A global viral oceanography database (gVOD)

Virioplankton is a key component of marine biosphere in maintaining diversity of microorganisms and stabilizing ecosystems. They also greatly contribute to nutrient recycles by releasing organic matter after lysis of hosts. In this study, we constructed the first global viral oceanography database (...

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Bibliographic Details
Main Authors: Xie, Le, Wei, Wei, Cai, Lanlan, Chen, Xiaowei, Huang, Yuhong, Jiao, Nianzhi, Zhang, Rui, Luo, Ya-Wei
Format: Text
Language:English
Published: 2020
Subjects:
Indian
Pacific
North Atlantic
Online Access:https://doi.org/10.5194/essd-2020-120
https://essd.copernicus.org/preprints/essd-2020-120/
Description
Summary:Virioplankton is a key component of marine biosphere in maintaining diversity of microorganisms and stabilizing ecosystems. They also greatly contribute to nutrient recycles by releasing organic matter after lysis of hosts. In this study, we constructed the first global viral oceanography database (gVOD) by collecting 10 931 viral abundance (VA) data and 727 viral production (VP) data, along with host and other oceanographic parameters when available. Most VA data were obtained in the North Atlantic (32 %) and North Pacific Oceans (29 %), while the Southeast Pacific and Indian Oceans were quite under sampled. The VA in the global ocean was 1.17 (± 3.31) × 10 7 particles ml −1 . The lytic and lysogenic VP in the global ocean was 9.87 (± 24.16) × 10 5 and 2.53 (± 8.64) × 10 5 particles ml −1 h −1 , respectively. Average VA in coastal oceans was higher than that in surface open oceans [3.61 (± 6.30) × 10 7 versus 0.73 (± 1.24) × 10 7 particles ml −1 ], while average VP in coastal and surface open oceans was close. Vertically, VA, lytic and lysogenic VP deceased from surface to deep ocean by about one order of magnitude. The total number of viruses in the global ocean estimated by bin average and random forest methods was 1.4 × 10 30 particles and 1.39 × 10 30 particles, leading to an estimate of global ocean viral biomass at 32.3 and 32.2 Tg C, respectively. We expect that the gVOD will be a fundamental and very useful database for laboratory, field and modeling studies in marine ecology and biogeochemistry. The full gVOD database is stored at PANGAEA (a temporary link: https://www.pangaea.de/tok/19f9d7b496a00f57f491e639440708aee00b6a49 ).

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