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The virus’s tooth: cyanophages affect an African flamingo population in a bottom-up cascade

cyanophages affect an African flamingo population in a bottom-up cascade

descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Other literature type , Journal 16 Jan 2014 Austria Publisher:Oxford University Press (OUP)Journal:The ISME Journal, volume 8, pages 1,346-1,351 (issn: 1751-7362, eissn: 1751-7370,

Authors: Michael Gruber; Peter Peduzzi; Michael Schagerl; Martin Gruber;

doi: 10.1038/ismej.2013.241

pmid: 24430484

pmc: PMC4030235

The virus’s tooth: cyanophages affect an African flamingo population in a bottom-up cascade

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Abstract

Abstract Trophic cascade effects occur when a food web is disrupted by loss or significant reduction of one or more of its members. In East African Rift Valley lakes, the Lesser Flamingo is on top of a short food chain. At irregular intervals, the dominance of their most important food source, the cyanobacterium Arthrospira fusiformis, is interrupted. Bacteriophages are known as potentially controlling photoautotrophic bacterioplankton. In Lake Nakuru (Kenya), we found the highest abundance of suspended viruses ever recorded in a natural aquatic system. We document that cyanophage infection and the related breakdown of A. fusiformis biomass led to a dramatic reduction in flamingo abundance. This documents that virus infection at the very base of a food chain can affect, in a bottom-up cascade, the distribution of end consumers. We anticipate this as an important example for virus-mediated cascading effects, potentially occurring also in various other aquatic food webs.

Country

Austria

Related Organizations

Keywords

Food Chain, TROPHIC CASCADES, SDG 14 – Leben unter Wasser, flamingo, virus, ALKALINE LAKES, Cyanobacteria, Birds, ECOSYSTEMS, PHOENICONAIAS-MINOR, Animals, Bacteriophages, SDG 14 - Life Below Water, Biomass, cyanophage, 106022 Mikrobiologie, bottom-up cascade, LESSER FLAMINGO, Kenya, Lakes, food chain, soda lake, MARINE SYNECHOCOCCUS, Phytoplankton, PATTERNS, 106022 Microbiology, GENETIC DIVERSITY, Original Article, COMMUNITIES, RIFT-VALLEY LAKES

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