Spatial variation of meiofaunal tardigrades in a small tropical estuary (~6°S; Brazil)
Sebastião Tilbert A B C , Francisco J. V. de Castro B , Géssica Tavares B and Miodeli Nogueira Júnior AA Departamento de Sistemática e Ecologia, Universidade Federal da Paraíba, CEP 58051-900, João Pessoa, Paraíba, Brazil.
B Laboratório de Meiofauna (Labmeio), Centro de Educação e Saúde, Universidade Federal de Campina Grande, CEP 58175-000, Cuité, Paraíba, Brazil.
C Corresponding author. Email: serginho.meiofauna@gmail.com
Marine and Freshwater Research 70(8) 1094-1104 https://doi.org/10.1071/MF18222
Submitted: 14 June 2018 Accepted: 11 December 2018 Published: 28 February 2019
Abstract
Spatial variations and organism–sediment relationship are paramount subjects of soft-bottom ecology. However, these issues have been unexplored for most minor meiofaunal taxa such as tardigrades. In the present study, we explore this subject on a small tropical (~6°S) estuary. Total meiofaunal abundance ranged from 4 to 1036 individuals per 10 cm2, averaging (mean ± s.d.) 324.8 ± 245.9 individuals per 10 cm2. Nematodes dominated in both seasons, representing >70% of total abundance. Tardigrades were the second-most abundant taxon, representing 15% of the total and up to 71%. Tardigrades were represented by two species, Batillipes dandarae and B. pennaki, the latter dominating in the rainy season, and both with similar abundances in the dry season. Abundance of total meiofauna and both tardigrade species differed significantly (ANOVA; P < 0.05) among stations and in the interaction between stations and seasons, but only B. dandarae varied seasonally, with higher values occurring in the dry season. The spatial variations observed were mostly related to differences in the sediment granulometry. Environmental explanatory variables explained 72.6% of the variance of dominant meiofaunal taxa in the Redundancy Analysis. Nematodes and ostracods were mostly associated with fine and very fine sands, both tardigrades with medium sand and oligochaetes with larger size-fractions of the sediment and organic matter. The data gathered here suggest that granulometry was the most important environmental factor in the meiofaunal spatial structure in tropical estuaries and both tardigrade species were closely associated with medium sand.
Additional keywords: Batillipes spp., ecology, granulometry, soft-bottom, South Atlantic, Tardigrada.
References
Alongi, D. M. (1990). Community dynamics of free-living nematodes in some tropical mangrove and sandflat habitats. Bulletin of Marine Science 46, 358–373.Alvares, C. A., Stape, J. L., Sentelhas, P. C., de Moraes, G., Leonardo, J., and Sparovek, G. (2013). Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift 22, 711–728.
| Köppen’s climate classification map for Brazil.Crossref | GoogleScholarGoogle Scholar |
Anderson, M. J. (2008). Animal-sediment relationships re-visited: characterising species’ distributions along an environmental gradient using canonical analysis and quantile regression splines. Journal of Experimental Marine Biology and Ecology 366, 16–27.
| Animal-sediment relationships re-visited: characterising species’ distributions along an environmental gradient using canonical analysis and quantile regression splines.Crossref | GoogleScholarGoogle Scholar |
Armenteros, M., Pérez-Garcia, J. A., Pérez-Angulo, A., and Williams, J. P. (2008). Efficiency of extraction of meiofauna from sandy and muddy marine sediments. Revista de Investigaciones Marinas 29, 113–118.
Azevedo, C. A. A., Carneiro, M. A. A., Oliveira, S. R., and Marinho-Soriano, E. (2011). Macroalgae as an indicator of the environmental health of the Pirangi reefs, Rio Grande do Norte, Brazil. Revista Brasileira de Farmacognosia 21, 323–328.
| Macroalgae as an indicator of the environmental health of the Pirangi reefs, Rio Grande do Norte, Brazil.Crossref | GoogleScholarGoogle Scholar |
Balsamo, M., Albertelli, G., Ceccherelli, V. U., Coccioni, R., Colangelo, M. A., Curini-Galletti, M., Danovaro, R., D’Addabbo, R., De Leonardis, C., Fabiano, M., Frontalini, F., Gallo, M., Gambi, C., Guidi, L., Moreno, M., Pusceddu, A., Sandulli, R., Semprucci, F., Todaro, M. A., and Tongiorgi, P. (2010). Meiofauna of the Adriatic Sea: present knowledge and future perspectives. Chemistry and Ecology 26, 45–63.
| Meiofauna of the Adriatic Sea: present knowledge and future perspectives.Crossref | GoogleScholarGoogle Scholar |
Brown, A. C., and Mclachlan, A. (1990). ‘Ecology of Sandy Shores.’ (Elsevier: Amsterdam, Netherlands.)
