BG Biogeosciences BG Biogeosciences 1726-4189 Copernicus Publications Göttingen, Germany 10.5194/bg-10-4861-2013 Benthic communities in the deep Mediterranean Sea: exploring microbial and meiofaunal patterns in slope and basin ecosystems Sevastou K. 1 Lampadariou N. 1 Polymenakou P. N. 2 Tselepides A. 3 Hellenic Centre for Marine Research, Institute of Oceanography, P.O. Box 2214, 710 03, Heraklion, Crete, Greece Hellenic Centre for Marine Research, Institute of Marine Biology and Genetics, P.O. Box 2214, 710 03, Heraklion, Crete, Greece University of Piraeus, Department of Maritime Studies, G. Lambraki 21 & Distomou, 135 82, Piraeus, Greece 18 07 2013 10 7 4861 4878 Copyright: © 2013 K. Sevastou et al. 2013 This work is licensed under the Creative Commons Attribution 3.0 Unported License. To view a copy of this licence, visit https://creativecommons.org/licenses/by/3.0/ This article is available from https://bg.copernicus.org/articles/10/4861/2013/bg-10-4861-2013.html The full text article is available as a PDF file from https://bg.copernicus.org/articles/10/4861/2013/bg-10-4861-2013.pdf

The long-held perception of the deep sea consisting of monotonous slopes and uniform oceanic basins has over the decades given way to the idea of a complex system with wide habitat heterogeneity. Under the prism of a highly diverse environment, a large dataset was used to describe and compare spatial patterns of the dominant small-size components of deep-sea benthos, metazoan meiofauna and microbes, from Mediterranean basins and slopes. A grid of 73 stations sampled at five geographical areas along the central-eastern Mediterranean Basin (central Mediterranean, northern Aegean Sea, Cretan Sea, Libyan Sea, eastern Levantine) spanning over 4 km in depth revealed a high diversity, irrespective of the benthic group or level of taxonomic analysis. A common decreasing bathymetric trend was detected for meiobenthic abundance, major taxa diversity and nematode genera richness, but no differences were found between the two habitats (basin vs slope). In contrast, microbial richness is significantly higher at the basin ecosystem and tends to increase with depth. Multivariate analyses (β- and δ-diversity and ordination analysis) complemented these results and underlined the high within-habitat variability of benthic communities. Meiofaunal communities in particular were found to change gradually and vary more towards the abyss. On the other hand, microbial communities were highly variable, even among samples of the same area, habitat and bathymetry. A significant proportion of the variation of benthic communities and their descriptors was explained by depth and proxies of food availability (sedimentary pigments and organic content), but the combination of predictor variables and the strength of the relationship varied depending on the data set used (based on type of habitat, benthic component, taxonomic level). This, along with the observed high within-habitat variability suggests that other factors, which tend to vary at local scale (hydrodynamics, substrate structure, geochemistry, food quality, etc.), may also relate to the observed benthic patterns. Overall, the results presented here suggest that differences in small-size benthos between the basin and slope habitats are neither strong nor consistent; it appears that within-habitat variability is high, differences among depth ranges are important and further investigation of possible environmental drivers of benthic patterns is needed.

