%0 Journal Article
%A Moschen, R.
%A Lücke, A.
%A Parplies, J.
%A Schleser, G. H.
%T Controls on the seasonal and interannual dynamics of organic matter carbon isotopes in mesotrophic Lake Holzmaar, Germany
%J Limnology and oceanography / Methods
%V 54
%@ 1541-5856
%C Waco, Tex.
%I ASLO
%M PreJuSER-3791
%P 194 - 209
%D 2009
%Z This work was supported by a postdoctoral fellowship to Robert Moschen and a Ph. D. grant to Jorn Parplies from Forschungszentrum Julich. Additional financial support was provided by the Federal Ministry of Education and Research through the German Climate Research Program (DEKLIM, grant 01LD0001) and the project "Climate in Historical Times KIHZ."
%X We investigated the particulate organic matter (POM) flux and its stable carbon isotope composition in response to changes in phytoplankton primary production and abiotic environmental affects in mesotrophic Lake Holzmaar. POM fluxes were determined by sediment traps emptied biweekly from 1995 to 2004. Water chemical measurements and meteorological observations were done concurrently. POM fluxes within and directly below the lake's epilimnion were relatively low during winter (<0.5 g m(-2) d(-1)) and increased to 1.0-1.5 g m(-2) d(-1) during summer months because of enlarged phytoplankton production. In contrast, in the lake's hypolimnion a much higher POM flux was observed during winter as result of resuspension of particulate material from the lake's bottom. C:N (weight, total organic carbon : total nitrogen) ratios of settling organic matter vary around 8 at all three depths, indicating a predominant phytoplankton origin of POM. The annual epilimnic POM flux correlates with the epilimnic phosphate concentration early in the seasonal cycle, indicating that the supply of phosphate is the major control on the amount of algal biomass. A recurrent annual oscillation of the stable carbon isotope composition of POM with low delta C-13 values during winter and more positive values during summer is interpreted as the result of phytoplankton primary production. A close delta C-13(POM)-POM flux relationship was observed, testifying to the primary dependence of delta C-13(POM) on lacustrine primary production. Contrary to POM flux, the epilimnic delta C-13(POM) signal is transferred to the lakes bottom notwithstanding sediment resuspension and microbial alteration. Our results demonstrate that sedimentary stable carbon isotopes are a valuable proxy for lacustrine paleo-productivity in Lake Holzmaar.
%K J (WoSType)
%F PUB:(DE-HGF)16
%9 Journal Article
%U <Go to ISI:>//WOS:000265168800016
%R 10.4319/lo.2009.54.1.0194
%U https://juser.fz-juelich.de/record/3791