Periodic Reporting for period 1 - metaVir-Alp (Alpine lakes benthic viral community structure and diversity: a metagenomic and ecological approach)
Période du rapport: 2016-11-01 au 2018-10-31
Viral communities in freshwaters are globally under-studied, and virtually no information exists on Alpine lakes.
metaVir-Alp aimed to characterise the genetic diversity, structure and function of viral and bacterial communities in freshwater systems along an altitudinal gradient combining metagenomics, microbiology, and advanced computation. As model system, I used the threated Alpine lakes. Specifically, we focused on lake sediments that are hotspots of carbon cycling due to the large deposition of terrestrially derived carbon and the greenhouse gases outgassing (by microbial mineralization).
During the two years, three intensive and challenging sampling sessions (Pre-sampling 2017, Summer 2017 and Winter 2018) were carried out collecting water and sediment from two sites in 4 Alpine lakes along an altitudinal gradients (from 680m to 2000m). We compiled a comprehensive dataset with physico-chemicals data for each sampling point in each lake (D1). We produced a DNA bank of 34 microbial and 34 viral communities (D2), which is and will be used to perform high-throughput sequencing in order to have a comprehensive genetic characterisation of freshwater microbial and viral communities. This resource is a valuable information that will give an insight of the viral genetic diversity and function in freshwater. Further, the successful secondment at the Fondazione Edmund Mach generated also a productive collaboration on a side project on Cyanobacteria. Equally important, this fellowship allowed me to resume successful my career after two years of maternity leave, by completing a novel research project and acquiring key skills that permitted my career to go further.
Summer and Winter field sessions covered 4 lakes, and samples were collected from water (3 depths) and sediment (Deliverable 1). Winter session was challenging as we sampled lakes ice covered. Lagorai lake, which is located at 2000 m, was particularly difficult since it was unreachable by car and covered by ice and 2 meters of fresh snow. We managed to reach it by helicopter and to collect two water samples and a sediment sample, helped by a skilled alpine guide. Tangential Flow filtration and centrifugation steps were used to produce our final viral-enriched fractions. Then, viral and microbial DNA libraries were generated for sequencing on Illumina HiSeq 2500. At this stage we faced a dilemma as viromes library kept failing. We, thus, performed extra experiments to find the right protocol and to characterise in detail the viral genetic material, such as the DNA High Sensitivity Bioanalyzer assay. After weeks of frustration, we found the right protocol and prepared 27 viral DNA libraries to run on an Illumina HiSeq 2500 platform (Deliverable 2). This generated a highly valuable viromes sequence database that will be analysed with a specific virus characterisation pipeline developed in our Lab. Two years project were not enough to accomplish all aims. The project was challenging and had a massive field campaign, which required a lot of time and energy. I am still working on WP3 and WP4. However, since my stay at the Computational Microbiology Lab is prolonged, I will be able to finish the analysis.
In addition to the training scope, the secondment at the Fondazione Edmund Mach generated an interesting collaboration on the genetic characterisation of the Cyanobacteria Thyconema, an important species able to produce neurotoxins that are harmful for human and animal health. Further, three new microbial genomes of potential symbionts of cyanobacterial organisms were also recovered and assembled. Two peer-reviewed papers were published.
metaVir-Alp results were presented to the scientific public during two international conferences (FEMS and ISME). Dissemination to the non-scientific audience involved different outreach events, such as a seminar to a local High School and the participation to the “Notte del Ricercatore” at Museum of Science of Trento (MUSE).
Alpine lake ecosystems have considerable cultural and socioeconomic values, and represent hotspots of biodiversity and carbon cycling. This project improved and deepened our understanding of microbial diversity and processes in sensitive Alpine lakes with implications for their conservation across EU countries.