 References Anderson, M. J.: Permutation tests for univariate or multivariate analysis of variance and regression, Can. J. Fish. Aquat. Sci., 58, 626–639, 2001. Anderson, M. J.: Distance-based tests for homogeneity of multivariate dispersions, Biometrics, 62, 245–253, 2006. Anderson, M. J., Ellingsen, K. E., and McArdle, B. H.: Multivariate dispersion as a measure of beta diversity, Ecol. Lett., 9, 683–93, 2006. Anderson, M. J., Gorley, R. N., and Clarke, K. R.: PERMANOVA + for PRIMER: Guide to Software and Statistical Methods, PRIMER-E: Plymouth, UK, 2008. Baguley, J. G., Montagna, P., Lee, W., Hyde, L., and Rowe, G.: Spatial and bathymetric trends in Harpacticoida (Copepoda) community structure in the Northern Gulf of Mexico deep-sea, J. Exp.Mar. Biol. Ecol., 330, 327–341, 2006. Bienhold, C., Boetius, A., and Ramette, A.: The energy–diversity relationship of complex bacterial communities in Arctic deep-sea sediments, ISME J., 6, 724–732, 2012. Bowman, J. P. and McCuaig, R. D.: Biodiversity, community structural shifts, and biogeography of prokaryotes within Antarctic continental shelf sediment, Appl. Environ. Microbiol., 69, 2463–2483, 2003. Canals, M., Danovaro, R., Heussner, S., Lykousis, V., Puig, P., Trincardi, F., Calafat, A., Durrieu de Madron, X., and Palanques, A.: Cascades in Mediterranean submarine grand canyons, Oceanography, 22, 26–43, 2009. Claesson, M. J., O'Sullivan, O., Wang, Q., Nikkila, J., Marchesi, J. R., Smidt, H., de Vos, W. M., Ross, R. P., and O'Toole, P. W.: Comparative analysis of pyrosequencing and a phylogenetic microarray for exploring microbial community structures in the human distal intestine, Plos One, 4, e6669, <a href="http://dx.doi.org/10.1371/journal.pone.0006669">https://doi.org/10.1371/journal.pone.0006669</a>, 2009. Clarke, K. and Gorley, R.: PRIMER v6 User manual/Tutorial. PRIMER-E Ltd, Plymouth, 2006. Colwell, R. K.: EstimateS: Statistical estimation of species richness and shared species from samples, Version 8, Persistent, <a href="www.purl.oclc.org/estimates">www.purl.oclc.org/estimates</a>, 2006. Danovaro, R., Della Croce, N., Eleftheriou, A., Fabiano, M., Papadopoulou, N., Smith, C., and Tselepidis, A.: Meiofauna of the deep Eastern Mediterranean Sea: distribution, and abundance in relation to bacterial biomass, organic matter composition and other environmental factors, Prog. Oceanogr., 36, 329–341, 1995. Danovaro, R., Dinet, A., Duineveld, G., and Tselepides, A.: Benthic response to particulate fluxes in different trophic environments: a comparison between the Gulf of Lions-Catalan Sea (western-Mediterranean) and the Cretan Sea (eastern-Mediterranean), Prog. Oceanogr., 44, 287–312, 1999. Danovaro, R., Gambi, C., Lampadariou, N., and Tselepides, A.: Deep-sea nematode biodiversity in the Mediterranean basin: testing for longitudinal, bathymetric and energetic gradients, Ecography, 31, 231–244, 2008. Danovaro, R., Canals, M., Gambi, C., Heussner, S., Lampadariou, N., and Vanreusel, A.: Exploring benthic biodiversity patterns and hotspots on European margin slopes, Oceanography, 22, 16–25, 2009a. Danovaro, R., Bianchelli, S., Gambi, C., Mea, M., and Zeppilli, D.: α-, β-, γ-, δ- and $\varepsilon $-diversity of deep-sea nematodes in canyons and open slopes of Northeast Atlantic and Mediterranean margins, Mar. Ecol. Prog. Ser., 396, 197–209, 2009b. Danovaro, R., Company, J. B., Corinaldesi, C., D' Onghia, G., Galil, B., Gambi, C., Gooday, A. J., Lampadariou, N., Luna, G. M., Morigi, C., Olu, K., Polymenakou, P., Ramirez-Llodra, E., Sabbatini, A., Sardà, F., Sibuet, M., and Tselepides, A.: Deep-sea biodiversity in the Mediterranean Sea: the