Dynamics of yeast populations recovered from decaying leaves in a nonpolluted stream: a 2-year study on the effects of leaf litter type and decomposition time

Sampaio, Ana; Sampaio, José Paulo; Leão, Cecı́lia

doi:10.1111/j.1567-1364.2007.00218.x

Cited by 37 publications

(23 citation statements)

References 46 publications

(53 reference statements)

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“…These organism are often found in surface waters as saprobes of insects, plants, or leaf litter and sometimes as mycoparasites or pathogens [71]. Their consistent appearance in aquatic studies (e.g., [15], [72]) is peculiar and certainly deserves further attention. Our findings have implications for studies that include different POM size classes.…”

Section: Resultsmentioning

confidence: 99%

Importance of Saprotrophic Freshwater Fungi for Pollen Degradation

et al. 2014

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Fungi and bacteria are the major organic matter (OM) decomposers in aquatic ecosystems. While bacteria are regarded as primary mineralizers in the pelagic zone of lakes and oceans, fungi dominate OM decomposition in streams and wetlands. Recent findings indicate that fungal communities are also active in lakes, but little is known about their diversity and interactions with bacteria. Therefore, the decomposer niche overlap of saprotrophic fungi and bacteria was studied on pollen (as a seasonally recurring source of fine particulate OM) by performing microcosm experiments with three different lake types. Special emphasis was placed on analysis of fungal community composition and diversity. We hypothesized that (I) pollen select for small saprotrophic fungi and at the same time for typical particle-associated bacteria; (II) fungal communities form specific free-living and attached sub-communities in each lake type; (III) the ratio between fungi or bacteria on pollen is controlled by the lake's chemistry. Bacteria-to-fungi ratios were determined by quantitative PCR (qPCR), and bacterial and fungal diversity were studied by clone libraries and denaturing gradient gel electrophoresis (DGGE) fingerprints. A protease assay was used to identify functional differences between treatments. For generalization, systematic differences in bacteria-to-fungi ratios were analyzed with a dataset from the nearby Baltic Sea rivers. High abundances of Chytridiomycota as well as occurrences of Cryptomycota and yeast-like fungi confirm the decomposer niche overlap of saprotrophic fungi and bacteria on pollen. As hypothesized, microbial communities consistently differed between the lake types and exhibited functional differences. Bacteria-to-fungi ratios correlated well with parameters such as organic carbon and pH. The importance of dissolved organic carbon and nitrogen for bacteria-to-fungi ratios was supported by the Baltic Sea river dataset. Our findings highlight the fact that carbon-to-nitrogen ratios may also control fungal contributions to OM decomposition in aquatic ecosystems.

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Section: Resultsmentioning

confidence: 99%

Importance of Saprotrophic Freshwater Fungi for Pollen Degradation

et al. 2014

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“…putida, Ps. nitroreducens and R. glutinis are common microbes in the environments and have been demonstrated to be effective in decomposing and transforming toxic organic compounds (Hinteregger et al 1992;Delneri et al 1995;Heinaru et al 2000;Gonzalez et al 2001;Kwon et al 2003;Margesin et al 2004;Qualls 2005;Sampaio et al 2007;Unno et al 2007). However, the degradation of phenolic allelochemicals in soils by the microbes has not been investigated to a great extent.…”

Section: Discussionmentioning

confidence: 99%

Isolation, identification and characterization of soil microbes which degrade phenolic allelochemicals

Zhang

Pan

2010

Journal of Applied Microbiology

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Aims: To isolate and characterize microbes in the soils containing high contents of phenolics and to dissolve the allelopathic inhibition of plants through microbial degradation. Methods and Results: Four microbes were isolated from plant soils using a screening medium containing p‐coumaric acid as sole carbon source. The isolates were identified by biochemical analysis and sequences of their 16S or 18S rDNA, and designated as Pseudomonas putida 4CD1 from rice (Oryza sativa) soil, Ps. putida 4CD3 from pine (Pinus massoniana) soil, Pseudomonas nitroreducens 4CD2 and Rhodotorula glutinis 4CD4 from bamboo (Bambusa chungii) soil. All isolates degraded 1 g l−1 of p‐coumaric acid by 70–93% in inorganic and by 99% in Luria‐Bertani solutions within 48 h. They also effectively degraded ferulic acid, p‐hydroxybenzoic acid and p‐hydroxybenzaldehyde. The microbes can degrade p‐coumaric acid and reverse its inhibition on seed germination and seedling growth in culture solutions and soils. Low pHs inhibited the growth and phenolic degradation of the three bacteria. High temperature inhibited the R. glutinis. Co2+ completely inhibited the three bacteria, but not the R. glutinis. Cu2+, Al3+, Zn2+, Fe3+, Mn2+, Mg2+ and Ca2+ had varying degrees of inhibition for each of the bacteria. Conclusions: Phenolics in plant culture solutions and soils can be decomposed through application of soil microbes in laboratory or controlled conditions. However, modification of growth conditions is more important for acidic and ions‐contaminated media. Significance and Impact of the Study: The four microbes were first isolated and characterized from the soils of bamboo, rice or pine. This study provides some evidence and methods for microbial control of phenolic allelochemicals.

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“…Finally, isolates M33, an Ascomycota (Candida oleophila) and AGG 585, an isolate of basidiomycetous affinity, exhibited the lowest COD removal values. Interestingly, the oxidative Filobasidium, Cryptococcus and Rhodotorula genera, are considered predominant in vineyard environments, such as soil, bark, leaves and grapes (Sabate et al, 2002) and in several litter substrata (Golovchenko et al, 2000;Sampaio et al, 2007;Thormann et al, 2007). However, Cryptococcus and Filobasidum species seemed absent in some WW (Eusébio et al, 2004;Evans and Seviour, 2012), probably due to the fact that these yeasts suffered a strong selective pressure during fermentation (Sabate et al, 2002).…”

Section: Screening Of Yeast Isolates Ability To Degrade Diluted Wwmentioning

confidence: 94%

Winery wastewater treatment by combination of Cryptococcus laurentii and Fenton’s reagent

et al. 2014

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Dynamics of yeast populations recovered from decaying leaves in a nonpolluted stream: a 2-year study on the effects of leaf litter type and decomposition time

Cited by 37 publications

References 46 publications

Importance of Saprotrophic Freshwater Fungi for Pollen Degradation

Importance of Saprotrophic Freshwater Fungi for Pollen Degradation

Isolation, identification and characterization of soil microbes which degrade phenolic allelochemicals

Winery wastewater treatment by combination of Cryptococcus laurentii and Fenton’s reagent

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