Bacterial community structure at defined locations ofPinus sylvestris-Suillus bovinusandPinus sylvestris-Paxillus involutusmycorrhizospheres in dry pine forest humus and nursery peat

1998 ◽  
Vol 44 (6) ◽  
pp. 499-513 ◽  
Author(s):  
Sari Timonen ◽  
Kirsten S Jørgensen ◽  
Kielo Haahtela ◽  
Robin Sen
Keyword(s):  
Carbon Source ◽  
Pinus Sylvestris ◽  
Bacterial Communities ◽  
Bacterial Species ◽  
Pine Forest ◽  
Paxillus Involutus ◽  
Carbon Source Utilization ◽  
Associated Bacteria ◽  
Suillus Bovinus ◽  
Forest Humus

Bacteria were isolated and characterized from uncolonized soil, nonmycorrhizal and mycorrhizal short roots, and soil-colonizing external mycelium from intact Pinus sylvestris - Suillus bovinus and Pinus sylvestris - Paxillus involutus mycorrhizospheres developed in microcosms containing dry pine forest humus or nursery peat. Total numbers of colony-forming units (CFU/mg dry weight) in the different locations from all ectomycorrhizospheres indicated an overall bacterial-enrichment gradient towards the roots, whereas sporeformers were more evenly distributed. Fluorescent pseudomonads were commonly isolated from all mycorrhizosphere locations in nursery peat, but they were nearly absent from the forest humus community. In contrast, sporeformers were more abundant at all locations in the latter growth substrate. The bacterial species composition of forest and nursery mycorrhizospheres was clearly divergent when characterized according to their carbon source utilization patterns in Biolog®GN or GP microplates. Factorial-designed ANOVA of a principal component analysis of the carbon source utilization data showed significant differences between isolates from the two soil types and, to a lesser extent, between S. bovinus and Paxillus involutus mycorrhizospheres. Bacterial communities from mycorrhizospheres and uncolonized soil were distinguished by their preferential utilization of carbohydrates and organic and amino acids, respectively. Suillus bovinus associated bacteria appeared to favour mannitol and Paxillus involutus associated bacteria appeared to favour fructose as carbon sources. This study demonstrates the combined effect of soil type, fungal symbiont, and precise location on bacterial communities associated with Pinus sylvestris ectomycorrhizospheres.Key words: Biolog, carbon source utilization, ectomycorrhiza, Scots pine, soil bacteria.

Effects ofPinus sylvestrisroot growth and mycorrhizosphere development on bacterial carbon source utilization and hydrocarbon oxidation in forest and petroleum-contaminated soils

2000 ◽  
Vol 46 (5) ◽  
pp. 451-464 ◽  
Author(s):  
Jussi Heinonsalo ◽  
Kirsten S Jørgensen ◽  
Kielo Haahtela ◽  
Robin Sen
Keyword(s):  
Carbon Source ◽  
Bacterial Community ◽  
Correspondence Analysis ◽  
Contaminated Soil ◽  
Contaminated Soils ◽  
Bacterial Communities ◽  
Mycorrhizal Fungi ◽  
Mineral Oil ◽  
Carbon Source Utilization ◽  
Forest Humus

The hypothesis that Pinus sylvestris L. root and mycorrhizosphere development positively influences bacterial community-linked carbon source utilization, and drives a concomitant reduction in mineral oil levels in a petroleum hydrocarbon- (PHC-) contaminated soil was confirmed in a forest ecosystem-based phytoremediation simulation. Seedlings were grown for 9 months in large petri dish microcosms containing either forest humus or humus amended with cores of PHC-contaminated soil. Except for increased root biomass in the humus/PHC treatment, there were no other significant treatment-related differences in plant growth and needle C and N status. Total cell and culturable bacterial (CFU) densities significantly increased in both rhizospheres and mycorrhizospheres that actively developed in the humus and PHC-contaminated soil. Mycorrhizospheres (mycorrhizas and extramatrical mycelium) supported the highest numbers of bacteria. Multivariate analyses of bacterial community carbon source utilization profiles (Biolog GN microplate) from different rhizosphere, mycorrhizosphere, and bulk soil compartments, involving principal component and correspondence analysis, highlighted three main niche-related groupings. The respective clusters identified contained bacterial communities from (i) unplanted bulk soils, (ii) planted bulk PHC and rhizospheres in PHC-contaminated soils, and (iii) planted bulk humus and rhizosphere/mycorrhizosphere-influenced humus, and mycorrhizosphere-influenced PHC contaminated soil. Correspondence analysis allowed further identification of amino acid preferences and increased carboxylic/organic acid preferences in rhizosphere and mycorrhizosphere compartments. Decreased levels of mineral oil (non-polar hydrocarbons) were detected in the PHC-contaminated soil colonized by pine roots and mycorrhizal fungi. These data further support our view that mycorrhizosphere development and function plays a central role in controlling associated bacterial communities and their degradative activities in lignin-rich forest humus and PHC-contaminated soils.Key words: Scots pine, mycorrhizosphere, bacterial community, Biolog, carbon source utilization, non-polar hydrocarbons, phytoremediation.

