References
Albuquerque, E. F., Pinto, A. P. B., Perez, A. D. A. D. Q., & Veloso, V. G. (2007). Spatial and temporal changes in interstitial meiofauna on a sandy ocean beach of South America. Brazilian Journal of Oceanography , 55 , 121-131.
Armonies, W. (1988). Hydrodynamic factors affecting behaviour of intertidal meiobenthos. Ophelia. 28 (3): 183-193
Ax, P. (1956). Monographie der Otoplanidae Turbellaria: Morphologie und Systematik. Abhandlungen der mathematisch-naturwissenschaftlichen. 13 : 3-298.
Baker, J. M., & Giribet, G. (2007). A molecular phylogenetic approach to the phylum Cycliophora provides further evidence for cryptic speciation in Symbion americanus . Zoologica Scripta , 36(4), 353-359.
Blonder, B., Lamanna, C., Violle, C., & Enquist, B. J. (2014). The n‐dimensional hypervolume. Global Ecology and Biogeography, 23(5), 595-609.
Blonder, B., & Harris, D. J. (2018). hypervolume: High dimensional geometry and set operations using kernel density estimation, support vector machines, and convex hulls. Website: https://cran. r-project. org/package= hypervolume.
Boaden, P. J. S. (1963). Behaviour and distribution of the archiannelidTrilobodrilus heideri. Journal of the Marine Biological Association of the United Kingdom , 43 (1), 239-250.
Boaden, P. J. S. (1968), Water movement—a dominant factor in interstitial ecology. Sarsia 34 (1), 125-136.
Bonaglia, S., Nascimento, F.J.A., Bartoli, M., Klawonn, I., & Bruchert, V. (2014). Meiofauna increases bacterial denitrification in marine sediments. Nature Communications , 5 , 5133.
Bonaglia, S., Hedberg, J., Marzocchi, U., Iburg, S., Glud, R.N., & Nascimento, F. J.A. (2020) Meiofauna improve oxygenation and accelerate sulfide removal in the seasonally hypoxic seabed. Marine Environmental Research, 159 : 104968.
Bonaglia, S., & Nascimento, F. J. (2023). Meiofauna Shaping Biogeochemical Processes. In New Horizons in Meiobenthos Research: Profiles, Patterns and Potentials (pp. 33-54). Cham: Springer International Publishing.
Borcard, D., Legendre, P., & Drapeau, P. (1992). Partialling out the spatial component of ecological variation. Ecology 73 (3): 1045–55.
Bougeard, S., & Dray, S. (2018). Supervised Multiblock Analysis in R with the ade4 Package. Journal of Statistical Software, 86 (1), 1-17
Brazeiro, A. (2001). Relationship between species richness and morphodynamics in sandy beaches: what are the underlying factors?Marine Ecology Progress Series , 224, 35-44.
Cadotte, M. W., & Tucker, C. M. (2017). Should environmental filtering be abandoned?. Trends in ecology & evolution32 (6), 429-437
Cardoso, P., Mammola, S., Rigal, F., & Carvalho, J. (2022). BAT: Biodiversity Assessment Tools. R package version 2.9.0.
Curini-Galletti, M. (2001). The Proseriata. In : Littlewood, D.T.J., & R.A. Bray (eds) Interrelationships of the Platyhelminthes , pp. 41-48. Taylor and Francis, London.
Curini-Galletti, M., Artois, T., Delogu, V., De Smet, W. H., Fontaneto, D., Jondelius, U., Leasi, F., Martínez, A., Meyer-Wachsmuth, I., Nilsson, K.S., Tongiorgi, P., Worsaae, K. & Todaro, M. A. (2012). Patterns of diversity in soft-bodied meiofauna: dispersal ability and body size matter. PloS one, 7(3), e33801
Curini-Galletti, M, Fontaneto, D., Martinez, A. (2023) Diversity of Platyhelminthes Proseriata in Western Mediterranean sandy beaches: a database of species occurrences and traits. Biogeographia 38.2 (2023).
Crawley, M. J. The R Book. John Wiley & Sons, 2012.
Defeo, O., McLachlan, A., Armitage, D., Elliott, M., & Pittman, J. (2021). Sandy beach social–ecological systems at risk: regime shifts, collapses, and governance challenges. Frontiers in Ecology and the Environment , 19 (10), 564-573
Di Domenico, M., Lana, P. C., & Garraffoni, A. R. (2009). Distribution patterns of interstitial polychaetes in sandy beaches of southern Brazil. Marine Ecology , 30(1), 47-62.
Di Domenico, M., Martínez, A., Lana, P. D. C., & Worsaae, K. (2013).Protodrilus (Protodrilidae, Annelida) from the southern and southeastern Brazilian coasts. Helgoland Marine Research, 67 (4), 733-748.
