Staphylococci in Competition: II. Effect of Total Numbers and Proportion of Staphylococci in Mixed Cultures on Growth in Artificial Culture Medium

In studies carried on in bacteriological media with selected cultures, definite repressive effects were noted on the growth of the Staphylococcus population by a mixture of saprophytic, psychrophilic bacterial species. This repressive effect became more pronounced as the relative proportion of the bacterial population which was staphylococcal became smaller. A varied saprophytic bacterial flora of some numbers apparently would offer definite protection to foods through repression of staphylococcal growth and by rendering the food inedible before the rise of appreciable numbers of staphylococci. It would appear that at the optimal temperature for staphylococcal growth, staphylococci could multiply rapidly in the mixed population due to the comparative shortness of the generation time of this species and because of the lengthened lag phase of the saprophytic bacterial species at this elevated temperature, especially when only cultures having psychrophilic characteristics were present. This temperature is substantially above that encountered in practical experience. With the passage of time, the staphylococcal population was completely overgrown by the saprohytes present. This effect might be eliminated in the presence of psychrophilic and mesophilic, saprophytic species. The repressive effect of competition by saprophytic, psychrophilic organisms is extremely effective up to room temperature on the staphylococcal population. Even when significant staphylococcal populations were achieved in the artificial media, such tremendous numbers of saprophytes were obtained either earlier or at the same time so that a frozen food containing this population would be organoleptically unacceptable due to the degradative action of enzymes from the saprophytic psychrophile population.     

Vertical Distribution of Bacteria in Forest Lakes of Karelia

Biology Bulletin - Abstract—The total abundance of bacteria, the number of saprophytic, oligotrophic, and sulfate-reducing microorganisms, the shapes of bacterial cells, the primary and...     

Isolation and Preliminary Characterization of Bacteriophages for Bdellovibrio bacteriovorus

Ten bacteriophages that attack and lyse saprophytic strains of Bdellovibrio bacteriovorus were isolated. Morphological, serological, and host-range studies revealed that there were four different bdellovibrio phages present among the isolates. One of the phages lysed a strain of B. bacteriovorus that requires the presence of a suitable bacterial host for growth. The phage attached to the bdellovibrio cells in the absence of the bacterial host cells; lysis occurred only in the presence of host cells. The 19 saprophytic bdellovibrio strains employed in the phage host-range studies were grouped on the basis of their susceptibility to phage lysis.     

Symbiosis-stage associated alterations in quorum sensing autoinducer molecules biosynthesis in Sinorhizobium meliloti

Sinorhizobium meliloti strains use several N-acylhomoserine lactone (AHL) autoinducers to sense the population density during saprophytic growth. Using a sensitive gfp-based AHL biosensor system, we show that synthesis of short-chain AHL molecules is inhibited (or significantly diminished) during the symbiotic phase of growth and is undetectable in the nitrogen fixing bacteroids. In the saprophytic zone V of nodules occupied by intensively proliferating vegetative forms of rhizobia, AHL production recommenced and bright-green fluorescence was observed concomitantly with increasing population density.     

The Effect of Pseudomonas putida Colonization on Root Surface Peroxidase

Increased activities of peroxidase and indole 3-acetic acid (IAA) oxidase were detected on root surfaces of bean (Phaseolus vulgaris) seedlings colonized with a soil saprophytic bacterium, Pseudomonas putida. IAA oxidase activity increased over 250-fold and peroxidase 8-fold. Enhancement was greater for 6-day-old than for 4- or 8-day-old inoculated plants No IAA oxidase or peroxidase activities were associated with the bacterial cells. Native polyacrylamide gel electrophoresis demonstrated that washes of P. putida-inoculated roots contained two zones of peroxidase activity. Only the more anodic bands were detected in washes from noninoculated roots. Ion exchange and molecular sizing gel chromatography of washes from P. putida-colonized roots separated two fractions of peroxidase activity. One fraction corresponded to the anodic bands detected in washes of P. putida inoculated and in noninoculated roots. A second fraction corresponded to the less anodic zone of peroxidase, which was characteristic of P. putida-inoculated plants. This peroxidase had a higher IAA oxidase to peroxidase ratio than the more anodic, common enzyme. The changes in root surface peroxidases caused by colonization by a saprophytic bacterium are discussed with reference to plant-pathogen interactions.     