Castro, F. J. V., Fonsêca-Genevois, V., Lira, L., and da Rocha, C. M. C. (1999). Estudo da granulometria e da topografia sobre a distribuição de Batillipes pennaki Marcus (1946) em zona tropical típica: Restinga do Paiva, Pernambuco, Brasil. Trabalhos Oceanográficos da Universidade Federal de Pernambuco 27, 89–102.
Costa, A. B. H. P., Valença, A. P. M. C., and Santos, P. J. P. (2016). Is meiofauna community structure in artificial substrate units a good tool to assess anthropogenic impact in estuaries? Marine Pollution Bulletin 110, 354–361.
| Is meiofauna community structure in artificial substrate units a good tool to assess anthropogenic impact in estuaries?Crossref | GoogleScholarGoogle Scholar |
Coull, B. C. (1999). Role of meiofauna in estuarine soft bottom habitats. Australian Journal of Ecology 24, 327–343.
| Role of meiofauna in estuarine soft bottom habitats.Crossref | GoogleScholarGoogle Scholar |
D’Addabbo, M. G., Zio Grimaldi, S., Morone, M. R. L., Pietanza, R., D’Addabbo, R., and Todaro, A. (1999). Diversity and dynamics of an interstitial Tardigrada population in the Meloria Shoals, Ligurian Sea, with a redescription of Batillipes similis (Heterotardigrada, Batillipedidae). The Italian Journal of Zoology 66, 51–61.
| Diversity and dynamics of an interstitial Tardigrada population in the Meloria Shoals, Ligurian Sea, with a redescription of Batillipes similis (Heterotardigrada, Batillipedidae).Crossref | GoogleScholarGoogle Scholar |
D’Addabbo, R., Gallo, M., de Leonardis, C., Sandulli, R., and de Zio Grimaldi, S. (2007). Further studies on the marine tardigrade fauna from Sardinia (Italy). Journal of Limnology 66, 56–59.
| Further studies on the marine tardigrade fauna from Sardinia (Italy).Crossref | GoogleScholarGoogle Scholar |
da Rocha, C. M. C., Fonsêca-Genevois, V., and Castro, F. J. V. (2000). Distribuição espaço-temporal de Batillipes pennaki Marcus, 1946 (Tardigrada, Heterotardigrada) na margem sul da Ilha de Itamaracá (Pernambuco – Brasil). Trabalhos Oceanográficos da Universidade Federal de Pernambuco 28, 35–46.
da Rocha, C. M. C., Fonsêca-Genevois, V., Castro, F. J. V., Bezerra, T. N. C., Venekey, V., and Botelho, A. P. (2004). Environmental interactions of Batillipes pennaki (Tardigrada, Heterotardigrada) in a tropical Sandy beach (Itamaracá, Pernambuco, Brazil). Meiofauna Marina 13, 79–86.
Elmgren, R. (1966). Methods of sampling sublittoral soft bottom meiofauna. Oikos 15, 112–120.
Fonseca, G., Maria, T. F., Kandratavicius, N., Venekey, V., Gheller, P. F., and Gallucci, F. (2014). Testing for nematode–granulometry relationships. Marine Biodiversity 44, 435–443.
| Testing for nematode–granulometry relationships.Crossref | GoogleScholarGoogle Scholar |
Giere, O. (2009). ‘Meiobenthology the Microscopic Motile Fauna of Aquatic Sediments,’ 2nd edn. (Springer: Heidelberg, Germany.)
Guidetti, R., and Van der Land, J. (2017). Batillipes Richters, 1909. In ‘World Register of Marine Species (WoRMS)’. (Flanders Marine Institute.) Available at http://www.marinespecies.org/aphia.php?p=taxdetails&id=136629 [Verified 12 June 2018].
