Abstract
While the important role of algae and bacteria is widely recognized in freshwater ecosystems, that of minute grazers, despite their high abundance, remains poorly understood. By their consumption of microalgae, their role in the microbial loop, and even their movements in the biofilm, they improve the rejuvenation of this type of ecosystem and have an important function in the connectivity of interfaces. In this study, we approach diversity issues from the standpoint of morphofunctional traits of periphytic micro-meiofauna. We collected and coded morphofunctional characteristics for several micro-meiofauna species from the literature and from our own observations to create a micro-meiofauna morphofunctional traits database inspired by the model of Usseglio-Polatera et al. (Freshw Biol 43(2):175–205, 2001). This new database of traits may represent an interesting collaborative tool which could be used to improve knowledge on micro-meiofauna and their functional role in the biofilm. We used the information to explore variations in functional traits related to trophic activity among micro-meiofauna communities. Counting data were acquired from biofilms grown in a hypereutrophic pond (Aquitaine, France) in winter and in spring. Community-weighted means (CWM) computed using the database and counting data revealed Spring food web was more complex than winter food web.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Agresti, A., 1992. A survey of exact inference for contingency tables. Statistical science 7(1): 131–153.
Artois, T., D. Fontaneto, W. D. Hummon, S. J. McInnes, M. A. Todaro, M. V. Sørensen & A. Zullini, 2011. Ubiquity of microscopic animals? Evidence from the morphological approach in species identification. Biogeography of microscopic organisms, is everything small everywhere:244–283.
Battin, T. J., K. Besemer, M. M. Bengtsson, A. M. Romani & A. I. Packmann, 2016. The ecology and biogeochemistry of stream biofilms. Nature Reviews Microbiology 14(4): 251.
Bērzinš, B. & B. Pejler, 1989. Rotifer occurrence in relation to temperature. Hydrobiologia 175(3): 223–231.
Biggs, B. J. F., 1990. Periphyton communities and their environments in New Zealand rivers. New Zealand Journal of Marine and Freshwater Research 24(3): 367–386.
Bortolus, A., 2008. Error Cascades in the Biological Sciences: The Unwanted Consequences of Using Bad Taxonomy in Ecology, vol 37. BIOONE.
Callow, M. E., 2000. Algal biofilms. In Evans, L. V. (ed.), Biofilms: Recent Advances in Their Study and Control. Harwood Academic Publ, Amsterdam: 189–209.
Canter, E. J., C. Cuellar-Gempeler, A. I. Pastore, T. E. Miller & O. U. Mason, 2018. Predator identity more than predator richness structures aquatic microbial assemblages in Sarracenia purpurea leaves. Ecology 99(3): 652–660.
Cox, E. J., 1996. Identification of freshwater diatoms from live material, Vol. 158. Chapman & Hall, London.
Cummins, K. W. & M. J. Klug, 1979. Feeding ecology of stream invertebrates. Annual Review of Ecology and Systematics 10(1): 147–172.
Elwood, J. W. & D. J. Nelson, 1972. Periphyton production and grazing rates in a stream measured with a 32P material balance method. Oikos 23: 295–303.
Erken, M., N. Farrenschon, S. Speckmann, H. Arndt & M. Weitere, 2012. Quantification of individual flagellate – bacteria interactions within semi-natural biofilms. Protist 163(4): 632–642.
Estifanos, T. K., W. Traunspurger & L. Peters, 2013. Selective feeding in nematodes: a stable isotope analysis of bacteria and algae as food sources for free-living nematodes. Nematology 15(1): 1–13.
Foissner, W., 1996. A user-friendly guide to the ciliate (Protozoa, Ciliophora) commonly used by hydrobiologists as bioindicators in rivers, lakes, and waste waters, with notes on their ecology. Freshwater Biology 35: 375–482.
Foissner, W., H. Blatterer, H. Berger & F. Kohmann, 1991. Taxonomische und ökologische Revision der Ciliaten des Saprobiensystems. Band I: Cyrtophorida, Oligotrichida, Hypotrichia, Colpodea, vol 1/91. Informationsberichte des Bayerischen Landesamtes für Wasserwirtschaft.
Foissner, W., H. Berger & F. Kohmann, 1992. Taxonomische und ökologische Revision der Ciliaten des Saprobiensystems. Band II: Peritrichia, Heterotrichida, Odontostomatida, vol 5/92. Informationsberichte des Bayerischen Landesamtes für Wasserwirtschaft.
Foissner, W., H. Berger & F. Kohmann, 1994. Taxonomische und ökologische revision der ciliaten des saprobiensystems : band III. Hymenostomata, Prostomatida, Nassulida. Bayerisches Landesamt fûr Wasserwirtschaft, Munchen, DEU
Foissner, W., H. Berger, H. Blatterer & F. Kohmann, 1995. Taxonomische und ökologische revision der ciliaten des saprobiensystems : band IV. Gymnostomatea, Loxodes, Suctoria. Bayerisches Landesamt fûr Wasserwirtschaft, Munchen, DEU
Gravel, D., C. Albouy & W. Thuiller, 2016. The meaning of functional trait composition of food webs for ecosystem functioning. Philosophical Transactions of the Royal Society B: Biological Sciences. https://doi.org/10.1098/rstb.2015.0268.