Effectiveness of bioremediation for oil-polluted Antarctic seawater

The effectiveness of a specific fertiliser (INIPOL EAP 22) addition on bioremediation of oil-contaminated Antarctic coastal seawater was determined in the “Terre Adelie” area. Mesocosm studies were conducted to evaluate the effects of “Arabian light” crude oil contamination on coastal bacterioplanktonic communities. After oil addition, regular surveys of the bacterial changes of the oil-contaminated seawater were performed during 5-week periods during the austral summer of 1992/1993 and 1993/1994. All results (total, saprophytic and hydrocarbon-utilising bacterial abundance) clearly revealed a significant response of Antarctic bacterial communities to hydrocarbon contamination. A 1 order of magnitude increase of bacterial microflora occurred in seawater after crude oil contamination. A concomitant enrichment in oil-degrading bacteria was generally observed, from less than 0.001% of the community in uncontaminated samples to up to 50% after 3 weeks of contamination. Addition of fertiliser (INIPOL EAP 22) induced clear enhancement of both saprophytic and hydrocarbon-utilising microflora. Chemical analysis of the residual hydrocarbon fractions confirmed that fertiliser application increased the rate of oil biodegradation. Received: 27 March 1997 / Accepted: 20 October 1997     

Influence of Eutrophication on Bacteria in Two Fjords of the Western Baltic

Longitudinal transects in the Schlei Fjord (Kiel Bight) revealed strong increases of microbiological parameters from the entrance towards the landlocked end of the fjord. In the inner part up to 14 × 10⁶ bacteria ml⁻¹ (microscopical count), 77 × 10⁻¹ saprophytic bacteria ml⁻¹ (plate count) and a thymidine incorporation rate of 0.436 nmol 1⁻¹ h⁻¹ were observed. The data were compared with earlier results from the same system and those from the nearby located Kiel Fjord. The observations indicate a very high degree of eutrophication in the Schlei Fjord and a lesser one in the Kiel Fjord. The significance of total bacterial numbers and numbers of saprophytic bacteria as indicators for eutrophication and contamination is discussed.     

Contribution of Complement System pathways to the killing of Leptospira spp.

The Complement System (CS) plays an important role in the immune response against leptospirosis and can be activated by the Alternative and Lectin Pathways (Innate Immunity) and by the Classical Pathway (Acquired Immunity). Here we analyzed a broad range of nonpathogenic and pathogenic Leptospira strains considering their interaction with each CS pathway. We determined bacterial survival rate and CS protein deposition in the presence of purified proteins, specific component depleted sera and NHS treated with the chelating agents EDTA (inhibits all three activation pathways) or EGTA (inhibits the Classical and Lectin Pathways). We suggest that the Lectin and the Alternative Pathways have an important role to eliminate saprophytic leptospires since i) approximately 50% survival of both saprophytic strains was observed in the presence of MBL-deficient serum; ii) approximately 50% survival of Leptospira biflexa Patoc I was observed in the presence of NHS – EGTA and iii) C1q-depleted serum caused significant bacterial lysis. In all serovars investigated the deposition of C5–C9 proteins on saprophytic Leptospira strains was more pronounced when compared to pathogenic species confirming previous studies in the literature. No difference on C3 deposition was observed between nonpathogenic and pathogenic strains. In conclusion, Leptospira strains interact to different degrees with CS proteins, especially those necessary to form MAC, indicating that some strains and specific ligands could favor the binding of certain CS proteins.     

A model of insect—pathogen dynamics in which a pathogenic bacterium can also reproduce saprophytically

We developed a model of the population dynamic interaction between an insect and a pathogenic bacterium motivated by study of Serratia entomophila, a commercially exploited pathogen of the New Zealand grass grub (Costelytra zealandica). The bacterium is able to reproduce saprophytically, though it competes for saprophytic substrates with non-pathogenic strains, which appear to be superior competitors, probably because they lack a plasmid that carries genes required for pathogenicity. The effect of saprophytism and competition on the invasion criterion (R₀), short-term dynamics and long-term dynamics are described. Saprophytism can reduce (possibly to zero) the host threshold at which the pathogen can invade, though this reduction is less when there is competition with non-pathogenic strains. In a model of short-term population dynamics designed to mimic the application of bacteria to a host epizootic, saprophytism enhances the reduction in host density, though again this is tempered by competition with non-pathogens. In the long term, a pathogen that can develop saprophytically can drive its host to extinction in the absence of competition with non-pathogens. When the latter are present, host extinction is prevented. The addition of saprophytic reproduction can stabilize an otherwise unstable host–pathogen model, but we were unable to find a stable equilibrium given the further addition of a wholly saprophytic bacterial strain. The model suggests that enhancing or selecting for saprophytic ability could be a way of improving biological control.     

