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Methane as a carbon source for the food web in raised bog pools
van Duinen, G.A.; Vermonden, K.; Bodelier, P.L.E.; Hendriks, A.J.; Leuven, R.S.E.W.; Middelburg, J.J.; van der Velde, G.; Verberk, W.C.E.P. (2013). Methane as a carbon source for the food web in raised bog pools. Freshwater Science 32(4): 1260–1272. https://dx.doi.org/10.1899/12-121.1
In: Freshwater Science. Society for Freshwater Science: Waco. ISSN 2161-9549; e-ISSN 2161-9565, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoord
Author keywords
    peatland, algae, methane-oxidizing bacteria, zooplankton, insects, stable isotopes, fatty acids

Auteurs  Top 
  • van Duinen, G.A.
  • Vermonden, K.
  • Bodelier, P.L.E., meer
  • Hendriks, A.J.
  • Leuven, R.S.E.W.
  • Middelburg, J.J., meer
  • van der Velde, G.
  • Verberk, W.C.E.P.

Abstract
    Raised bog pools are extremely nutrient poor and rich in humic substances, and these features limit primary production. To assess the base of the invertebrate food web in bog pools we measured the stable-isotopic signatures of primary producers, dead organic matter, and invertebrates, and the composition and stable-C-isotope ratio of their phospholipid-derived fatty acids (PLFAs). The stable-isotopic signatures showed the presence of multiple trophic levels and differential use of basal food sources by the invertebrates among and within species, individuals, and size classes. Carnivorous and omnivorous invertebrates assimilated polyunsaturated fatty acids (PUFAs) derived from algae, and possibly macrophytes, and fatty acids that are specific for methane-oxidizing bacteria (MOB). Part of the bacterial biomass conveyed to higher trophic levels in the bog pools originated from MOB. Pelagic zooplankton appeared to rely more on bacteria, whereas insects relied more on algae. Periphyton, a primary algal food source, was the basal food source most depleted in 13C and was inferred to sustain =½ the invertebrate food web. The relatively depleted d13C values of PUFAs in invertebrates suggest a role for methane-derived C. We argue that the CO2 assimilated by the algae could be derived from MOB. Therefore, depleted d13C values of invertebrates do not necessarily indicate a direct pathway between MOB and these invertebrates because algae may form an intermediate level.

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