Di Domenico, M., Martínez, A., Almeida, T. C. M., Martins, M. O., Worsaae, K., & Lana, P. C. (2014). Response of the meiofaunal annelidSaccocirrus pussicus (Saccocirridae) to sandy beach morphodynamics. Hydrobiologia, 734 , 1-16.
Dray S., & Dufour, A. (2007). The ade4 Package: Implementing the Duality Diagram for Ecologists. Journal of Statistical Software, 22 (4), 1-20.
Fontaneto, D., Barbosa, A. M., Segers, H., & Pautasso, M. (2012). The ‘rotiferologist’effect and other global correlates of species richness in monogonont rotifers. Ecography , 35 (2), 174-182.
Fontaneto, D., Flot, J. F., & Tang, C. Q. (2015). Guidelines for DNA taxonomy, with a focus on the meiofauna. Marine Biodiversity, 45,433-451.
Fox J., & Weisberg, S. (2019). An {R} Companion to Applied Regression, Third Edition. Thousand Oaks CA: Sage. URL: https://socialsciences.mcmaster.ca/jfox/Books/Companion/
Gerlach, S. A. (1953). Die biozönotische Gliederung der Nematodenfauna an den deutschen Küsten. Zeitschrift für Morphologie und Ökologie der Tiere , 41 (5/6), 411-512.
Gheskiere, T., Vincx, M., Urban-Malinga, B., Rossano, C., Scapini, F., & Degraer, S. (2005). Nematodes from wave-dominated sandy beaches: diversity, zonation patterns and testing of the isocommunities concept.Estuarine, Coastal and Shelf Science , 62 (1-2), 365-375.
Giere, O. (2009). Meiobenthology: The microscopic motile fauna of aquatic sediments. Springer-Verlag Berlin Heidelberg.
Gray, J. S. (1966). The attractive factor of intertidal sands to Protodrilus symbioticus. Journal of the Marine Biological Association of the United Kingdom46 (3), 627-645.
Gray, J. S. (1967). Substrate selection by the archlannelid Protodrilus hypoleucus Amenante. Journal of Experimental Marine Biology and Ecology1 (1), 47-54.
Harris, L. R., & Defeo, O. (2022). Sandy shore ecosystem services, ecological infrastructure, and bundles: New insights and perspectives.Ecosystem Services, 57 , 101477.
Herranz, M., Di Domenico, M., Sørensen, M. V., & Leander, B. S. (2019). The enigmatic kinorhynch Cateria styx Gerlach, 1956–A sticky son of a beach. Zoologischer Anzeiger, 282 , 10-30.
Herranz, M., Park, T., Di Domenico, M., Leander, B. S., Sørensen, M. V., & Worsaae, K. (2021). Revisiting kinorhynch segmentation: variation of segmental patterns in the nervous system of three aberrant species.Frontiers in Zoology, 18 , 1-23.
Hummon, W. D. (1972). Dispersion of Gastrotricha in a marine beach of the San Juan Archipelago, Washington. Marine Biology, 16 (4), 349-355.
Hothorn, T., Bretz, F., Westfall, P. (2008). Simultaneous Inference in General Parametric Models. Biometrical Journal 50(3), 346-363
Jaramillo, E., McLachlan, A., & Dugan, J. (1995). Total sample area and estimates of species richness in exposed sandy beaches. Marine Ecology Progress Series, 311-314.
Jörger, K. M., Heß, M., Neusser, T. P., & Schrödl, M. (2009). Sex in the beach: spermatophores, dermal insemination and 3D sperm ultrastructure of the aphallic mesopsammic Pontohedyle milaschewitchii (Acochlidia, Opisthobranchia, Gastropoda). Marine Biology, 156 , 1159-1170.
Jörger, K., Alvaro, N., Andrade, L., Araujo, T.Q., Aramayo, V., Artois, T., Ballentin, W., Bergmeier, F.S., Botelho, A., Buckenmeyer, A., Capucho, A.T., Cherneva, I., Curini-Galleti, M., Davidson, A.M., Wang, D. et al (2021). Meiozores 2019 – Exploring the marine meiofauna of the Azores. Açoreana . S11, 17–41.
Jörger, K. M., & Schrödl, M. (2013). How to describe a cryptic species? Practical challenges of molecular taxonomy. Frontiers in Zoology, 10 (1), 1-27.
Kreuzinger-Janik, B., Majdi, N., & Traunspurger, W. (2021). Distribution and diversity of meiofauna along an aquatic-terrestrial moss ecotone. Nematology , 23 (6), 695-714.
Leasi, F., Sevigny, J. L., Laflamme, E. M., Artois, T., Curini-Galletti, M., de Jesus Navarrete, A., … & Thomas, W. K. (2018). Biodiversity estimates and ecological interpretations of meiofaunal communities are biased by the taxonomic approach. Communications Biology, 1 (1), 112.
