Widespread Contribution of Methane-cycle Bacteria to the Diets of Lake Profundal Chironomid Larvae

Reports of unexpectedly 13C-depleted chironomid larvae in lakes have led to an hypothesis that significant transfer of detrital organic matter to chironomid larvae may occur via methane-cycle bacteria. However, to date little is known of how such transfer might vary across species and lakes. We gath...

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Bibliographic Details
Published inEcology (Durham) Vol. 89; no. 3; pp. 857 - 864
Main Authors Jones, R.I, Carter, C.E, Kelly, A, Ward, S, Kelly, D.J, Grey, J
Format Journal Article
LanguageEnglish
Published United States 01.03.2008
Subjects
Animals
aquatic insects
aquatic organisms
bacteria
Biomass
carbon
Carbon Isotopes
Chironomidae
Chironomidae - metabolism
Chironomus
Chironomus anthracinus
Chironomus plumosus
Chironomus tenuistylus
detritus
diet
environmental models
eutrophication
Food Chain
food webs
Fresh Water
insect growth
lakes
Larva - metabolism
larvae
methane
Methane - metabolism
Methanobacteriaceae - metabolism
methanotrophs
organic matter
oxygen
Oxygen - metabolism
simulation models
species differences
stable isotopes
summer
trophic relationships
New Zealand
Malaysia
Kenya
Mali
Europe
Japan
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Summary:Reports of unexpectedly 13C-depleted chironomid larvae in lakes have led to an hypothesis that significant transfer of detrital organic matter to chironomid larvae may occur via methane-cycle bacteria. However, to date little is known of how such transfer might vary across species and lakes. We gathered data from 87 lakes to determine how widespread this phenomenon might be and to define boundaries for its likely magnitude. Carbon stable isotope values of chironomid larvae varied greatly between taxa. Very marked 13C-depletion was evident only in certain taxa, especially Chironomus plumosus, C. anthracinus, and C. tenuistylus, all characteristic of eutrophic or dystrophic lakes and known to be tolerant of low oxygen conditions. Furthermore, marked 13C-depletion was only found in larvae from lakes in which late-summer hypolimnetic oxygen depletion near the sediment surface was below an apparent threshold concentration of 2-4 mg O2/L. Similarly, application of a two-source mixing model suggested that methanotrophic bacteria made the greatest contribution to profundal chironomid growth (0-70% of larval carbon) when the late-summer oxygen concentration dropped below approximately 2 mg O2/L. Our study demonstrates that methane-derived carbon is an important, but often neglected, contribution to the flux of carbon through the food webs of many productive or dystrophic lakes.
ISSN:0012-9658
1939-9170
DOI:10.1890/06-2010.1