Herbivorous cladoceran essential fatty acid and cholesterol content across a phosphorous and DOC gradients of boreal lakes : Importance of diet selection
Keva, O., Litmanen, J. J., Kahilainen, K. K., Strandberg, U., Kiljunen, M., Hämäläinen, H., & Taipale, S. J. (2023). Herbivorous cladoceran essential fatty acid and cholesterol content across a phosphorous and DOC gradients of boreal lakes : Importance of diet selection. Freshwater Biology, 68(5), 752-766. https://doi.org/10.1111/fwb.14061
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Freshwater BiologyAuthors
Date
2023Discipline
YmpäristötiedeAkvaattiset tieteetResurssiviisausyhteisöEnvironmental ScienceAquatic SciencesSchool of Resource WisdomCopyright
© 2023 The Authors. Freshwater Biology published by John Wiley & Sons Ltd.
1. Eutrophication has been shown to increase production of nutritionally low-quality cyanobacteria and decrease the long-chain polyunsaturated fatty acid (PUFA) content of seston. Contrarily, lake browning inhibits cyanobacteria contribution in seston and favours poorly grazable mixotrophic algal species. These environmental changes have probable impacts on the diet and long-chain PUFA content of primary consumers. However, herbivorous zooplankton may preferentially retain PUFAs through diet selection for optimal growth and reproduction, but such selective feeding is challenging to document in nature owing to the difficulties in quantifying zooplankton diet.
2. Here, we sampled seston and herbivorous cladocerans (Daphnia sp. and Bosmina sp.) from lakes (n = 23) in Finland along eutrophication (total phosphorous) and browning gradients (dissolved organic carbon [DOC]). We analysed the fatty acid content of seston (mg FA/g POC [particular organic content]) and cladocerans (mg FA/g C), and estimated available and consumed diet biomass percentages with quantitative fatty acid signature analysis. Cladoceran diet preference was evaluated as the difference between consumed and available food sources, to understand if they preferentially retain high nutritional quality diet.
3. Generally, lake chemistry and morphometry poorly explained seston and cladoceran long-chain PUFA contents. However, multiple linear models for shorter chain PUFAs (linoleic acid [LA] and alpha-linolenic acid [ALA]) performed better in explaining variation in the LA and ALA content of seston (20% and 11%) and cladocerans (36% and 46%, respectively). The factors most strongly and positively associated with the LA and ALA content of seston and cladocerans were phosphorus and DOC concentrations, respectively.
4. Seston and cladoceran PUFA contents were clearly uncorrelated. In most of the sampled lakes, high-quality diet (i.e., diatoms and cryptomonads) was preferred by cladocerans and low-quality diet (cyanobacteria) was avoided. Lake chemistry poorly explained cladoceran diet preference, but high-quality preference was positively associated with lake average depth.
5. In summary, our space-for-time study approach did not reveal that eutrophication or browning downgraded the seston nor cladoceran PUFA quality. We found no correlation with seston and cladoceran PUFA content, but a clear mismatch between available and consumed diet. Our results suggest a selective feeding strategy of cladocerans, possibly through foraging in high-quality algae patches or selective assimilation of PUFAs.
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We thank Jos Schilder for his valuable contribution to field sampling and sample processing, and Paula Kankaala for critical comments on the manuscript. Lammi Biological Station provided facilities during the field sampling campaigns. The University of Jyväskylä provided excellent laboratory facilities for the FA analyses and graduate funding to OK. This research also was supported by Academy of Finland research grant 333564 awarded to SJT, grant 310450 to Paula Kankaala, 285619 to Roger Jones and HH, and grants 338261, 346541 to US. JJL was funded by Finnish Cultural Fund research grant 00200666. ...License
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