Lüdecke, D., Ben-Shachar, M. S., Patil, I., Waggoner, P., & Makowski, D. (2021). performance: An R package for assessment, comparison and testing of statistical models. Journal of Open Source Software ,6 (60).
Majdi, N., Colls, M., Weiss, L., Acuña, V., Sabater, S., & Traunspurger, W. (2020). Duration and frequency of non‐flow periods affect the abundance and diversity of stream meiofauna. Freshwater Biology , 65 (11), 1906-1922.
Mammola, S. & Cardoso, P. (2020). Functional diversity metrics using kernel density n -dimensional hypervolumes. Methods in Ecology and Evolution 11(8): 986–995
Maria, T. F., Silva Filho, M. G., Souza, T. P., Vanaverbeke, J., Vanreusel, A., & Esteves, A. M. (2018). Is the vertical distribution of meiofauna similar in two contrasting microhabitats? A case study of a macrotidal sandy beach. Journal of Experimental Marine Biology and Ecology502 , 39-51.
Martínez, A., Di Domenico, M., Rouse, G. W., & Worsaae, K. (2015). Phylogeny and systematics of Protodrilidae (Annelida) inferred with total evidence analyses. Cladistics, 31 (3), 250-276.
Martínez, A., García-Gómez, G., García-Herrero, Á., Sánchez, N., Pardos, F., Izquierdo-Muñoz, A., Fontaneto, D. & Mammola, S. (2021). Habitat differences filter functional diversity of low dispersive microscopic animals (Acari, Halacaridae). Hydrobiologia, 848 (11), 2681-2698.
Martínez, A., Di Domenico, M., Leasi, F., Curini-Galletti, M., Todaro, M. A., Zotto, M. D., Gobert, S., Artois, T., Norenburg, J., Jörger, K.M., Núñez, J., Fontaneto, D. & Worsaae, K. (2019). Patterns of diversity and endemism of soft-bodied meiofauna in an oceanic island, Lanzarote, Canary Islands. Marine Biodiversity, 49, 2033-2055
Martínez, A., Di Domenico, M., Jörger, K., Norenburg, J., & Worsaae, K. (2013). Description of three new species of Protodrilus(Annelida, Protodrilidae) from Central America. Marine Biology Research , 9 (7), 676-691.
Martínez, A., Purschke, G., & Worsaae, K. (2021). 7.11.3. Protodrilidae Hatschek, 1888. In Handbook of Zoology. Annelida. Pleistoannelida, Sedentaria III and Errantia. De Gruyter. 299-337
McLachlan, A. (1983). Sandy beach ecology—a review. In Sandy Beaches as Ecosystems: Based on the Proceedings of the First International Symposium on Sandy Beaches, held in Port Elizabeth, South Africa, 17–21 January 1983 (pp. 321-380). Springer Netherlands.
McLachlan, A., & Dorvlo, A. (2005). Global patterns in sandy beach macrobenthic communities. Journal of Coastal Research, 21(4), 674-687.
McLachlan, A., & Turner, I. (1994). The interstitial environment of sandy beaches. Marine Ecology, 15 (3‐4), 177-212.
McLachlan, A., & Defeo., O. (2017). The ecology of sandy shores . Academic press.
McLachlan, A., Defeo, O., & Short, A. D. (2018). Characterising sandy beaches into major types and states: Implications for ecologists and managers. Estuarine, Coastal and Shelf Science , 215 , 152-160.
Mello, C. L., Carvalho, A. L., de Faria, L. C., Baldoni, L., & Di Domenico, M. (2019). Spatial distribution pattern of the aberrantFranciscideres kalenesos (Kinorhyncha) on sandy beaches of Southern Brazil. Zoologischer Anzeiger , 282 , 44-51.
Moens, T., Braeckman, U., Derycke, S., Fonseca, G., Gallucci, F., Gingold, R., Guilini, K., Leduc, D., Vanaverbeke, J.,van Colen, C., Vanreusel, V. & Vincx, M. (2013). Ecology of free-living marine nematodes. Nematoda , 2 , 109-152.
Moreno, M., Ferrero, T. J., Granelli, V., Marin, V., Albertelli, G., & Fabiano, M. (2006). Across shore variability and trophodynamic features of meiofauna in a microtidal beach of the NW Mediterranean.Estuarine, Coastal and Shelf Science, 66 (3-4), 357-367.
Nosil, P. (2012). Ecological speciation . Oxford Ecology and Evolution.
Palacio, F. X., Callaghan, C. T., Cardoso, P., Hudgins, E. J., Jarzyna, M. A., Ottaviani, G., Riva, F., Graco-Roza, C., Shirey, V. & Mammola, S. (2022). A protocol for reproducible functional diversity analyses.Ecography . e06287.