Bacterial colonization patterns of intactPinus sylvestrismycorrhizospheres in dry pine forest soil: an electron microscopy study

1997 ◽  
Vol 43 (11) ◽  
pp. 1017-1035 ◽  
Author(s):  
E. -L. Nurmiaho-Lassila ◽  
S. Timonen ◽  
K. Haahtela ◽  
R. Sen
Keyword(s):  
Electron Microscopy ◽  
Pinus Sylvestris ◽  
Forest Soil ◽  
Bacterial Colonization ◽  
Microscopy Study ◽  
Electron Microscopy Study ◽  
Paxillus Involutus ◽  
Intracellular Bacteria ◽  
Bacterial Populations ◽  
Suillus Bovinus

The bacterial populations associated with different plant and fungal habitats of intact Pinus sylvestris – Suillus bovinus or Pinus sylvestris – Paxillus involutus ectomycorrhizospheres grown in natural forest soil were examined by scanning and transmission electron microscopy. Surfaces of nonmycorrhizal Pinus sylvestris roots hosted large numbers of morphologically distinct bacteria. Bacteria were detected on the mantle surfaces and at inter- and intra-cellular locations in the mantle and Hartig net of Suillus bovinus mycorrhizas. The fungal strands were colonized by only a few bacteria unlike the outermost external fine hyphae on which extensive monolayers of bacteria were attached. The mycorrhizas of Paxillus involutus were mostly devoid of bacteria, but the intact external mycelium supported both bacterial colonies and solitary bacteria. Intracellular bacteria were not present in Paxillus involutus hyphae. In both mycorrhizal systems, bacterial aggregation and attachment to hyphae were mediated with electron-dense or -translucent material. Our study shows that the Pinus sylvestris mycorrhizospheres formed by two different ectomycorrhizal fungi are clearly dissimilar habitats for mycorrhizosphere-associated bacteria. Additionally, the spatially and physiologically defined mycorrhizosphere habitats were shown to host distinct populations of bacteria.Key words: ectomycorrhiza, intracellular bacteria, Paxillus involutus, soil bacteria, Suillus bovinus.

Effects of inoculation with organic-phosphorus-mineralizing bacteria on soybean (Glycine max) growth and indigenous bacterial community diversity

2017 ◽  
Vol 63 (5) ◽  
pp. 392-401 ◽  
Author(s):  
Wei Sun ◽  
Xun Qian ◽  
Jie Gu ◽  
Xiao-Juan Wang ◽  
Yang Li ◽  
...  
Keyword(s):  
Glycine Max ◽  
Carbon Source ◽  
Bacterial Community ◽  
Bacterial Communities ◽  
Organic Phosphorus ◽  
Community Diversity ◽  
Carbon Source Utilization ◽  
Soil Bacterial Communities ◽  
Bacterial Community Diversity ◽  
Soil Bacterial

Three different organic-phosphorus-mineralizing bacteria (OPMB) strains were inoculated to soil planted with soybean (Glycine max), and their effects on soybean growth and indigenous bacterial community diversity were investigated. Inoculation with Pseudomonas fluorescens Z4-1 and Brevibacillus agri L7-1 increased organic phosphorus degradation by 22% and 30%, respectively, compared with the control at the mature stage. Strains P. fluorescens Z4-1 and B. agri L7-1 significantly improved the soil alkaline phosphatase activity, average well color development, and the soybean root activity. Terminal restriction fragment length polymorphism analysis demonstrated that P. fluorescens Z4-1 and B. agri L7-1 could persist in the soil at relative abundances of 2.0%–6.4% throughout soybean growth. Thus, P. fluorescens Z4-1 and B. agri L7-1 could potentially be used in organic-phosphorus-mineralizing biofertilizers. OPMB inoculation altered the genetic structure of the soil bacterial communities but had no apparent influence on the carbon source utilization profiles of the soil bacterial communities. Principal components analysis showed that the changes in the carbon source utilization profiles of bacterial community depended mainly on the plant growth stages rather than inoculation with OPMB. The results help to understand the evolution of the soil bacterial community after OPMB inoculation.

scholarly journals Toxicity of ciprofloxacin and sulfamethoxazole to marine periphytic algae and bacteria

