New Zealand Terrestrial Biocomplexity Survey
Latest version published by SCAR - Microbial Antarctic Resource System on Sep 10, 2015 SCAR - Microbial Antarctic Resource System
The New Zealand Terrestrial Antarctic Biocomplexity Survey (nzTABS) is the largest and most comprehensive interdisciplinary landscape-scale study of terrestrial biology ever undertaken in Antarctica, incorporating fieldwork of 1500+ person days in 6 of the Dry Valleys (total area of 6500 km2), strategic sampling of over 1200 sites designed to encompass the landscape heterogeneities in the ecosystem, and a range of high-resolution remote sensing data. The central goal of nzTABS is to determine the primary abiotic drivers of biodiversity in the Dry Valleys, one of few ecosystems where such undertaking can be achieved. With the aid of a comprehensive GIS framework, we are on track to achieve this goal by examining community microbial sequence data in conjunction with a broad range of physicochemical parameters. This project currently involves over 29 senior investigators from 9 countries that encompass disciplines from geochemistry and geomorphology to population genetics and microbial ecology.
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This resource has been registered with GBIF, and assigned the following GBIF UUID: 0821ab21-c6a5-4757-91c2-1f5e95d0ecda. SCAR - Microbial Antarctic Resource System publishes this resource, and is itself registered in GBIF as a data publisher endorsed by Scientific Committee on Antarctic Research.
Metadata;NZTABS;McMurdo Dry Valley;soil;biocomplexity;microbial;geochemistry;; Metadata
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McMurdo Dry Valleys
|Bounding Coordinates||South West [-78.41, 159.72], North East [-76.73, 165]|
No Description available
|Domain||Bacteria (Bacteria), Archaea (Archaea), Eukaryote (Eukaryote)|
|Kingdom||Bacteria (Cyanobacteria), Eukaryote (Protist)|
No Description available
|Title||New Zealand Terrestrial Biocomplexity Survey|
|Funding||This project was supported through a grants from the Foundation for Research, Science and Technology (New Zealand), Antarctica New Zealand, and the Marsden Fund (New Zealand).|
|Study Area Description||McMurdo Dry Valleys, Victoria Land, Antarctica|
|Design Description||The study was a comprehensive survey of the Dry Valley ecosystem and includes collections from all of the major valleys throughout the latitudinal extent of the system.|
The personnel involved in the project:
Initially a 220 km2 study area, consisting of Miers, Marshall, and Garwood Valleys as well as Shangri-La, was divided into more than 600 geographically and geologically distinct ice-free sectors (hereinafter “tiles”) using remote-sensing data and published soil maps. Tile boundaries were delineated where the combination of geographical and geological variables changed, and on-the-ground assessments were carried out in November 2008 to confirm the reliability of delineations. 554 tiles were chosen for sampling to encompass the entire range of geographical and geological heterogeneity. Sampling of soils and biological communities was carried out over two successive austral summers (January 2009 and January 2010). Surveys were conducted for vegetation (i.e., mosses, lichens, algal and cyanobacterial mats), lithic microbial communities, and invertebrates at each sampling site (verified by GPS to be inside its respective tile), followed by collection of bulk soil samples for additional analyses, including molecular analyses of bacteria (total and cyanobacteria-only) and fungi. In addition, a number of key variables were derived from satellite imagery, including surface soil temperature, a topographically derived ‘wetness index’, and distance to the coast. After quality control, data for 490 samples were included in the analysis.
|Study Extent||All samples were collected on foot by hand from each location. All samples were collected during the month of January in each sampling year.|
|Quality Control||All samples were collected using sterile techniques and transferred frozen to the laboratory for continued analysis|
Method step description:
- Sample locations were determined as the centroids within each tile.
- Soil was collected from the upper 2-4 cm after removal of any larger rocks that were lying on the surface.
|Parent Collection Identifier||N/A|