial communities and abiotic conditions of spring water reflect characteristics of groundwater ecosystems exposed to different agricultural activities?

2018

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Modern agricultural practices have undeniably increased global food production. On the other hand, agricultural practices not only lead to a degradation of natural ecosystems but also affect the functioning of ecosystems and the related services they provide. Even though impacts of anthropogenic activities vary across ecosystems, freshwater ecosystems are among those affected to a higher degree. In comparison to surface water ecosystems, groundwater ecosystems are less affected by anthropogenic pollutants, as the overlaying soil retains organic and inorganic substances. However, it has become evident that the excessive use of fertilizers has led to the eutrophication of many aquifers. Bacterial communities, which significantly contribute to the cycling of matter due to their metabolic capacities, are prone to environmental perturbations, and structural variation of bacterial communities may consequently affect the functioning of groundwater ecosystems. Our present paper intends to evaluate the impact of anthropogenic activities on environmental conditions as well as on the structural properties of bacterial communities in groundwater. We repeatedly sampled emerging groundwater at five spring sites belonging to different catchments and determined the concentration of abiotic variables as well as the diversity and composition of bacterial communities on a local scale. We hypothesized that anthropogenic activities influence the concentration of abiotic variables, especially of nitrate, as well as the composition and diversity of bacterial communities in groundwater. Our results show that underground spring catchment areas only slightly differ regarding the concentration of abiotic variables as well as the structure of bacterial communities. Furthermore, abiotic variables, presumably influenced by anthropogenic activities, do not correlate with the diversity and composition of bacterial communities. Although supported only by circumstantial evidence, we suggest that upwelling groundwater from the deeper aquifer affects the diversity and composition of bacterial communities, and we argue that bacterial communities act as useful indicators for environmental changes.

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“…Among the postulated roles of the most abundant bacteria in morel substrates, members from the genus Pseudomonas are posited to be involved in morel fructification as further discuss in next section (Liu et al, 2017;Noble et al, 2009). Other dominant genera from the phyla Proteobacteria, Geobacter and Rhodoplanes, could help to degrade organic compounds into carbon sources available for the morels (Berlemont and Martiny, 2015) and enhance the availability of metal ions such as iron and manganese for fungi and plants through metal-reducing activity and siderophore production (Jin et al, 2013;Kügler et al, 2019) or simply they are denitrifying bacteria that thrive in the presence of fungal exudates (Zhang et al, 2016a). Species from the phylum Acidobacteria have been described to play an important role in maintaining the acidic pH value of the soil and therefore, also influence the uptake of trace elements from substrates, whereas bacteria belonging to the phylum Bacteroidetes have been reported to have the capacity to degrade cellulose and chitin (Liu et al, 2017).…”

Section: Cultivated Ascomycetes On Soilmentioning

confidence: 99%

Growing edible mushrooms: a conversation between bacteria and fungi

Carrasco

Preston

2019

Environmental Microbiology

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Summary Mushroom cropping consists of the development and fructification of different fungal species in soil or selective substrates that provide nutrients and support for the crop. The microorganisms present in these environments strongly influence, and in some cases are required for the growth and fructification of cultivated mushrooms. Some fungi such as truffles and morels form ectomycorrhizal associations with host plants. For these fungi, helper bacteria play an important role in the establishment of plant‐fungal symbioses. Selective processes acting on the microbiota present in substrates and soils determine the composition of the microbiota inhabiting the fruit bodies or interacting with fungal hyphae, and both configure the mushroom holobiont, understood as the fungus plus associated microorganisms. Here, we review current knowledge regarding the cross‐talk between bacteria and fungi during mushroom cultivation. We highlight the potential use of bioinoculants as agronomical amendments to increase mushroom productivity through growth promotion or as biocontrol agents to control pests and diseases.

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Responses of bacterial community structure and denitrifying bacteria in biofilm to submerged macrophytes and nitrate

Cited by 78 publications

References 53 publications

Dynamics of Bacterial Community Diversity and Structure in the Terminal Reservoir of the South-To-North Water Diversion Project in China

Dynamics of Bacterial Community Diversity and Structure in the Terminal Reservoir of the South-To-North Water Diversion Project in China

Do composition and diversity of bacterial communities and abiotic conditions of spring water reflect characteristics of groundwater ecosystems exposed to different agricultural activities?

Growing edible mushrooms: a conversation between bacteria and fungi

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