Harris, R. P. (1972). The distribution and ecology of the interstitial meiofauna of a sandy beach at whitsand bay, east Cornwall. Journal of the Marine Biological Association of the United Kingdom 52, 1–18.
| The distribution and ecology of the interstitial meiofauna of a sandy beach at whitsand bay, east Cornwall.Crossref | GoogleScholarGoogle Scholar |
Hazel, C. R., and Kelley, E. W. (1966). Zoobenthos of the Sacramento–San Joaquin delta. In ‘Ecological Studies of the Sacramento—San Joaquin Estuary. Fish Bulletin, Vol. 133’. (Ed. D. W. Kelley.) pp. 113–133. (California Department of Fisheries and Game.)
Heip, C., Vincx, M., and Vranken, G. (1985). The ecology of marine nematodes. Oceanography and Marine Biology - an Annual Review 23, 399–489.
Heip, C., Huys, R., Vincx, M., Vanreusel, A., Smol, N., Herman, R., and Herman, P. M. J. (1990). Composition, distribution, biomass and production of North Sea meiofauna. Netherlands Journal of Sea Research 26, 333–342.
| Composition, distribution, biomass and production of North Sea meiofauna.Crossref | GoogleScholarGoogle Scholar |
Heip, C., Basford, D., Craeymeersch, J. A., Dewarumez, J.-M., Dörjes, J., de Wilde, P., Duineveld, G., Eleftheriou, A., Herman, P. M. J., Niermann, U., Kingston, P., Künitzer, A., Rachor, E., Rumohr, H., Soetaert, K., and Soltwedel, T. (1992). Trends in biomass, density and diversity of North Sea macrofauna. ICES Journal of Marine Science 49, 13–22.
| Trends in biomass, density and diversity of North Sea macrofauna.Crossref | GoogleScholarGoogle Scholar |
Höfling-Epiphanio, E. (1972). Ocorrência de Batillipes mirus Richters, 1909 e B. tubernatis Pollock, 1971 (Tardigrada) no litoral brasileiro. Ciencia e Cultura 24, 358–359.
Hourston, M., Potter, I. C., Warwick, R. M., Valensini, F. J., and Clarke, K. R. (2009). Spatial and seasonal variations in the ecological characteristics of the free-living nematode assemblages in a large microtidal estuary. Estuarine, Coastal and Shelf Science 82, 309–322.
| Spatial and seasonal variations in the ecological characteristics of the free-living nematode assemblages in a large microtidal estuary.Crossref | GoogleScholarGoogle Scholar |
Jouili, S., Essid, N., Semprucci, F., Boufahja, F., Nasri, A., Beyrem, H., and Mahmoudi, E. (2017). Environmental quality assessment of El Bibane lagoon (Tunisia) using taxonomic and functional diversity of meiofauna and nematodes. Journal of the Marine Biological Association of the United Kingdom 97, 1593–1603.
| Environmental quality assessment of El Bibane lagoon (Tunisia) using taxonomic and functional diversity of meiofauna and nematodes.Crossref | GoogleScholarGoogle Scholar |
Kapusta, S. C., Wurdig, N. L., Benvenuti, C. E., and Pinto, T. K. (2006). Spatial and temporal distribution of Nematoda in a subtropical estuary. Acta Limnologica Brasiliensia 18, 133–144.
Kinchin, I. M. (1994). ‘The Biology of Tardigrades’, 1st edn. (Portland Press: London, UK.)
Lepš, J., and Šmilauer, P. (2003). ‘Multivariate Analysis of Ecological Data using CANOCO.’ (Cambridge University Press: New York, NY, USA.)
Lindgren, E. W. (1971). Psammolittoral marine tardigrades from north Carolina and their conformity to worldwide zonation patterns. Cahiers de Biologie Marine 12, 481–496.
Marcus, E. (1946). Batillipes pennaki, a new marine tardigrade from the north and south American coast. Comunicaciones Zoologicas del Museo de Historia Natural de Montevideo 2, 1–3.
Martinez, E. A. (1975). Marine meiofauna of a New York city beach, with particular reference to Tardigrada. Estuarine, Coastal and Shelf Science 3, 337–348.
| Marine meiofauna of a New York city beach, with particular reference to Tardigrada.Crossref | GoogleScholarGoogle Scholar |
Matthew, D. H. (1999). Abundance and horizontal distribution of meiofauna on a northern California Beach. Pacific Science 3, 305–315.
