scholarly journals Depth-discrete metagenomics reveals the roles of microbes in biogeochemical cycling in the tropical freshwater Lake Tanganyika

2021 ◽  
Author(s):  
Patricia Q. Tran ◽  
Samantha C. Bachand ◽  
Peter B. McIntyre ◽  
Benjamin M. Kraemer ◽  
Yvonne Vadeboncoeur ◽  
...  
Keyword(s):  
Lake Tanganyika ◽  
Freshwater Lake ◽  
Freshwater Lakes ◽  
Surface Layers ◽  
Metabolic Potential ◽  
Anoxic Waters ◽  
Level Function ◽  
Ecosystem Level ◽  
Anoxic Layer ◽  
Tropical Freshwater

AbstractLake Tanganyika (LT) is the largest tropical freshwater lake, and the largest body of anoxic freshwater on Earth’s surface. LT’s mixed oxygenated surface waters float atop a permanently anoxic layer and host rich animal biodiversity. However, little is known about microorganisms inhabiting LT’s 1470 meter deep water column and their contributions to nutrient cycling, which affect ecosystem-level function and productivity. Here, we applied genome-resolved metagenomics and environmental analyses to link specific taxa to key biogeochemical processes across a vertical depth gradient in LT. We reconstructed 523 unique metagenome-assembled genomes (MAGs) from 34 bacterial and archaeal phyla, including many rarely observed in freshwater lakes. We identified sharp contrasts in community composition and metabolic potential with an abundance of typical freshwater taxa in oxygenated mixed upper layers, and Archaea and uncultured Candidate Phyla in deep anoxic waters. Genomic capacity for nitrogen and sulfur cycling was abundant in MAGs recovered from anoxic waters, highlighting microbial contributions to the productive surface layers via recycling of upwelled nutrients, and greenhouse gases such as nitrous oxide. Overall, our study provides a blueprint for incorporation of aquatic microbial genomics in the representation of tropical freshwater lakes, especially in the context of ongoing climate change, which is predicted to bring increased stratification and anoxia to freshwater lakes.

scholarly journals Depth-discrete metagenomics reveals the roles of microbes in biogeochemical cycling in the tropical freshwater Lake Tanganyika

2019 ◽  
Author(s):  
Patricia Q. Tran ◽  
Samantha C. Bachand ◽  
Peter B. McIntyre ◽  
Benjamin M. Kraemer ◽  
Yvonne Vadeboncoeur ◽  
...  
Keyword(s):  
Lake Tanganyika ◽  
Freshwater Lake ◽  
Freshwater Lakes ◽  
Surface Layers ◽  
Metabolic Potential ◽  
Anoxic Waters ◽  
Level Function ◽  
Ecosystem Level ◽  
Anoxic Layer ◽  
Tropical Freshwater

AbstractLake Tanganyika (LT) is the largest tropical freshwater lake, and the largest body of anoxic freshwater on Earth’s surface. LT’s mixed oxygenated surface waters float atop a permanently anoxic layer and host rich animal biodiversity. However, little is known about microorganisms inhabiting LT’s 1470 m deep water column and their contributions to nutrient cycling, which affect ecosystem-level function and productivity. Here, we applied genome-resolved metagenomics and environmental analyses to link specific taxa to key biogeochemical processes across a vertical depth gradient in LT. We reconstructed 523 unique metagenome-assembled genomes (MAGs) from 21 bacterial and archaeal phyla, including many rarely observed in freshwater lakes. We identified sharp contrasts in community composition and metabolic potential with an abundance of typical freshwater taxa in oxygenated mixed upper layers, and Archaea and uncultured Candidate Phyla in deep anoxic waters. Genomic capacity for nitrogen and sulfur cycling was abundant in MAGs recovered from anoxic waters, highlighting microbial contributions to the productive surface layers via recycling of upwelled nutrients, and greenhouse gases such as nitrous oxide. Overall, our study provides a blueprint for incorporation of aquatic microbial genomics in the representation of tropical freshwater lakes, especially in the context of ongoing climate change which is predicted to bring increased stratification and anoxia to freshwater lakes.

scholarly journals A phytosociological survey of aquatic vegetation in the main freshwater lakes of Greece

