Can planktonic food web topology be retraced by biomass measurements without internal and input flows (production and grazing rate) in freshwater marshes?
Main Article Content
Abstract
An accurate way to estimate the planktonic food web topology is to consider biomass and flows. However, measurements of flows, as production and grazing rate, are time-consuming. In this paper, we retrace food web topology based on three different degrees of information: input flows (production), internal flows (grazing rate) and plankton biomass in freshwater marshes. For that, a meta-analysis of datasets from 4 freshwater marshes of the Charente-Maritime (French Atlantic coast) were used, corresponding to 47 stations/dates and thus to different geographical and temporal situations. The main results were that, globally, the biomass can yield good results in terms of characterization of the contrasted topology of food web, as the herbivorous food web, the microbial food web and the multivorous food web. However, in order to properly distinguish weak, ‘normal‘ multivorous and strong multivorous food web, the only measure of biomass did not appear to be sufficient. To better separate these different types of multivorous food webs, measurements of primary productions or heterotrophic prokaryote biomass, which correlated well with primary productions, appear interesting. This approach can be applied in all aquatic ecosystems.
Article Details
This work is licensed under a Creative Commons Attribution 4.0 International License.
Licence CC-BY 4.0
References
Calbet A, Martínez RA, Isaria S, Zervoudaki B, Nejstgaard JC, Paraskevi P, Sazhin AF, Sousoni D, Gomes A, Berger SA, Tsagaraki TM, Ptacnikh R 2012. Effects of light availability on mixotrophy and microzooplankton grazing in an oligotrophic plankton food web: Evidences from a mesocosm study in Eastern Mediterranean waters. J. Exp. Mar. Bio. Ecol. 424-425:66-77
Ducklow HW 1992. Factors regulating bottom-up control of bacterial biomass in open ocean plankton communities. Arch Hydrobiol Beih 37:207-217
Dupuy C, Ryckaert M, Le Gall S, Hartmann HJ 2007. Seasonal variations of planktonic communities in Atlantic Coastal pond: importance of nanoflagellates. Microb. Ecol. 53:537-548
Frost BW 1972. Effects of size concentration of food particles on the feeding behavior of the marine planktonic copepod Calanus pacificus. Limnol Oceanogr 17: 805–815
Glé C, Del Amo Y, Bec B, Sautour B, Froidefond JM, Gohin F, Maurer D, Plus M, Laborde P, Chardy P 2007. Typology of environmental conditions at the onset of winter phytoplankton blooms in a shallow macrotidal coastal ecosystem, arcachon bay (france). J. Plankton Res. 29:999-1014
Guenther MAC, Alejandro ESF, Costa B, Valdylene T, Pessoa-Fidelis B, Neumann-Leitão BS. 2019. Seasonal variations in plankton trophic structure under highly eutrophic conditions. Marine and Freshwater Res. 71: 641-652
Legendre L, Rassoulzadegan F 1995. Plankton and nutrient dynamics in marine waters. Ophelia 41:153-172
Marquis E, Niquil N, Delmas D, Hartmann HJ, Bonnet D, Carlotti F, Herbland A, Labry C, Sautour B, Laborde P, Vézina A, Dupuy C 2007. Inverse analysis of the planktonic food web dynamics related to phytoplankton bloom development on the continental shelf of the bay of biscay, french coast. Est. Coast Shelf Sci. 73:223-235
Masclaux H, Tortajada S, Philippine O, Robin FX, Dupuy C 2014. Planktonic food web structure and dynamic in freshwater marshes after a lock closing in early spring. Aquat. Sci. 77:115-128
Kousri MK, Zouari BA, Meddeb M et al. 2023. Structure of planktonic food web in the Gulf of Gabès (Southeastern Mediterranean): potential importance of heterotrophic and mixotrophic microzooplankton. Aquat. Sci. 85, 61
Mcqueen DJ, Johannes MRS, Post JR, Stewart TJ, Lean DRS 1989. Bottom-up and top-down impacts on freshwater pelagic community structure. Ecol. Monogr. 59:289-309
Moss B, Mcgowan S, Carvalho L 1994. Determination of phytoplankton crops by top-down and bottom-up mechanisms in a group of english lakes, the west midland meres. Limnol. Oceanogr. 39:1020-1029
Pillai H, Anilkumar N, Achuthankutty C, Mendes C, Sabu P, Jayalakshmi K, Devi CA, Dessai D, George J, Pavithran S, Hari Devi C, Tripathy S, Menon N 2018. Planktonic food web structure at SSTF and PF in the Indian sector of the Southern Ocean during austral summer 2011. Polar Res. 37
Sakka A, Niquil N, Legendre L 2014. Planktonic food webs revisited: Reanalysis from the linera inverse approach. Progr. Oceanogr. 120:216-229
Šolić M, Šantić D, Šestanović S, Bojanić N, Grbec B, Jozić S, Vrdoljak A, Ordulj M, Matić F, Kušpilić G, Gladan ŽN 2020. Impact of water column stability dynamics on the succession of plankton food web types in the offshore area of the Adriatic Sea. J. Sea Res. 158:101860
Tortajada S, David V, Brahmia A, Dupuy C, Laniesse T, Parinet B, Pouget F, Rousseau F, Simon-Bouhet B, Robin FX 2011. Variability of salt- and freshwater marsh characteristics on the west coast of france: A spatiotemporal assessment. Water Res. 45:4152-4168