McLusky, D. S., Teare, M., and Phizacklea, P. (1980). Effects of domestic and industrial pollution on distribution and abundance of aquatic oligochaetes in the Forth estuary. Helgoländer Meeresuntersuchungen 33, 384–392.
| Effects of domestic and industrial pollution on distribution and abundance of aquatic oligochaetes in the Forth estuary.Crossref | GoogleScholarGoogle Scholar |
Moens, T., and Vincx, M. (2000). Temperature and salinity constraints on the life cycle of two brackish-water nematode species. Journal of Experimental Marine Biology and Ecology 243, 115–135.
| Temperature and salinity constraints on the life cycle of two brackish-water nematode species.Crossref | GoogleScholarGoogle Scholar |
Morgan, C. I. (1980). Notes on the distribution and abundance of the Irish marine Tardigrada, including two additions to the Irish fauna. The Irish Naturalists’ Journal 20, 148–152.
Netto, S. A., and Gallucci, F. (2003). Meiofauna and macrofaunal communities in a mangrove from the Island of Santa Catarina, south Brazil. Hydrobiologia 505, 159–170.
| Meiofauna and macrofaunal communities in a mangrove from the Island of Santa Catarina, south Brazil.Crossref | GoogleScholarGoogle Scholar |
Ngo, X. Q., Smol, N., and Vanreusel, A. (2013). The meiofauna distribution in correlation with environmental characteristics in 5 Mekong estuaries, Vietnam. Cahiers de Biologie Marine 54, 71–83.
Pavlyuk, O., and Trebukhova, J. A. (2005). Composition and distribution of meiobenthos in Amursky Bay (Peter the Great Bay, the East Sea). Ocean Science Journal 40, 10.
| Composition and distribution of meiobenthos in Amursky Bay (Peter the Great Bay, the East Sea).Crossref | GoogleScholarGoogle Scholar |
Pavlyuk, O., Trebukhova, Y., Thanh, N. V., and Tu, N. D. (2008). Meiobenthos in estuary part of Ha Long Bay (Gulf of Tonkin, South China Sea, Vietnam). Ocean Science Journal 43, 153–160.
| Meiobenthos in estuary part of Ha Long Bay (Gulf of Tonkin, South China Sea, Vietnam).Crossref | GoogleScholarGoogle Scholar |
Pollock, L. W. (1970). Batillipes dicrocercus n.sp., Stygarctus granulatus n.sp., and other Tardigrada from Woods Hole, Massachusetts, USA. Transactions of the American Microscopical Society 89, 38–52.
| Batillipes dicrocercus n.sp., Stygarctus granulatus n.sp., and other Tardigrada from Woods Hole, Massachusetts, USA.Crossref | GoogleScholarGoogle Scholar |
Portnova, D. A., Garlitska, L. A., Udalov, A. A., and Kondar, D. V. (2017). Meiobenthos and nematode community in Yenisei Bay and adjacent parts of the Kara Sea shelf. Oceanology 57, 130–143.
| Meiobenthos and nematode community in Yenisei Bay and adjacent parts of the Kara Sea shelf.Crossref | GoogleScholarGoogle Scholar |
Quang, N. X., Vanreusel, A., Smol, N., and Chau, N. N. (2010). Meiobenthos assemblages in the Mekong estuarine system with special focus on free-living marine nematodes. Ocean Science Journal 45, 213.
| Meiobenthos assemblages in the Mekong estuarine system with special focus on free-living marine nematodes.Crossref | GoogleScholarGoogle Scholar |
Renaud-Debyser, J., and Salvat, B. (1963). Eleménts de prosperité des biolopes des sediments meubles intertidaux et écologie de leurs populations em microfaune et macrofaune. Vie et Milieu 14, 463–550.
Sandulli, R., Semprucci, F., and Balsamo, M. (2014). Taxonomic and functional biodiversity variations of meiobenthic and nematode assemblages across an extreme environment: a study case in a Blue Hole cave. The Italian Journal of Zoology 81, 508–516.
| Taxonomic and functional biodiversity variations of meiobenthic and nematode assemblages across an extreme environment: a study case in a Blue Hole cave.Crossref | GoogleScholarGoogle Scholar |
Santos, E., da Rocha, C. M. C., Júnior, E. G., and Fontoura, P. (2017). Three new Batillipes species (Arthrotardigrada: Batillipedidae) from the Brazilian coast. Zootaxa 4243, 483–502.
| Three new Batillipes species (Arthrotardigrada: Batillipedidae) from the Brazilian coast.Crossref | GoogleScholarGoogle Scholar | 28610140PubMed |
Schratzberger, M., Forster, R. M., Goodsir, F., and Jennings, S. (2008). Nematode community dynamics over an annual production cycle in the central North Sea. Marine Environmental Research 66, 508–519.
| Nematode community dynamics over an annual production cycle in the central North Sea.Crossref | GoogleScholarGoogle Scholar | 18817970PubMed |
Semprucci, F., and Balsamo, M. (2012). Key role of freeliving nematodes in the marine ecosystem. In ‘Nematodes: Morphology, Functions and Management Strategies’. (Eds F. Boeri and A. C. Jordan.) pp. 109–134. (NOVA Science Publishers, Inc.: Hauppauge, NY, USA.)
