Literature DB >> 27097927

Energetic differences between bacterioplankton trophic groups and coral reef resistance.

Tracey McDole Somera1, Barbara Bailey2, Katie Barott3, Juris Grasis3, Mark Hatay3, Brett J Hilton3, Nao Hisakawa3, Bahador Nosrat3, James Nulton2, Cynthia B Silveira3, Chris Sullivan4, Russell E Brainard5, Forest Rohwer3.   

Abstract

Coral reefs are among the most productive and diverse marine ecosystems on the Earth. They are also particularly sensitive to changing energetic requirements by different trophic levels. Microbialization specifically refers to the increase in the energetic metabolic demands of microbes relative to macrobes and is significantly correlated with increasing human influence on coral reefs. In this study, metabolic theory of ecology is used to quantify the relative contributions of two broad bacterioplankton groups, autotrophs and heterotrophs, to energy flux on 27 Pacific coral reef ecosystems experiencing human impact to varying degrees. The effective activation energy required for photosynthesis is lower than the average energy of activation for the biochemical reactions of the Krebs cycle, and changes in the proportional abundance of these two groups can greatly affect rates of energy and materials cycling. We show that reef-water communities with a higher proportional abundance of microbial autotrophs expend more metabolic energy per gram of microbial biomass. Increased energy and materials flux through fast energy channels (i.e. water-column associated microbial autotrophs) may dampen the detrimental effects of increased heterotrophic loads (e.g. coral disease) on coral reef systems experiencing anthropogenic disturbance.
© 2016 The Author(s).

Entities:  

Keywords:  coral reef; disease dissolved organic carbon algae and microbe; metabolic theory; microbialization; resistance

Mesh:

Year:  2016        PMID: 27097927      PMCID: PMC4855391          DOI: 10.1098/rspb.2016.0467

Source DB:  PubMed          Journal:  Proc Biol Sci        ISSN: 0962-8452            Impact factor:   5.349


  46 in total

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Authors:  Craig E Nelson; Stuart J Goldberg; Linda Wegley Kelly; Andreas F Haas; Jennifer E Smith; Forest Rohwer; Craig A Carlson
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Journal:  PLoS One       Date:  2009-04-08       Impact factor: 3.240
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