Hillebrand, H., 2002. Top-down versus bottom-up control of autotrophic biomass – a meta-analysis on experiments with periphyton. Journal of the North American Benthological Society 21(3): 349–369.
Hillebrand, H. & M. Kahlert, 2001. Effect of grazing and nutrient supply on periphyton biomass and nutrient stoichiometry in habitats of different productivity. Limnology and Oceanography 46(8): 1881–1898.
Jassey, V. E., M. Lamentowicz, L. Bragazza, M. L. Hofsommer, R. T. Mills, A. Buttler, C. Signarbieux & B. J. Robroek, 2016. Loss of testate amoeba functional diversity with increasing frost intensity across a continental gradient reduces microbial activity in peatlands. European Journal of Protistology 55: 190–202.
Jiang, Y., H. Xu, X. Hu, M. Zhu, K. A. Al-Rasheid & A. Warren, 2011. An approach to analyzing spatial patterns of planktonic ciliate communities for monitoring water quality in Jiaozhou Bay, northern China. Marine Pollution Bulletin 62(2): 227–235.
Kanavillil, N. & S. Kurissery, 2013. Dynamics of grazing protozoa follow that of microalgae in natural biofilm communities. Hydrobiologia 718(1): 93–107.
Kathol, M., H. Fischer & M. Weitere, 2011. Contribution of biofilm-dwelling consumers to pelagic–benthic coupling in a large river. Freshwater Biology 56(6): 1160–1172.
Kendrick, M. R. & A. D. Huryn, 2015. Discharge, legacy effects and nutrient availability as determinants of temporal patterns in biofilm metabolism and accrual in an arctic river. Freshwater Biology 60(11): 2323–2336.
Kydd, J., H. Rajakaruna, E. Briski & S. Bailey, 2018. Examination of a high resolution laser optical plankton counter and FlowCAM for measuring plankton concentration and size. Journal of Sea Research 133: 2–10.
Laliberté, E., P. Legendre, B. Shipley & M. E. Laliberté, 2014. Package ‘FD’. Measuring functional diversity from multiple traits, and other tools for functional ecology.
Lavorel, S., K. Grigulis, S. McIntyre, N. S. Williams, D. Garden, J. Dorrough, S. Berman, F. Quétier, A. Thébault & A. Bonis, 2008. Assessing functional diversity in the field–methodology matters! Functional Ecology 22(1): 134–147.
Levine, J. M., 2015. A trail map for trait-based studies. Nature 529: 163.
Lischke, B., G. Weithoff, S. A. Wickham, K. Attermeyer, H.-P. Grossart, K. Scharnweber, S. HIlt & U. Gaedke, 2015. Large biomass of small feeders: ciliates may dominate herbivory in eutrophic lakes. Journal of Plankton Research 38(1): 2–15.
Lock, M. A., R. R. Wallace, J. W. Costerton, R. M. Ventullo & S. E. Charlton, 1984. River Epilithon: toward a structural-functional model. Oikos 42(1): 10–22.
Lorenzen, C. & S. Jeffrey, 1980. Determination of chlorophyll in seawater. UNESCO Technical Paper in Marine Science 35(1): 1–20.
Majdi, N., B. Mialet, S. Boyer, M. Tackx, J. Leflaive, S. Boulêtreau, L. Ten-Hage, F. Julien, R. Fernandez & E. Buffan-Dubau, 2011. The relationship between epilithic biofilm stability and its associated meiofauna under two patterns of flood disturbance. Freshwater Science 31(1): 38–50.
Majdi, N., M. Tackx & E. Buffan-Dubau, 2012. Trophic positioning and microphytobenthic carbon uptake of biofilm-dwelling meiofauna in a temperate river. Freshwater Biology 57(6): 1180–1190.
Martin, E. C., K. B. Gido, N. Bello, W. K. Dodds & A. Veach, 2016. Increasing fish taxonomic and functional richness affects ecosystem properties of small headwater prairie streams. Freshwater Biology 61(6): 887–898.
Muscarella, R. & M. Uriarte, 2016. Do community-weighted mean functional traits reflect optimal strategies? Proceedings of the Royal Society B: Biological Sciences 283(1827): 20152434.
Neury-Ormanni, J., J. Vedrenne & S. Morin, 2016. Who eats who in biofilms? Exploring the drivers of microalgal and micro-meiofaunal abundance. Botany Letters 163(2): 83–92.
Norf, H. & M. Weitere, 2010. Resource quantity and seasonal background alter warming effects on communities of biofilm ciliates. FEMS Microbiology Ecology 74(2): 361–370.
Paine, R. T., 1966. Food web complexity and species diversity. The American Naturalist 100(910): 65–75.
Pakeman, R. J., E. Garnier, S. Lavorel, P. Ansquer, H. Castro, P. Cruz, J. Doležal, O. Eriksson, H. Freitas, C. Golodets, J. Kigel, M. Kleyer, J. Lepš, T. Meier, M. Papadimitriou, V. P. Papanastasis, H. Quested, F. Quétier, G. Rusch, M. Sternberg, J.-P. Theau, A. Thébault & D. Vile, 2008. Impact of abundance weighting on the response of seed traits to climate and land use. Journal of Ecology 96(2): 355–366.