Semprucci, F., Colantoni, P., Baldelli, G., Rocchi, M., and Balsamo, M. (2010). The distribution of meiofauna on back-reef sandy platforms in the Maldives (Indian Ocean). Marine Ecology 31, 592–607.
| The distribution of meiofauna on back-reef sandy platforms in the Maldives (Indian Ocean).Crossref | GoogleScholarGoogle Scholar |
Semprucci, F., Colantoni, P., Sbrocca, C., Baldelli, G., Rocchi, M., and Balsamo, M. (2011). Meiofauna in sandy back-reef platforms differently exposed to the monsoons in the Maldives (Indian Ocean). Journal of Marine Systems 87, 208–215.
| Meiofauna in sandy back-reef platforms differently exposed to the monsoons in the Maldives (Indian Ocean).Crossref | GoogleScholarGoogle Scholar |
Semprucci, F., Balsamo, M., and Frontalini, F. (2014). The nematode assemblage of a coastal lagoon (Lake Varano, southern Italy): ecology and biodiversity patterns. Scientia Marina 78, 579–588.
| The nematode assemblage of a coastal lagoon (Lake Varano, southern Italy): ecology and biodiversity patterns.Crossref | GoogleScholarGoogle Scholar |
Semprucci, F., Balsamo, M., and Sandulli, R. (2016). Assessment of the ecological quality (EcoQ) of the Venice lagoon using the structure and biodiversity of the meiofaunal assemblages. Ecological Indicators 67, 451–457.
| Assessment of the ecological quality (EcoQ) of the Venice lagoon using the structure and biodiversity of the meiofaunal assemblages.Crossref | GoogleScholarGoogle Scholar |
Silva, V. M. A. P., Grohmann, P. A., and Esteves, A. M. (1997). Aspectos gerais do estudo da meiofauna de praias arenosas. Oecologia Brasiliensis 3, 67–92.
| Aspectos gerais do estudo da meiofauna de praias arenosas.Crossref | GoogleScholarGoogle Scholar |
Soetaert, K., Vincx, M., Wittoeck, J., Tulkens, M., and Gansbeke, D. V. (1994). Spatial patterns of Westerschelde meiobenthos. Estuarine, Coastal and Shelf Science 39, 367–388.
| Spatial patterns of Westerschelde meiobenthos.Crossref | GoogleScholarGoogle Scholar |
Somerfield, P. J., Gee, J. M., and Aryuthaka, C. (1998). Meiofaunal communities in a Malaysian mangrove forest. Journal of the Marine Biological Association of the United Kingdom 78, 717–732.
| Meiofaunal communities in a Malaysian mangrove forest.Crossref | GoogleScholarGoogle Scholar |
Somerfield, P. J., Fonsêca-Genevois, V. G., Rodrigues, A. C. L., Castro, F. J. V., and Santos, G. A. P. (2003). Factors affecting meiofaunal community structure in the Pina Basin, an urbanized embayment on the coast of Pernambuco, Brazil. Journal of the Marine Biological Association of the United Kingdom 83, 1209–1213.
| Factors affecting meiofaunal community structure in the Pina Basin, an urbanized embayment on the coast of Pernambuco, Brazil.Crossref | GoogleScholarGoogle Scholar |
Suguio, K. (1973). ‘Introdução à Sedimentologia.’ (Edgard Bliicher: São Paulo, Brazil.)
Tavares, G. V. S. (2016). Biodiversidade e distribuição da nematofauna em um gradiente salino no estuário de Pirangi-RN. B.Sc.(Hons) Thesis, Universidade Federal de Campina Grande, Cuité, Brazil.
Udalov, A. A., Mokievskii, V. O., and Chertoprud, E. S. (2005). Influence of the salinity gradient on the distribution of meiobenthos in the Chernaya River Estuary (White Sea). Oceanology 45, 680–688.