2014 ◽  
Author(s):  
Henrik Johansson ◽  
Lisa Janmar ◽  
Thomas Backhaus
Keyword(s):  
Carbon Source ◽  
Bacterial Species ◽  
Control Level ◽  
Algal Species ◽  
Total Carbon ◽  
Static System ◽  
Utilization Pattern ◽  
Carbon Source Utilization ◽  
Swedish West Coast ◽  
Significant Difference

Ciprofloxacin and sulfamethoxazole are two antibiotics commonly detected in the aquatic environment, but information on their toxicity towards natural microbial communities is largely absent. In particular no data are available for marine microorganisms. Aim of the current study was therefore to evaluate the chronic toxicity of ciprofloxacin and sulfamethoxazole on natural marine biofilms (periphyton), a complex ecological community comprising a variety of bacterial and algal species. The biofilms were sampled along the Swedish west coast and subsequently exposed over 4 days in a semi-static system to a concentration series of each antibiotic. Effects on the bacterial part of the periphyton community were assessed using Biolog Ecoplates, reflecting total respiration and functional diversity of the bacterial community. Exposure to either antibiotic resulted in a clear concentration-response relationship with EC10 and EC50 values for the inhibition of total carbon source utilization of 46.1 nmol/L and 490.7 nmol/L for ciprofloxacin, respectively 56 and 1073 nmol/L for sulfamethoxazole. The NOEC for ciprofloxacin was 26 nmol/L, with a minimum significant difference of 19.24%, for sulfamethoxazole it was 140 nmol/L with a minimum significant difference of 14%. Multivariate data exploration of the whole carbon source utilization pattern confirmed these results. The data indicate that sulfamethoxazole leads to a general decrease in carbon source utilization, while ciprofloxacin exposure leads to a re-arrangement of the carbon-utilization pattern in the region of 20-50% effect. This corresponds with the higher specificity of ciprofloxacin for certain bacterial species. Effects on the algal part of the communities were evaluated by analyzing the amount and composition of photosynthetic pigments, and neither ciprofloxacin nor sulfamethoxazole caused any inhibitory effects up to the maximum tested concentration of 9 000 nmol/L. However, sulfamethoxazole exposure did lead to a significant stimulation (75% above control level) of the total pigment content of the biofilm already at the lowest tested concentration of 5 nmol/L. The stimulation then decreased with increasing concentrations to finally return to control level at 3 000 nmol/L. No shifts in the relative pigment composition were observed, indicating a generally increased algal biomass without major shifts in community composition.

scholarly journals Analysis of the Dynamics of Bacterial Communities in the Rhizosphere of the Chrysanthemum via Denaturing Gradient Gel Electrophoresis and Substrate Utilization Patterns

1998 ◽  
Vol 64 (12) ◽  
pp. 4950-4957 ◽  
Author(s):  
Bernadette M. Duineveld ◽  
Alexandre S. Rosado ◽  
Jan Dirk van Elsas ◽  
Johannes A. van Veen
Keyword(s):  
Carbon Source ◽  
Bacterial Communities ◽  
Gel Electrophoresis ◽  
Metabolic Profile ◽  
Sole Carbon Source ◽  
Denaturing Gradient Gel Electrophoresis ◽  
Root Tip ◽  
Carbon Source Utilization ◽  
Gradient Gel Electrophoresis ◽  
Sole Carbon Source Utilization

ABSTRACT In order to gain a better understanding of the spatial and temporal dynamics of bacterial communities of the rhizosphere of the chrysanthemum, two complementary methods were used: a molecular bacterial community profiling method, i.e., 16S rRNA gene-based PCR followed by denaturing gradient gel electrophoresis (DGGE), and an agar plate method in which 11 sole-carbon-source utilization tests were used. The DGGE patterns showed that the bacterial communities as determined from direct rhizosphere DNA extracts were largely stable along developing roots of the chrysanthemum, with very little change over time or between root parts of different ages. The patterns were also similar to those produced with DNA extracts obtained from bulk soil samples. The DGGE patterns obtained by using microbial colonies from dilution plates as the source of target DNA were different from those found with the direct DNA extracts. Moreover, these patterns showed differences among plant replicates but also among replicate plates. Results obtained with the sole-carbon-source utilization tests indicated that the metabolic profile of the bacterial communities in the rhizosphere of the root tip did not change substantially during plant growth. This suggests selective development of specific bacterial populations by the presence of a root tip. On the other hand, the metabolic profile of bacterial communities in the rhizosphere of the root base changed during plant growth. With eight sole-carbon-source utilization tests, a significant effect of the development stage of the plant on the number of bacteria which were able to grow on these carbon sources was observed.

scholarly journals Toxicity of ciprofloxacin and sulfamethoxazole to marine periphytic algae and bacteria