Inter-annual variability in marine coastal Antarctic bacterioplankton

The dynamics of Antarctic coastal marine bacterioplankton has been studied over a 2-year period. Two field stations were sampled between one and three times a week in 1989 and 1991 in the “Terre Adélie” area. The survey included physicochemical (temperature and particulate organic matter) and bacteriological (total and heterotrophic counts, cell volume and frequency of dividing cells estimation) measurements. The results suggest that a strong interannual variability affects the total bacterial abundance, the mean cell volume, the percentage of free living cells and, to a lesser extent. the culturable saprophytic bacterial communities. The observed variability could be partly explained by a large deficit of solar irradiance during the 2nd year of study that may have affected sea ice and seawater primary production.     

Bacterial effects on arbuscular mycorrhizal fungi and mycorrhiza development as influenced by the bacteria, fungi, and host plant

Bacterial strains from mycorrhizal roots (three belonging to Comamonadaceae and one to Oxalobacteraceae) and from non-mycorrhizal roots (two belonging to Comamonadaceae) of Medicago truncatula and two reference strains (Collimonas fungivorans Ter331 and Pseudomonas fluorescens C7R12) were tested for their effect on the in vitro saprophytic growth of Glomus mosseae BEG12 and on its colonization of M. truncatula roots. Only the Oxalobacteraceae strain, isolated from barrel medic mycorrhizal roots, and the reference strain P. fluorescens C7R12 promoted both the saprophytic growth and root colonization of G. mosseae BEG12, indicating that they acted as mycorrhiza helper bacteria. Greatest effects were achieved by P. fluorescens C7R12 and its influence on the saprophytic growth of G. mosseae was compared to that on Gigaspora rosea BEG9 to determine if the bacterial stimulation was fungal specific. This fungal specificity, together with plant specificity, was finally evaluated by comparing bacterial effects on arbuscular mycorrhizal symbiosis when each of the fungal species was inoculated to two different plant species (M. truncatula and Lycopersicon esculentum). The results obtained showed that promotion of saprophytic growth by P. fluorescens C7R12 was expressed in vitro towards G. mosseae but not towards G. rosea. Bacterial promotion of mycorhization was also expressed towards G. mosseae, but not G. rosea, in roots of M. truncatula and L. esculentum. Taken together, results indicated that enhancement of arbuscular mycorrhiza development was only induced by a limited number of bacteria, promotion by the most efficient bacterial strain being fungal and not plant specific.     

The Dynamics of the Size and Structure of the Soil Bacterial Complex in the Presence of Azobenzene

Azobenzene exerted no significant effect on the dynamics and the species composition of the saprophytic soil bacterial complex, which remained almost the same as in the control and was characterized by the predominance of Curtobacteriumsp., Arthrobacter globiformis, and Bacillus megateriumin all stages of succession. Some heterotrophic bacteria were found to be able to accumulate azobenzene. Bacillus cereusand Bac. polymyxadegraded azobenzene during their cultivation in nutrient media.     

Hypercapsulated growth ofLeuconostoc mesenteroides in the sphacelial stage ofClaviceps purpurea

The occurrence in rye florets of an unusual saprophytic growth ofLeuconostoc mesenteroides in the honeydew of the sphacelial stage ofClaviceps purpurea is described. The bacterial infection prevents the further development of ergot sclerotia by interposing hypercapsulated cells in the floral cavity at the base of the ergotised ovary. The capsular material has been identified as the 1–6 linked glucosan, dextran, and the bacterial growth form has been reproduced artificially in vivo.Saccharomyces kluyveri has been isolated from a naturally occurringL. mesenteroides growth.     

Antagonistic Activities of Epiphytic Bacteria from Soybean Leaves against Pseudomonas syringae pv. glycinea in vitro and in planta

Abstract Over two growing seasons, 273 bacterial strains were isolated from soybean leaves without and with bacterial blight symptoms caused by Pseudomonas syringae pv. glycinea (Psg). The majority of the isolates from leaves with symptoms were identified as Psg (43%), followed by Erwinia herbicola (21%), and Enterobacter/Erwinia (19%). The isolates from leaves without symptoms included mainly a group of unidentified Gram-negative bacteria (22%), Psg (21%), and E. herbicola (18%). Psg colonized the soybean leaves prior to saprophytic bacteria, and remained dominant during both seasons on healthy, as well as infected, leaves. Eighty-two saprophytic isolates were tested in vitro for their antagonistic activities against Psg, using an agar-diffusion assay. For the in planta assay, Psg and each isolate were simultaneously inoculated into wounds of pin-pricked leaves of greenhouse-grown soybean plants. Twenty-nine isolates were antagonistic in vitro. Nineteen isolates were able to suppress the growth of Psg and prevented the formation of leaf spots in planta when mixtures of isolate and pathogen were inoculated at ratios >1. Only 9 of the 82 isolates inhibited Psg in vitro as well as in planta. Most antagonists detected belonged to the genera Pseudomonas and the species Erwinia herbicola. The in planta assay should be a reliable predictor of field performance for screening of biological control agents. Received: 8 April 1996; Accepted: 22 October 1996     