Papageorgiou, N., Arvanitidis, C., & Eleftheriou, A. (2006). Multicausal environmental severity: A flexible framework for microtidal sandy beaches and the role of polychaetes as an indicator taxon. Estuarine, Coastal and Shelf Science, 70(4), 643-653.
Peres-Neto, P R, P Legendre, S Dray, & D Borcard. 2006. Variation partitioning of species data matrices: estimation and comparison of fractions. Ecology 87 : 2614–25.
Polte, S., & Schmidt-Rhaesa, A. (2011). Immunohistochemical investigations of the interstitial cnidarian Halammohydra octopodides (Hydrozoa). Meiofauna Marina, 19 , 17-32.
Reise, K. (1988). Plathelminth diversity in littoral sediments around the island of Sylt in the North Sea. Fortschritte der Zoologie/Progress in Zoology, 36 , 469-480.
Remmache, K., Bachari, N. E. I., Nacef, L., & Houma, F. (2020). Granulometric indices mapping in relation to hydrodynamic factors for beach characterization and monitoring with very high spatial resolution.Data Science and Applications, 3 (1), 5-12.
Riesgo, A., Perez-Portela, R., & Larissa Arroyo, N. (2010). Halacarid mites (Acari: Halacaridae) associated with a North Atlantic subtidal population of the kelp Laminaria ochroleuca . Journal of Natural History , 44 (11-12), 651-667.
Rubio-López, I., Pardos, F., Fontaneto, D., Martínez, A., & García-Gómez, G. (2023). Biases and distribution patterns in microscopic animals (Acari, Halacaridae): size doesn’t matter, but generalism and sampling effort do. Diversity and Distributions .
Scarpa, F., Cossu, P., Delogu, V., Lai, T., Sanna, D., Leasi, F., Curini-Galletti, M., & Cassu, M. (2017). Molecular support for morphology-based family-ranked taxa: The contrasting cases of two families of Proseriata (Platyhelminthes). Zoologica Scripta, 46 (6):753-766.
Schmidt-Rhaesa, A. (2022) Guide to the Identification of Marine Meiofauna. Munich, Verlag Dr. Friedrich Pfeil.
Schratzberger, M., & Ingels, J. (2018). Meiofauna matters: the roles of meiofauna in benthic ecosystems. Journal of Experimental Marine Biology and Ecology, 502 , 12-25.
Sevastou, K., Lampadariou, N., & Eleftheriou, A. (2011). Meiobenthic diversity in space and time: The case of harpacticoid copepods in two Mediterranean microtidal sandy beaches. Journal of sea Research, 66 (3), 205-214.
Short, A. D., & Wright, L. D. (1983). Physical variability of sandy beaches. In Sandy Beaches as Ecosystems: Based on the Proceedings of the First International Symposium on Sandy Beaches, held in Port Elizabeth, South Africa, 17–21 January 1983 (pp. 133-144). Springer Netherlands.
Tang, C. Q., Leasi, F., Obertegger, U., Kieneke, A., Barraclough, T. G., & Fontaneto, D. (2012). The widely used small subunit 18S rDNA molecule greatly underestimates true diversity in biodiversity surveys of the meiofauna. Proceedings of the National Academy of Sciences109 (40), 16208-16212.
Venekey, V., Santos, P. J. P., & Fonsêca-Genevois, V. G. (2014). Effect of environmental factors on intertidal Nematoda in a tropical sandy beach (Tamandare Bay, Pernambuco, Brazil). Journal of Coastal Research30 (4), 785-794.
Vieira, S., Sroczyńska, K., Neves, J., Martins, M., Costa, M. H., Adão, H., & Vicente, C. (2022). Spatial distribution patterns of microbiome and nematodes in response to sediment ecological conditions
Violle, C., Reich, P. B., Pacala, S. W., Enquist, B. J., & Kattge, J. (2014). The emergence and promise of functional biogeography. Proceedings of the National Academy of Sciences, 111(38), 13690-13696
Wang, Y., Naumann, U., Eddelbuette, D., Wilshire, J., & Warton, D. (2022). mvabund: Statistical Methods for Analysing Multivariate Abundance Data. R package version 4.2.1.
Wickham, H. (2016). ggplot2: Elegant Graphics for Data Analysis. Springer-Verlag New York, 2016.
Worsaae, K., Sterrer, W., Kaul-Strehlow, S., Hay-Schmidt, A., & Giribet, G. (2012). An anatomical description of a miniaturized acorn worm (Hemichordata, Enteropneusta) with asexual reproduction by paratomy. PLoS One, 7 (11), e48529.
Wright, L. D., & Short, A. D. (1982) High-energy nearshore and surf zone morphodynamics. JOA (Halifax) Abstracts p 86.
Zuur, A. F., Ieno, E. N., & Elphick, C. S. (2010). A protocol for data exploration to avoid common statistical problems. Methods in ecology and evolution1 (1), 3-14.