Vanaverbeke, J., Merckx, B., Degraer, S., and Vincx, M. (2011). Sediment-related distribution patterns of nematodes and macrofaunal: two sides of the benthic coin? Marine Environmental Research 71, 31–40.
| Sediment-related distribution patterns of nematodes and macrofaunal: two sides of the benthic coin?Crossref | GoogleScholarGoogle Scholar | 20974491PubMed |
Verçosa, M. M., Santos, E. C. L., Souza, J. R. B., and da Rocha, C. M. C. (2009). Distribuição de Stygarctus bradypus Schulz, 1951 (Tardigrada, Heterotardigrada) na margem sul da Ilha de Itamaracá (PE, Brasil). Atlântica 31, 25–33.
| Distribuição de Stygarctus bradypus Schulz, 1951 (Tardigrada, Heterotardigrada) na margem sul da Ilha de Itamaracá (PE, Brasil).Crossref | GoogleScholarGoogle Scholar |
Walkley, A., and Black, I. A. (1934). An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil Science 37, 29–38.
| An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method.Crossref | GoogleScholarGoogle Scholar |
Whitfield, A., Elliott, M., Basset, A., Blaber, S. J. M., and West, R. J. (2012). Paradigms in estuarine ecology: a review of the Remane diagram with a suggested revised model for estuaries. Estuarine, Coastal and Shelf Science 97, 78–90.
| Paradigms in estuarine ecology: a review of the Remane diagram with a suggested revised model for estuaries.Crossref | GoogleScholarGoogle Scholar |
Wieser, W. (1953). Die Beziehung zwischen Mundhöhlengestalt, Ernährungsweise und Vorkommen bei freilebenden marinen Nematoden. Eine ökologisch-morphologische Studie. Arkiv för Zoologi 4, 439–484.
Wieser, W. (1959). The effect of grain size on the distribution of small invertebrates inhabiting the beaches of Puget sound. Limnology and Oceanography 4, 181–194.
| The effect of grain size on the distribution of small invertebrates inhabiting the beaches of Puget sound.Crossref | GoogleScholarGoogle Scholar |
Wolanski, E., and Mclusky, D. S. (Eds) (2012). ‘Treatise on Estuarine and Coastal Scienc’, 1st edn. (Academic Press: Waltham, MA, USA.)
Zar, J. H. (2010). ‘Biostatistical Analysis.’ (Pearson Prentice Hall: Upper Saddle River, NJ, USA.)
Zawierucha, K., Grzelak, K., Kotwicki, L., Michalczyk, L., and Kaczmarek, L. (2013). Batillipes pennaki Marcus, 1946, a new addition to the Thai tardigrade fauna, with an overview of literature on the species. Pakistan Journal of Zoology 45, 801–808.
Zawierucha, K., Grzelak, K., Kotwicki, L., Kaczmarek, L., and Kristensen, R. M. (2015). First observation of the marine tardigrades Batillipes mirus and Batillipes noerrevangi (Arthrotardigrada, Batillipedidae) from a strongly brackish part of the Polish Baltic Sea coast. Marine Biology Research 11, 859–868.
| First observation of the marine tardigrades Batillipes mirus and Batillipes noerrevangi (Arthrotardigrada, Batillipedidae) from a strongly brackish part of the Polish Baltic Sea coast.Crossref | GoogleScholarGoogle Scholar |
Zeppilli, D., Sarrazin, J., Leduc, D., Arbizu, M. P., Fontaneto, D., Fontanier, C., Gooday, A. J., Kristensen, M. V., Ivanenko, V. N., Sorensen, M. V., Vanréusel, A., Thébault, J., Mea, M., Allio, N., Andro, T., Arvigo, A., Castree, J., Danielo, M., Foulon, V., Fumeron, R., Hermabessiere, L., Hulot, V., James, T., Langonne-augen, R., Lebot, T., Longi, M., Mahabror, D., Morel, Q., Pantalos, M., Pouplard, E., Raimondeau, L., Rio-cabello, A., Seite, S., Traisnel, G., Urvoy, K., Stengen, T. V. D., Weyand, M., and Fernandes, D. (2015). Is the meiofauna a good indicator for climate change and athropogenic impacts? Marine Biodiversity 45, 505–535.
| Is the meiofauna a good indicator for climate change and athropogenic impacts?Crossref | GoogleScholarGoogle Scholar |