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JPR Advance Access published online on November 2, 2009
Journal of Plankton Research, doi:10.1093/plankt/fbp099
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© The Author 2009. Published by Oxford University Press. All rights reserved. For permissions, please email: journals.permissions@oxfordjournals.org

Ontogenetic differences in isotopic signatures and crop contents of Chaoborus

Anurani D. Persaud* and Peter J. Dillon

Department of Chemistry, Trent University, Peterborough, Ontario, Canada K9J 7B8

* CORRESPONDING AUTHOR: adpersaud{at}trentu.ca or limno_girl{at}yahoo.ca

Received on May 8, 2009; accepted on October 1, 2009


  Abstract

Intra-specific changes in trophic interactions due to ontogenetic transformations in macro-invertebrates can add to complexity of freshwater food webs. The objectives of this study are therefore to examine isotopic signatures and crop contents of different Chaoborus species and life stages, and to determine whether ontogenetic changes in diet are reflected in their isotopic signatures. Different Chaoborus species and life stages were collected from 15 Precambrian Shield lakes for stable isotope and crop contents analyses. In general, early instar Chaoborus {delta}13C and {delta}13CLC (lipid corrected {delta}13C) signatures were enriched in 13C, while their {delta}15NDC (Daphnia corrected {delta}15N) signatures were lower compared to those of late instars and pupae. Larval Chaoborus size was significantly related to their {delta}13C, {delta}13CLC&DC (lipid and Daphnia corrected {delta}13C), and {delta}15NDC isotopic signatures. Chaoborus crop contents varied among species and larval instars. Generally, rotifers were numerically predominant in crops, with declining abundance in late instars. Larger quantities of copepods, nauplii and cladocerans were found in crops of late instars compared with early instars. Overall, early instars consumed more rotifers and phytoplankton and had lower {delta}15NDC, whereas late instars consumed comparatively larger quantities of copepods, nauplii, cladocerans and early instars, and had higher {delta}15NDC. Together, our results show that there are differences among larval Chaoborus life stages. Hence, different instars of these important aquatic predators cannot be grouped together, but should be separated by species and life stage when examining trophic interactions in freshwater food webs.

Corresponding editor: Mark J. Gibbons


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