known, the unknown, and the unknowable, PloS one, 5, e11832, <a href="http://dx.doi.org/10.1371/journal.pone.0011832">https://doi.org/10.1371/journal.pone.0011832</a>, 2010. Ellingsen, K. E.: Soft-sediment benthic biodiversity on the continental shelf in relation to environmental variability, Mar. Ecol. Prog. Ser., 232, 15–27, 2002. Ellingsen, K. E. and Gray, J. S.: Spatial patterns of benthic diversity: is there a latitudinal gradient along the Norwegian continental shelf?, J. Anim. Ecol., 71, 373–389, 2002. Gambi, C., Lampadariou, N., and Danovaro, R.: Latitudinal, longitudinal and bathymetric patterns of abundance, biomass of metazoan meiofauna: importance of the rare taxa and anomalies in the deep Mediterranean Sea, Adv. Oceanogr. Limnol., 1, 167–197, 2010. Giere, O.: Meiobenthology: the microscopic motile fauna of aquatic sediments. Springer, Heidelberg, 2009. Gray, J. S., Bjorgesaeter, A., and Ugland, K. I.: The impact of rare species on natural assemblages. J. Anim. Ecol., 74, 1131–1139, 2005. Hedges, J. I. and Stern, J. H.: Carbon and nitrogen determination of carbonate-containing solids, Limnol. Oceanogr., 29, 657–663, 1984 Jones, R. T., Robenson, M. S., Lauber, C. L., Hamady, M., Knighy, R., and Fierer, N.: A comprehensive survey of soil acidobacterial diversity using pyrosequencing and clone library analyses, ISME J., 3, 442–453, 2009. Kouridaki, I., Polymenakou, P. N., Tselepides, A., Mandalakis, M., and Smith, K.L. Jr: Phylogenetic diversity of sediment bacteria from the deep Northeastern Pacific Ocean: a comparison with the deep Eastern Mediterranean Sea, Int. Microbiol., 13, 143–150, 2010. Lambshead, P. J. D., Tietjen, J., Ferrero, T., and Jensen, P.: Latitudinal diversity gradients in the deep sea with special reference to North Atlantic nematodes, Mar. Ecol. Prog. Ser., 194, 159–167, 2000. Lambshead, P. J. D., Brown, C. J., Ferrero, T. J., Mitchell, N. J., Smith, C. R., Hawkins, L. E., and Tietjen, J.,: Latitudinal diversity patterns of deep-sea marine nematodes and organic fluxes: a test from the central equatorial Pacific, Mar. Ecol. Prog. Ser., 236, 129–135, 2002. Lampadariou, N., and Tselepides, A.: Deep-sea meiofauna from the Aegean Sea (eastern Mediterranean): spatial variability, Proceedings of the 6th Hellenic Symposium on Oceanography and Fisheries, 270–274, 2000. Lampadariou, N. and Tselepides, A.: Spatial variability of meiofaunal communities at areas of contrasting depth and productivity in the Aegean Sea (NE Mediterranean), Prog. Oceanogr., 69, 19–36, 2006. Lampadariou, N., Tselepides, A., and Hatziyanni, E.: Deep-sea meiofaunal and foraminiferal communities along a gradient of primary productivity in the eastern Mediterranean Sea, Sci. Mar., 73, 337–345, 2009. Levin, L. A. and Sibuet, M.: Understanding Continental Margin Biodiversity: A New Imperative, Annu. Rev. Mar. Sci, 4, 79–112, 2012. Levin, L. A., Etter, R. J., Rex, M. A., Gooday, J., Smith, C. R., Stuart, T., Hessler, R. R., and Pawson, D.: Environmental influences on regional deep-sea species diversity, Ann. Rev. Ecol. Syst., 32, 51–93, 2001. Levin, L. A., Sibuet, M., Gooday, A., Smith, C., and Vanreusel, A.: The roles of habitat heterogeneity in generating and maintaining biodiversity on continental margins: an introduction, Mar. Ecol., 31, 1–5, 2010. Li, L., Kato, C., and Horikoshi, K.: Bacterial diversity in deep-sea sediments from different depths, Biodivers. Conserv., 8, 659–677, 1999a. Li, L., Kato, C., and Horikoshi, K.: Microbial diversity in sediments collected from the deepest cold-seep area, the Japan Trench, Mar. Biotechnol., 1, 391–400, 1999b. Lorenzen, C. and Jeffrey, J.: Determination