2014 ◽  
Author(s):  
Henrik Johansson ◽  
Lisa Janmar ◽  
Thomas Backhaus
Keyword(s):  
Carbon Source ◽  
Bacterial Species ◽  
Control Level ◽  
Algal Species ◽  
Total Carbon ◽  
Static System ◽  
Utilization Pattern ◽  
Carbon Source Utilization ◽  
Swedish West Coast ◽  
Significant Difference

Ciprofloxacin and sulfamethoxazole are two antibiotics commonly detected in the aquatic environment, but information on their toxicity towards natural microbial communities is largely absent. In particular no data are available for marine microorganisms. Aim of the current study was therefore to evaluate the chronic toxicity of ciprofloxacin and sulfamethoxazole on natural marine biofilms (periphyton), a complex ecological community comprising a variety of bacterial and algal species. The biofilms were sampled along the Swedish west coast and subsequently exposed over 4 days in a semi-static system to a concentration series of each antibiotic. Effects on the bacterial part of the periphyton community were assessed using Biolog Ecoplates, reflecting total respiration and functional diversity of the bacterial community. Exposure to either antibiotic resulted in a clear concentration-response relationship with EC10 and EC50 values for the inhibition of total carbon source utilization of 46.1 nmol/L and 490.7 nmol/L for ciprofloxacin, respectively 56 and 1073 nmol/L for sulfamethoxazole. The NOEC for ciprofloxacin was 26 nmol/L, with a minimum significant difference of 19.24%, for sulfamethoxazole it was 140 nmol/L with a minimum significant difference of 14%. Multivariate data exploration of the whole carbon source utilization pattern confirmed these results. The data indicate that sulfamethoxazole leads to a general decrease in carbon source utilization, while ciprofloxacin exposure leads to a re-arrangement of the carbon-utilization pattern in the region of 20-50% effect. This corresponds with the higher specificity of ciprofloxacin for certain bacterial species. Effects on the algal part of the communities were evaluated by analyzing the amount and composition of photosynthetic pigments, and neither ciprofloxacin nor sulfamethoxazole caused any inhibitory effects up to the maximum tested concentration of 9 000 nmol/L. However, sulfamethoxazole exposure did lead to a significant stimulation (75% above control level) of the total pigment content of the biofilm already at the lowest tested concentration of 5 nmol/L. The stimulation then decreased with increasing concentrations to finally return to control level at 3 000 nmol/L. No shifts in the relative pigment composition were observed, indicating a generally increased algal biomass without major shifts in community composition.

scholarly journals Effect of Different Carbon Sources on Community Composition of Bacterial Enrichments from Soil

2005 ◽  
Vol 71 (11) ◽  
pp. 6776-6783 ◽  
Author(s):  
Boris Wawrik ◽  
Lee Kerkhof ◽  
Jerome Kukor ◽  
Gerben Zylstra
Keyword(s):  
Carbon Source ◽  
Community Composition ◽  
Bacterial Communities ◽  
Bacterial Species ◽  
Carbon Sources ◽  
Soil Heterogeneity ◽  
Community Change ◽  
Garden Soil ◽  
Small Component ◽  
Isolation Techniques

ABSTRACT Soil is a highly heterogeneous matrix, which can contain thousands of different bacterial species per gram. Only a small component of this diversity (maybe <1%) is commonly captured using standard isolation techniques, although indications are that a larger proportion of the soil community is in fact culturable. Better isolation techniques yielding greater bacterial diversity would be of benefit for understanding the metabolic activity and capability of many soil microorganisms. We studied the response of soil bacterial communities to carbon source enrichment in small matrices by means of terminal restriction fragment length polymorphism (TRFLP) analysis. The community composition of replicate enrichments from soil displayed high variability, likely attributable to soil heterogeneity. An analysis of TRFLP data indicated that enrichment on structurally similar carbon sources selected for similar bacterial communities. The same analysis indicated that communities first enriched on glucose or benzoate and subsequently transferred into medium containing an alternate carbon source retained a distinct community signature induced by the carbon source used in the primary enrichment. Enrichment on leucine presented a selective challenge that was able to override the imprint left by primary enrichment on acetate. In a time series experiment community change was most rapid 18 hours after inoculation, corresponding to exponential growth. Community composition did not stabilize even 4 days after secondary enrichment. Four different soil types were enriched on four different carbon sources. TRFLP analysis indicated that in three out of four cases communities enriched on the same carbon source were more similar regardless of which soil type was used. Conversely, the garden soil samples yielded similar enrichment communities regardless of the enrichment carbon source. Our results indicate that in order to maximize the diversity of bacteria recovered from the environment, multiple enrichments should be performed using a chemically diverse set of carbon sources.

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