Petchey, O. L., P. T. McPhearson, T. M. Casey & P. J. Morin, 1999. Environmental warming alters food-web structure and ecosystem function. Nature 402(6757): 69.
Pfister, G., B. Auer & H. Arndt, 2002. Pelagic ciliates (Protozoa, Ciliophora) of different brackish and freshwater lakes – a community analysis at the species level. Limnologica – Ecology and Management of Inland Waters 32(2): 147–168.
Pratt, J. R. & J. Cairns, 1985. Functional groups in the protozoa: roles in differing ecosystems 1,2. The Journal of Protozoology 32(3): 415–423.
Schmid-Araya, J. M. & P. E. Schmid, 2000. Trophic relationships: integrating meiofauna into a realistic benthic food web. Freshwater Biology 44(1): 149–163.
Schmitz, O. J., R. W. Buchkowski, K. T. Burghardt & C. M. Donihue, 2015. Functional traits and trait-mediated interactions: connecting community-level interactions with ecosystem functioning. In Pawar, S., G. Woodward & A. I. Dell (eds), Advances in Ecological Research, Vol. 52. Academic Press, New York: 319–343.
Schroeder, F., W. Traunspurger, K. Pettersson & L. Peters, 2012. Temporal changes in periphytic meiofauna in lakes of different trophic states. Journal of Limnology 71(1): e23-e23.
Sekar, R., K. Nair, V. Rao & V. Venugopalan, 2002. Nutrient dynamics and successional changes in a lentic freshwater biofilm. Freshwater Biology 47(10): 1893–1907.
Stanca, E., M. Cellamare & A. Basset, 2013. Geometric shape as a trait to study phytoplankton distributions in aquatic ecosystems. Hydrobiologia 701(1): 99–116.
Tachet, H., P. Richoux, M. Bourneau & P. Usseglio-Polatera, 2010. Freshwater Invertebrates, Systematics, Biology. Ecology CNRS Editions, Paris.
Usseglio-Polatera, P., M. Bournaud, P. Richoux & H. Tachet, 2001. Biological and ecological traits of benthic freshwater macroinvertebrates: relationships and definition of groups with similar traits. Freshwater Biology 43(2): 175–205.
Villanueva, V. D., J. Font, T. Schwartz & A. M. Romaní, 2011. Biofilm formation at warming temperature: acceleration of microbial colonization and microbial interactive effects. Biofouling 27(1): 59–71.
Villéger, S., N. W. Mason & D. Mouillot, 2008. New multidimensional functional diversity indices for a multifaceted framework in functional ecology. Ecology 89(8): 2290–2301.
Violle, C., M.-L. Navas, D. Vile, E. Kazakou, C. Fortunel, I. Hummel & E. Garnier, 2007. Let the concept of trait be functional! Oikos 116(5): 882–892.
Watson, M. G., A. J. Scardino, L. Zalizniak & J. Shimeta, 2015. Colonisation and succession of marine biofilm-dwelling ciliate assemblages on biocidal antifouling and fouling-release coatings in temperate Australia. Biofouling 31(9–10): 709–720.
Weisse, T., R. Anderson, H. Arndt, A. Calbet, P. J. Hansen & D. J. S. Montagnes, 2016. Functional ecology of aquatic phagotrophic protists – concepts, limitations, and perspectives. European Journal of Protistology 55: 50–74.
Weitere, M., M. Erken, N. Majdi, H. Arndt, H. Norf, M. Reinshagen, W. Traunspurger, A. Walterscheid & J. K. Wey, 2018. The food web perspective on aquatic biofilms. Ecological Monographs. https://doi.org/10.1002/ecm.1315.
Xu, Y., T. Stoeck, D. Forster, Z. Ma, L. Zhang & X. Fan, 2018. Environmental status assessment using biological traits analyses and functional diversity indices of benthic ciliate communities. Marine Pollution Bulletin 131: 646–654.
Acknowledgements
We thank Mélissa Eon and Brigitte Delest, Betty Chaumet and Aurélie Moreira for physical and chemical and toxic analyses, and Sylvia Moreira for water chlorophyll measurements. We are grateful to Nabil Majdi, Walter Traunspurger and Jenny Schmid-Araya for inviting us to contribute to the Meiofauna special issue. We thank the reviewers which gave helpful comments that improved the paper considerably and Emilie Saulnier-Talbot for English grammar. This work was partially supported by the Adour-Garonne Water Agency.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Guest editors: Nabil Majdi, Jenny M. Schmid-Araya & Walter Traunspurger / Patterns and Processes of Meiofauna in Freshwater Ecosystems
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Neury-Ormanni, J., Vedrenne, J., Wagner, M. et al. Micro-meiofauna morphofunctional traits linked to trophic activity. Hydrobiologia 847, 2725–2736 (2020). https://doi.org/10.1007/s10750-019-04120-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10750-019-04120-0