of chlorophyll in sea water, NESCO Tech. Pap. Mar. Sci. 35, 1–20, 1980. Luna, G. M., Dell'Anno, A., Giuliano, L., and Danovaro, R.: Bacterial diversity in deep Mediterranean sediments: Relationship with the active bacterial fraction, and substrate availability, Environ. Microb., 6, 745–753, 2004. Lykousis, V., Chronis, G., Tselepides, A., Price, N., Theocharis, A., Siokou-Frangou, I., Van Wambeke, F., Danovaro, R., Stavrakakis, S., Duineveld, G., Georgopoulos, L., Ignatiades, L., Souvermezoglou, A., and Voutsinou-Taliadouri, F.: Major outputs of the recent ultidisciplinary biogeochemical researches undertaken in the Aegean Sea, J. Marine Syst., 33/34, 313–334, 2002. McArdle, B. H. and Anderson, M. J.: Fitting multivariate models to community data: a comment on distance-based redundancy analysis, Ecology, 82, 290–297, 2001. Miljutin, D. M., Gad, G., Miljutina, M. M., Mokievsky, V. O., Fonseca-Genevois, V., and Esteves, A. M.: The state of knowledge on deep-sea nematode taxonomy: how many valid species are known down there?, Mar. Biodive., 40, 143–159, 2010. Nacke, H., Thürmer, A., Wollnerr, A., Will, C., Hodac, L., Herold, N., Schöning, I., Schrumpf, M., and Daniel, R.: Pyrosequencing-based assessment of bacterial community structure along different management types in German forest and grassland soils, Plos One, 6, e17000, <a href="http://dx.doi.org/10.1371/journal.pone.0017000">https://doi.org/10.1371/journal.pone.0017000</a>, 2011. Netto, S. A., Gallucci, F., and Fonseca, G. F. C.: Meiofauna communities of continental slope and deep-sea sites off SE Brazil, Deep-Sea Res. Pt. I, 52, 845–859, 2005. Platt, H. M. and Warwick, R. M.: Freeliving marine nematodes, Part I. British Enoplids, Cambridge University Press, Cambridge, 1983. Platt, H. M. and Warwick, R. M.: Freeliving marine nematodes. Part II. British Chromadorids, The Estuarine and Brackish-Water Sciences Association, Leiden, 1988. Polymenakou, P. N., Bertilsson, S., Tselepides, A., and Stephanou, E. G.: Bacterial community composition in different sediments from the Eastern Mediterranean Sea: A comparison of four 16S rDNA clone libraries, Microb. Ecol., 50, 447–462, 2005a. Polymenakou, P. N., Bertilsson, S., Tselepides, A., and Stephanou, E. G.: Links between geographic location, environmental factors and microbial community in sediments of Eastern Mediterranean Sea, Microb. Ecol., 49, 367–378, 2005b. Polymenakou, P. N., Lampadariou, N., Mandalakis, M., and Tselepides, A.: Phylogenetic diversity of sediment bacteria from the southern Cretan margin, Eastern Mediterranean Sea, Syst. Appl. Microbiol., 32, 17–26, 2009. Poulos, S., Drakopoulos, P., and Collins, M.: Seasonal variability in sea surface oceanographic conditions in the Aegean Sea (Eastern Mediterranean): an overview, J. Marine Syst., 13, 225–244, 1997. Psarra, S., Tselepides, A., and Ignatiades, L.: Primary productvity in the oligotrophic Cretan Sea (NE Mediterranean): seasonal and interannual variability, Prog. Oceanogr., 46, 187–204, 2000. Quaiser, A., López-García, P., Zivanovic, Y., Henn, M. R., Rodriquez-Valera, F., and Moreira, D.: Comparative analysis of genome fragments of Acidobacteria from deep Mediterranean plankton, Environ. Microbiol., 10, 2704–2717, 2008. Ramirez-Llodra, E., Brandt, A., Danovaro, R., De Mol, B., Escobar, E., German, C. R., Levin, L. A., Martinez Arbizu, P., Menot, L., Buhl-Mortensen, P., Narayanaswamy, B. E., Smith, C. R., Tittensor, D. P., Tyler, P. A., Vanreusel, A., and Vecchione, M.: Deep, diverse and definitely different: unique attributes of the world's largest ecosystem, Biogeosciences, 7, 2851–2899, <a