华北特有腐生型兰科植物北京无喙兰根际土壤微生物多样性研究

北京无喙兰(Holopogon pekinensis X. Y. Mu & Bing Liu)为华北地区特有珍稀腐生型兰科植物,分布在海拔约1100 m的杂木林内,生境与本区域内其他腐生型兰科植物(常在1600 m以上桦木林中生长)显著不同。本研究针对北京玉渡山和百花山两个北京无喙兰种群的根际土壤样品开展基于高通量测序技术的根际土壤微生物多样性分析,解析北京无喙兰根际土壤微生物群落组成及多样性。测序分析结果显示,共得到4973个细菌OTU(Operational taxonomic unit),发现北京无喙兰根际土壤的优势细菌类群为变形菌门、放线菌门、拟杆菌门等7个门,优势属有MND1、硝化螺菌属(Nitrospira)和Haliangium等。1914个真菌OTU的分析结果表明,根际土壤优势真菌类群为子囊菌门、担子菌门、结合菌门等;优势属有Archaeorhizomyces、蜡壳耳属(Sebacina)和被孢霉属(Mortierella)等;优势真菌多为外生菌根真菌,可能是北京无喙兰潜在的菌根真菌。多样性指数分析显示,北京无喙兰玉渡山种群根际土壤中的真菌和细菌群落的丰富度和均匀度均高于百花山种群,各种群土壤微生物多样性与北京无喙兰所在种群的乔木种类多样性具有一定的相关性。     

The Selective Activity of a Benzoxazole Brightener against Phytopathogenic Bacteria

A cationic benzoxazole compound used commercially as an optical brightener was found to have a selective bactericidal effect at low concentrations on a wide range of bacterial phytopathogens; many strains of Agrobacterium, Corynebacterium, Erwinia, Pseudomonas and Xanthomonas were tested. Known phytopathogenic species of Corynebacterium, Pseudomonas and Xanthomonas were rapidly killed, whereas saprophytic strains of Corynebacterium and Pseudomonas were resistant to 500 parts/10⁶. The phytopathogenic Erwinia spp. were inhibited only by the higher concentrations of AN, and some saprophytic E. herbicola var. herbicola strains were slightly sensitive. The extent and nature of this selective bactericidal property is examined and discussed. Resistant mutant colonies were very rarely encountered. The results are of significance in that the recognition of such phytopathogens under laboratory conditions is made easier. The resistance of Ps. aeruginosa to the compound and its almost unique ability to utilize it as a sole carbon source offer a means of isolating this organism.     

Role of emulsification in the process of hydrocarbon absorption by Pseudomonas aeruginosa cells

Lipophilic biopolymers from the cell walls of saprophytic mycobacteria were shown to stimulate the process of hydrocarbon assimilation by Pseudomonas aeruginosa cells. This should be attributed to the fact that bacterial peptidoglycolipids emulsify a hydrocarbon facilitating the contact between it and the cells. It has been found experimentally that P. aeruginosa cells growing in the medium with n-alkanes release a factor into the medium. The factor appears to contain peptide chains and is responsible for hydrocarbon emulsification.     

Dynamic of the volume and structure of the soil bacterial complex in the presence of azobenzene

Azobenzene exerted no significant effect on the dynamics and the species composition of the saprophytic soil bacterial complex, which remained almost the same as in the control and was characterized by the predominance of Curtobacterium sp., Arthrobacter globiformis, and Bacillus megaterium in all stages of succession. Some heterotrophic bacteria were found to be able to accumulate azobenzene. Bac. cereus and Bac. polymyxa degraded azobenzene during their cultivation in nutrient media.     

Effect ofAgrobacterium radiobacter on vesicular-arbuscular-mycorrhizal infection and external mycelium of maize

Agrobacterium radiobacter influenced the development of mycorrhizal infection, length of external mycelium and metabolic activity of the mycelium in a hydroponic culture system, with maize as a host plant. Infection caused byGlomus fasciculatum, and metabolic activity of the external mycelium ofG. fasciculatum andG. etunicatum, was stimulated by bacterial inoculation. The results underline the importance of the soil saprophytic microflora for development and activity of the extraradical phase of vesicular-arbuscular mycorrhizal fungi.