Remarkably, An-4 produces and releases ca 15% of the total NO3 -

Remarkably, An-4 produces and releases ca. 15% of the total NO3 – reduced as N2O, a potent greenhouse gas [54, 55]. Interestingly, the OMZs of the Arabian Sea have repeatedly been reported https://www.selleckchem.com/products/Abiraterone-Acetate-CB7630.html to be major sites of N2O production, especially in continental shelf areas and coastal upwelling zones [17, 20, 21, 56]. Conclusion Before meaningful conclusions on the potential impact of fungi on the marine nitrogen cycle can be drawn, it has to be established how abundant and widespread fungi with an anaerobic NO3 – metabolism are in marine environments. Previous studies reported a high

diversity of fungi in O2-deficient marine environments [12, 16], a large proportion of which may have similar physiologies as An-4. Therefore, further concerted

efforts should aim at revealing the so far largely ignored influence of fungi on the marine nitrogen cycle and their role in the production of greenhouse gases. Methods Geographic origin and identity of isolate An-4 The sampling site was located in the coastal, seasonal OMZ off Goa (India), northwest of the river mouths of the Zuari and the Mandovi (15°31′80″N, 73°42′60″E). Sampling was carried out at 14 m water depth in October 2005 and anoxic conditions were recorded in selleck chemicals llc the bottom waters during sampling. Four ascomycete fungi were successfully isolated by the particle-plating technique after enrichment in anoxic, nitrate-amended seawater. One of the ascomycete isolates (An-4) was axenized with antibiotics and is tested here for its capability to reduce nitrate in the absence of oxygen. Isolate An-4 was identified as Aspergillus terreus (Order Eurotiales, Class Eurotiomycetes) using morphological and DNA sequence data. Macro- and microscopic characters were studied according to [39]. Partial calmodulin (Cmd) and β-tubulin (BenA) gene sequences retrieved from the isolate with previously described methods [57, 58] were used to derive the phylogenetic position Farnesyltransferase of An-4 (Additional file 1: Figure

S2). The obtained sequences were deposited in the NCBI GenBank sequence database under accession numbers [KJ146014] (Cmd) and [KJ146013] (BenA). The isolate was deposited in the culture collection of the CBS-KNAW Fungal Biodiversity Centre as [CBS 136781] and at the Microbial Type Culture Collection and Gene Bank (MTCC, Chandigarh, India) as [MTCC 11865]. Cultivation for anaerobic nitrate turnover experiments An-4 was pre-grown on agar plates prepared from YMG broth (i.e., Yeast extract [8 g L-1] + Malt extract [10 g L-1] + Glucose [10 g L-1]) supplemented with penicillin and streptomycin. Every few plate transfers, the antibiotics were omitted to avoid emergence and carry-over of resistant bacteria. Spores of the axenic isolate grown on agar plates were used to inoculate 500-mL Erlenmeyer flasks that contained 250 mL of YMG broth. For aerobic cultivation, the flasks were closed with aseptic cotton plugs. The flasks were placed on a rotary shaker (120 rpm) and incubated at 26°C.

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