Hyphomycètes aquatiques : importance dans la décomposition des litières

Chauvet, Éric; Merce, J.

doi:10.7202/705009ar

Cited by 4 publications

(2 citation statements)

References 11 publications

(11 reference statements)

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“…It has been shown that aquatic hyphomycetes colonize preferentially oxygen rich waters (CHAUVET, 1992) and turbulence stimulates spore release. Thus, the use of fine mesh bags to assess the fungal assemblage structure can be questionable since a fine mesh might unnaturally reduce physical leaf fragmentation and change water flow patterns (SUBERKROPP, 2003).…”

Section: Introductionmentioning

confidence: 99%

Do Invertebrate Activity and Current Velocity Affect Fungal Assemblage Structure in Leaves?

Ferreira

Graça

2006

International Review of Hydrobiology

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In this study we assessed the effect of current velocity and shredder presence, manipulated in artificial channels, on the structure of the fungal assemblage colonizing alder (Alnus glutinosa (L.) GAERT-NER) leaves incubated in coarse and fine mesh bags. Fungal sporulation rates, cumulative conidial production and number of species of aquatic hyphomycetes were higher in leaves exposed to high rather than to low current velocity. The opposite was observed regarding Simpson's index (D) on the fungal assemblage. Some species of aquatic hyphomycetes were consistently stimulated in high current channels. No effect of shredders or of mesh type was observed.

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Section: Introductionmentioning

confidence: 99%

Do Invertebrate Activity and Current Velocity Affect Fungal Assemblage Structure in Leaves?

Ferreira

Graça

2006

International Review of Hydrobiology

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“…Oxygen-rich waters, characterized by high water turbulence, such as in the headwater stream sections, are suitable places for hyphomycete conidial production (CHAUVET, 1992). Water flow may transport conidia from a few hundred meters to a few kilometres along stream reaches and constitutes the most important vector for the transport of microbial cells (THOMAS et al, 1990).…”

Section: Introductionmentioning

confidence: 99%

Fungal and Bacterial Colonization of Submerged Leaf Litter in a Mediterranean Stream

Artigas

Gaudes

Muñoz

et al. 2011

International Review of Hydrobiology

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Microbial colonization dynamics of fungi and bacteria were analyzed in an intermittent Mediterranean forested stream using two different leaf substrata (Platanus acerifolia and Populus nigra). Results showed that fungal and bacterial biomass accumulation was stimulated on both leaves due to a flooding episode that increased dissolved inorganic nitrogen (DIN) and dissolved oxygen (DO) availability in the stream water. Leaf mass loss coincided with the parallel increase in microbial biomass and extracellular enzymatic activities after the flood event. Differences in litter quality favoured bacterial biomass accumulation and β-glucosidase and cellobiohydrolase enzymatic activities in the soft Populus species. Microbial heterotrophs colonization of submerged leaf litter and organic matter use in Mediterraneantype streams are modulated by environmental conditions, especially the hydrological variability. IntroductionMicrobial decomposition of leaf litter is a key process for nutrient mineralization in streams (WEBSTER et al., 2009). Aquatic fungi (the hyphomycetes group) are the main microbial colonizers of submerged leaf litter and are responsible for its incorporation into biomass and carbon mineralization (WEYERS and SUBERKROPP, 1996; PASCOAL and CÁSSIO, 2004). The high potential of fungi in exploiting leaves relies on widespread invasion by fungal hyphae and high hydrolytic and oxidative enzymatic capacities (CHAMIER, 1985;SINSABAUGH et al., 1994;WEYERS and SUBERKROPP, 1996). Bacteria co-exist with fungi during litter decomposition, although their relevance in terms of biomass production and degradative activity is lower (BALDY et al., 2002;HIEBER and GESSNER, 2002). The biomass accumulation and * Corresponding author 222 J. ARTIGAS et al.

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An experimental study of the breakdown of submerged leaves by hyphomycetes and invertebrates in Morocco

Chergui

Pattée

1991

Freshwater Biology

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1. Mechanisms of the breakdown of submerged leaves under the warm and dry Moroccan climate, including the interaction between hyphomycetes and invertebrates, were investigated.2. Laboratory experiments were performed on dried leaves of Salix sp. and Nerium oleander.3. During the first month under the experimental conditions, Melanopsis praemorsa, Physa acuta (Gastropoda) and Hydropsyche maroccana (Trichoptera), respectively, were responsible for a loss of weight of 38, 21 and 13% in willow leaves, and 40, 15 and 8% in oleander leaves.4. The weight lost by willow leaves inoculated with the fungi Alatospora acuminata, Anguillospora longissima, Lemonniera aquatica and Tetracladium marchalianum increased with time, but varied according to the fungal species. Loss of weight and increase in nitrate and phosphate content of the leaves were greatest with Lemonniera and smallest with Tetracladium. 5. When the leaves thus colonized by each of the four fungal species were exposed to each of the three invertebrates, the amount of material consumed increased with the time of fungal conditioning and varied according to the fungus and to the invertebrate. Greatest consumption was by Melanopsis feeding on leaves conditioned by Lemonniera., in which case assimilation percentage by the gastropod was as high as 75%.6. Owing to their numbers in the field, and to the quantity of leaf material they ingest, gastropods appear as the main shredders in the streams considered, thus replacing the Crustacea that often play this part under temperate climates. Breakdown seems faster in Morocco than in France, mainly because of a shorter initial time lag in weight loss.

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Hyphomycètes aquatiques : importance dans la décomposition des litières

Cited by 4 publications

References 11 publications

Do Invertebrate Activity and Current Velocity Affect Fungal Assemblage Structure in Leaves?

Do Invertebrate Activity and Current Velocity Affect Fungal Assemblage Structure in Leaves?

Fungal and Bacterial Colonization of Submerged Leaf Litter in a Mediterranean Stream

An experimental study of the breakdown of submerged leaves by hyphomycetes and invertebrates in Morocco

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