2008
DOI: 10.4319/lom.2008.6.51
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Comparison of methods to determine algal δ13C in freshwater

Abstract: To accurately assess the flux of mass and energy to higher trophic levels in a food web using stable isotopes, the isotopic signature of basal sources is required. When studying aquatic food webs, it is difficult to obtain a signature for algae because of challenges associated with isolating small organisms from a bulk sample. In this study, we compared freshwater algal δ13C values obtained using five approaches from the literature. Results indicated that the signatures derived from a primary consumer such as … Show more

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Cited by 66 publications
(59 citation statements)
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“…Additionally, the d 13 C signature of phytoplankton measured in the summer by Marty and Planas [2008] in different boreal lakes and reservoirs of Quebec averaged À32.7 AE 1.7‰. The carbon isotopic signatures (d 13 C FPOC , 0.45 to 70 mm) measured for FPOM in this study ranged between À30.4‰ and À27.7‰.…”
Section: Sources Of Ommentioning
confidence: 54%
“…Additionally, the d 13 C signature of phytoplankton measured in the summer by Marty and Planas [2008] in different boreal lakes and reservoirs of Quebec averaged À32.7 AE 1.7‰. The carbon isotopic signatures (d 13 C FPOC , 0.45 to 70 mm) measured for FPOM in this study ranged between À30.4‰ and À27.7‰.…”
Section: Sources Of Ommentioning
confidence: 54%
“…To corroborate the δ 13 C DIC -based estimates, we estimated δ 13 C phyto values using an independent method that yields similar δ 13 C values to isolated algae samples (see Eq. 2 in Marty & Planas 2008). The method is a 2-source, single stable isotope mixing model that estimates δ 13 C phyto by correcting particulate organic carbon δ 13 C (δ 13 C POC ) for the relative algal biomass contribution (percent algae), which is derived from the chl a concentration (C:chl a = 80; Marty & Planas 2008).…”
Section: Discussionmentioning
confidence: 99%
“…2 in Marty & Planas 2008). The method is a 2-source, single stable isotope mixing model that estimates δ 13 C phyto by correcting particulate organic carbon δ 13 C (δ 13 C POC ) for the relative algal biomass contribution (percent algae), which is derived from the chl a concentration (C:chl a = 80; Marty & Planas 2008). The proportion of algal carbon in the POC pool was calculated according to Canuel et al (1995).…”
Section: Discussionmentioning
confidence: 99%
“…Common methods for determining δ 13 C phyto are the use of the δ 13 C of POC with correction for nonphytoplankton carbon and estimates based on δ 13 C of DIC with an isotope fractionation factor (ε), obtained from experimental studies. Other methods are the use of zooplankton consumers as a proxy for δ 13 C phyto or size fractionation of organic matter and subsequent determination of δ 13 C of different size classes (Marty and Planas, 2008).…”
Section: Introductionmentioning
confidence: 99%