2020 ◽  
Vol 1 ◽  
pp. 53-75
Author(s):  
Dimitrios Zervas ◽  
Ioannis Tsiripidis ◽  
Erwin Bergmeier ◽  
Vasiliki Tsiaoussi
Keyword(s):  
Plant Communities ◽  
Aquatic Plant ◽  
Aquatic Vegetation ◽  
Environmental Parameters ◽  
Hierarchical Cluster ◽  
Freshwater Lake ◽  
Vegetation Types ◽  
Freshwater Lakes ◽  
Lake Ecosystems ◽  
The Relationship

Aims: This study aims to contribute to the knowledge of European freshwater lake ecosystems with updated and new information on aquatic plant communities, by conducting national-scale phytosociological research of freshwater lake vegetation in Greece. Moreover, it investigates the relationship between aquatic plant communities and lake environmental parameters, including eutrophication levels and hydro-morphological conditions. Study area: Lakes in Greece, SE Europe. Methods: 5,690 phytosociological relevés of aquatic vegetation were sampled in 18 freshwater lake ecosystems during 2013–2016. The relevés were subjected to hierarchical cluster and indicator species analyses in order to identify associations and communities of aquatic vegetation, as well as to describe their syntaxonomy. Multiple regression analysis was applied to investigate the relationship between vegetation syntaxa and environmental parameters of lakes, i.e. physico-chemical parameters and water level fluctuation. Results: Ninety-nine plant taxa belonging to 30 different families were recorded. Forty-six vegetation types were identified and described by their ecological characteristics, diagnostic taxa and syntaxonomical status. Thirteen vegetation types, the largest number belonging to the vegetation class Charetea, are considered to be new records for Greece. The distribution of the vegetation types recorded in the 18 freshwater lakes was found to depend on environmental parameters and levels of eutrophication. Conclusions: An updated aquatic vegetation inventory was produced for Greek lakes, and primary results showed that the presence/absence of aquatic plant communities and the community composition in freshwater lakes can be utilized to assess the pressure of eutrophication on lake ecosystems. Taxonomic reference: Euro+Med (2006–). Abbreviations: MNT = Mean number of taxa; WFD = Water Framework Directive.

scholarly journals Draft Genome Sequences of Two Benthic Cyanobacteria, Oscillatoriales USR 001 and Nostoc sp. MBR 210, Isolated from Tropical Freshwater Lakes

2016 ◽  
Vol 4 (5) ◽  
Author(s):  
Shu Harn Te ◽  
Boon Fei Tan ◽  
Janelle R. Thompson ◽  
Karina Yew-Hoong Gin
Keyword(s):  
Solid Medium ◽  
De Novo ◽  
Draft Genome ◽  
Shotgun Sequencing ◽  
Freshwater Lakes ◽  
Genome Sequences ◽  
Benthic Cyanobacteria ◽  
Complete Genomes ◽  
Tropical Freshwater

Genomes of two filamentous benthic cyanobacteria were obtained from cocultures obtained from two freshwater lakes. The cultures were obtained by first growing cyanobacterial trichome on solid medium, followed by subculturing in freshwater media. Subsequent shotgun sequencing, de novo assembly, and genomic binning yielded almost complete genomes of Oscillatoriales USR 001 and Nostoc sp. MBR 210.

Oxygenated spiro-triterpenoids possibly related to arborenes in sediments of a tropical, freshwater lake

2008 ◽  
Vol 39 (10) ◽  
pp. 1400-1404 ◽  
Author(s):  
Yunping Xu ◽  
Rudolf Jaffé ◽  
Bernd R.T. Simoneit
Keyword(s):  
Freshwater Lake ◽  
Tropical Freshwater

Research on Nitrogen and Phosphorus Release from Sediments in Small Inland Freshwater Lakes

2013 ◽  
Vol 864-867 ◽  
pp. 248-255 ◽  
Author(s):  
Cheng Rui Xu
Keyword(s):  
Inorganic Phosphate ◽  
Ph Value ◽  
Sedimentary Environment ◽  
Simulation Method ◽  
Phosphorus Release ◽  
Freshwater Lake ◽  
Determination Method ◽  
Freshwater Lakes ◽  
Nitrogen And Phosphorus ◽  
Existing Form

Indoor simulation method was applied to study the characteristics of nitrogen and phosphorus release from sediments in small freshwater lake Huangjia Lake. Meanwhile, the grading determination method of inorganic phosphate was applied to study the existing form of inorganic phosphate in sediments. The results showed that sedimentary environment in various areas of Huangjia Lake would have influence on release of nitrogen and phosphorus. At the same time, the temperature and pH value were proved to have obvious influence on release of nitrogen and phosphorus.

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