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Bacteria on the hunt
- Source :
- mBio, Vol 12, Iss 2 (2021), mBio, vol 12, iss 2, mBio
- Publication Year :
- 2021
- Publisher :
- Springer Science and Business Media LLC, 2021.
-
Abstract
- The word “predator” may conjure images of leopards killing and eating impala on the African savannah or of great white sharks attacking elephant seals off the coast of California. But microorganisms are also predators, including bacteria that kill and eat other bacteria.<br />Predation structures food webs, influences energy flow, and alters rates and pathways of nutrient cycling through ecosystems, effects that are well documented for macroscopic predators. In the microbial world, predatory bacteria are common, yet little is known about their rates of growth and roles in energy flows through microbial food webs, in part because these are difficult to quantify. Here, we show that growth and carbon uptake were higher in predatory bacteria compared to nonpredatory bacteria, a finding across 15 sites, synthesizing 82 experiments and over 100,000 taxon-specific measurements of element flow into newly synthesized bacterial DNA. Obligate predatory bacteria grew 36% faster and assimilated carbon at rates 211% higher than nonpredatory bacteria. These differences were less pronounced for facultative predators (6% higher growth rates, 17% higher carbon assimilation rates), though high growth and carbon assimilation rates were observed for some facultative predators, such as members of the genera Lysobacter and Cytophaga, both capable of gliding motility and wolf-pack hunting behavior. Added carbon substrates disproportionately stimulated growth of obligate predators, with responses 63% higher than those of nonpredators for the Bdellovibrionales and 81% higher for the Vampirovibrionales, whereas responses of facultative predators to substrate addition were no different from those of nonpredators. This finding supports the ecological theory that higher productivity increases predator control of lower trophic levels. These findings also indicate that the functional significance of bacterial predators increases with energy flow and that predatory bacteria influence element flow through microbial food webs.
- Subjects :
- DNA, Bacterial
Deltaproteobacteria
predator
Microorganism
Zoology
Bacterial Physiological Phenomena
Microbiology
Bdellovibrio
Predation
Food chain
03 medical and health sciences
Affordable and Clean Energy
Virology
18O-H2O
Animals
Bacteriophages
Ecosystem
stable isotope probing
030304 developmental biology
trophic interactions
Trophic level
Facultative
0303 health sciences
Bacteria
Obligate
General Immunology and Microbiology
biology
030306 microbiology
Ecology
digestive, oral, and skin physiology
Bacterial
O-18-H2O
DNA
Editor's Pick
biology.organism_classification
Carbon
QR1-502
Cytophaga
Infectious Diseases
Productivity (ecology)
qSIP
food webs
top-down control
Infection
Research Article
Subjects
Details
- ISSN :
- 17401534 and 17401526
- Volume :
- 19
- Database :
- OpenAIRE
- Journal :
- Nature Reviews Microbiology
- Accession number :
- edsair.doi.dedup.....98ab79807121377acfe44512b7c28fab