href="http://dx.doi.org/10.5194/bg-7-2851-2010">https://doi.org/10.5194/bg-7-2851-2010</a>, 2010. Rex, M. and Etter, R.: Deep-sea biodiversity: Pattern and scale. Harvard University Press, Cambridge, Massachusetts, 2010. Rex, M., Etter, R., Morris, J., Crouse, J., McClain, C., Johnson, N., Stuart, C., Deming, J., Thies, R., and Avery, R.: Global bathymetric patterns of standing stock and body size in the deep-sea benthos, Mar. Ecol. Prog. Ser., 317, 1–8, 2006. Schauer, R., Bienhold, C., Ramette, A., and Harder, J.: Bacterial diversity and biogeography in deep-sea surface sediments of the South Atlantic Ocean, ISME J, 4, 159–170, 2010. Schloss, P. D. and Handelsman, J.: Introducing DOTUR, a computer program for defining operational taxonomic units and estimating species richness, Appl. Environ. Microbiol., 71, 1501–1506, 2005. Schuurmans Stekhoven Jr., J. H.: The freeliving marine nemas of the Mediterranean, I. The Bay of Villefranche, Mémoires Institut Royal des Sciences Naturelles de Belgique, 37, 1–220, 1950. Soetaert, K. and Decraemer, W.: Eight new Tricoma species (Nematoda, Desmoscolecidae) from a deep-sea transect off Calvi (Corsica, Mediterranean), Hydrobiologia, 183, 223–247, 1989. Soetaert, K. and Heip, C.: Nematode assemblages of deep-sea and shelf break sites in the North Atlantic and Mediterranean Sea, Mar. Ecol. Prog. Ser., 125, 171–183, 1995. Soetaert, K. and Vincx, M.: Six new Richtersia species (Nematoda, Selachinematidae) from the Mediterranean Sea, Zoologica Scripta, 16, 125–142, 1987. Sogin, M. L., Morrison, H. G., Huber, J. A., Welch, D. M., Huse, S. M., Neal, P. R., Arrieta, J. M., and Herndl, G. J.: Microbial diversity in the deep sea and the underexplored "rare biosphere", P. Natl. Acad. Sci. USA, 103, 12115–12120, 2006. Soltwedel, T.: Metazoan meiobenthos along continental margins: a review, Prog. Oceanogr., 46, 59–84, 2000. Tselepides, A. and Lampadariou, N.: Deep-sea meiofaunal community structure in the Eastern Mediterranean: are trenches benthic hotspots?, Deep-Sea Res. Pt. I, 51, 833–847, 2004. Tselepides, A., Papadopoulou, N., Podaras, D., Plaiti, W., and Koutsoubas, D.: Macrobenthic community structure over the continental margin of Crete (South Aegean Sea, NE Mediterranean), Prog. Oceanog., 46, 401–428, 2000. Tselepides, A., Lampadariou, N., and Polymenakou, P.: Benthic community structure and function of the deep Eastern Mediterranean Sea, Rapp. Comm. Int. Mer Medit., 38, 52, 2007. Vanreusel, A., Fonseca, G., Danovaro, R., Da Silva, M. C., Esteves, A. M., Ferrero, T., Gad, G., Galtsova, V., Gambi, C., Da Fonsêca Genevois, V., Ingels, J., Ingole, B., Lampadariou, N., Merckx, B., Miljutin, D., Miljutina, M., Muthumbi, A., Netto, S., Portnova, D., Radziejewska, T., Raes, M., Tchesunov, A., Vanaverbeke, J., Van Gaever, S., Venekey, V., Bezerra, T. N., Flint, H., Copley, J., Pape, E., Zeppilli, D., Martinez, P. A., and Galeron, J.: The contribution of deep-sea macrohabitat heterogeneity to global nematode diversity, Mar. Ecol., 31, 6–20, 2010. Warwick, R. M., Platt, H. M., and Somerfield, P. J.: Freeliving marine nematodes. Part III. Monhysterids. The Estuarine and Brackish-Water Sciences Association, Shrewsbury, 1998. Whittaker, R. H.: Evolution and measurement of species diversity, Taxon, 21, 213–251, 1972. Zinger, L., Amaral-Zettler, L. A., Fuhrman, J. A., Horner-Devine, M. C., Huse, S. M., Mark Welch, D. B., Martiny, J. B. H., Sogin, M., Boetius, A., and Ramette, A.: Global patterns of bacterial beta-diversity in seafloor and seawater ecosystems, PLoS ONE 6, e24570, <a href="http://dx.doi.org/10.1371/journal.pone.0024570">https://doi.org/10.1371/journal.pone.0024570</a>, 2011.