Complementary influences of co-occurring physical ecosystem engineers on species richness: insights from a Patagonian rocky shore

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Structural modification of the environment by physical ecosystem engineers often allows for the occurrence of species that are not able to establish in unengineered habitats, thus leading to increased species richness at the landscape-level (i.e., areas encompassing engineered and unengineered habit...

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Autor principal: Bagur, M.
Otros Autores: Gutiérrez, J.L, Arribas, L.P, Palomo, M.G
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: Springer Netherlands 2016
Acceso en línea:Registro en Scopus
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100 1 |a Bagur, M. 
245 1 0 |a Complementary influences of co-occurring physical ecosystem engineers on species richness: insights from a Patagonian rocky shore 
260 |b Springer Netherlands  |c 2016 
270 1 0 |m Bagur, M.; Museo Argentino de Ciencias Naturales “Bernardino Rivadavia” (MACN-CONICET)Argentina; email: mbagur@macn.gov.ar 
506 |2 openaire  |e Política editorial 
504 |a Adami, M.L., Pastorino, G., Orensanz, J.M., Phenotypic differentiation of ecologically significant Brachidontes species co–occurring in intertidal mussel beds from the Southwestern Atlantic (2013) Malacologia, 56, pp. 59-67 
504 |a Almeida-Neto, M., Guimaraes, P., Guimaraes, P.R., Loyola, R.D., Ulrich, W., A consistent metric for nestedness analysis in ecological systems: reconciling concept and measurement (2008) Oikos, 117, pp. 1227-1239 
504 |a Arribas, L.P., Bagur, M., Klein, E., Penchaszadeh, P.E., Palomo, M.G., Geographic distribution of two mussel species and associated assemblages along the northern Argentinean coast (2013) Aquatic Biol, 18, pp. 91-103 
504 |a Arribas, L.P., Bagur, M., Gutiérrez, J.L., Palomo, M.G., Matching spatial scales of variation in mussel recruitment and adult densities across southwestern Atlantic rocky shores (2015) J Sea Res, 95, pp. 16-21 
504 |a Badano, E.I., Cavieres, L.A., Impacts of ecosystem engineers on community attributes: effects of cushion plants at different elevations of the Chilean Andes (2006) Divers Distrib, 12, pp. 388-396 
504 |a Badano, E.I., Cavieres, L.A., Ecosystem engineering across ecosystems: do engineer species sharing common features have generalized or idiosyncratic effects on species diversity? (2006) J Biogeogr, 33, pp. 304-313 
504 |a Badano, E.I., Jones, C.G., Cavieres, L.A., Wright, J.P., Assessing impacts of ecosystem engineers on community organization: a general approach illustrated by effects of a high–Andean cushion plant (2006) Oikos, 115, pp. 369-385 
504 |a Bagur, M., Richardson, C.A., Gutiérrez, J.L., Arribas, L.P., Doldan, M.S., Palomo, M.G., Age, growth and mortality in four populations of the boring bivalve Lithophaga patagonica from Argentina (2013) J Sea Res, 81, pp. 49-56 
504 |a Bagur, M., Gutiérrez, J.L., Arribas, L.P., Palomo, M.G., Endolithic invertebrate communities and bioerosion rates in Southwestern Atlantic intertidal consolidated sediments (2014) Mar Biol, 161, pp. 2279-2292 
504 |a Bertness, M.D., Callaway, R., Positive interactions in communities (1994) Trends Ecol Evol, 9, pp. 191-193. , COI: 1:STN:280:DC%2BC3M7itFSntg%3D%3D, PID: 21236818 
504 |a Bertness, M.D., Crain, C.M., Silliman, B.R., Bazterrica, M.C., Reyna, M.V., Hidalgo, F., Farina, J.K., The community structure of Western Atlantic Patagonian rocky shores (2006) Ecol Monogr, 76, pp. 439-460 
504 |a Borthagaray, A.I., Carranza, A., Mussels as ecosystem engineers: their contribution to species richness in a rocky littoral community (2007) Acta Oecol, 31, pp. 243-250 
504 |a Castilla, J.C., Lagos, N.A., Cerda, M., Marine ecosystem engineering by the alien ascidian Pyura praeputialis on a mid–intertidal rocky shore (2004) Mar Ecol Progr Ser, 268, pp. 119-130 
504 |a Chao, A., Non–parametric estimation of the number of classes in a population (1984) Scand J Stat, 11, pp. 265-270 
504 |a Colwell, R.K., EstimateS: Statistical estimation of species richness and shared species from samples (2013) Version 9 User’s Guide and application, , http://purl.oclc.org/estimates 
504 |a Colwell, R.K., Coddington, J.A., Estimating terrestrial biodiversity through extrapolation (1994) Phil Trans R Soc B, 345, pp. 101-118. , COI: 1:STN:280:DyaK2M%2Fmt1GltA%3D%3D, PID: 7972351 
504 |a Colwell, R.K., Mao, C.X., Chang, J., Interpolating, extrapolating, and comparing incidence–based species accumulation curves (2004) Ecology, 85, pp. 2717-2727 
504 |a Colwell, R.K., Chao, A., Gotelli, N.J., Lin, S.Y., Mao, C.X., Chazdon, R.L., Longino, J.T., Models and estimators linking individual–based and sample–based rarefaction, extrapolation, and comparison of assemblages (2012) J Plant Ecol, 5, pp. 3-21 
504 |a Crooks, J., Characterizing ecosystem–level consequences of biological invasions: the role of ecosystem engineers (2002) Oikos, 97, pp. 153-166 
504 |a Cuevas, J.M., Martin, J.P., Bastida, R., Benthic community changes in a Patagonian intertidal: forty years later comparison (2006) Thalassas, 22, pp. 31-39 
504 |a Donadi, S., van der Heide, T., Piersma, T., van der Zee, E.M., Weerman, E.J., van de Koppel, J., Olff, H., Eriksson, B.K., Multi-scale habitat modification by coexisting ecosystem engineers drives spatial separation of macrobenthic functional groups (2015) Oikos, 124, pp. 1502-1510 
504 |a Gotelli, N.J., Colwell, R.K., Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness (2001) Ecol Lett, 4, pp. 379-391 
504 |a Greenacre, M., Blasius, J., (2006) Multiple correspondence analysis and related methods, p. 581. , CRC Press, Boca Raton 
504 |a Guimarães, P.R., Guimarães, P., Improving the analyses of nestedness for large sets of matrices (2006) Environ Model Softw, 21, pp. 1512-1513 
504 |a Gutiérrez, J.L., Jones, C.G., Physical ecosystem engineers as agents of biogeochemical heterogeneity (2006) Bioscience, 56, pp. 227-236 
504 |a Gutiérrez, J.L., Jones, C.G., Strayer, D.L., Iribarne, O.O., Mollusks as ecosystem engineers: the role of shell production in aquatic habitats (2003) Oikos, 101, pp. 79-90 
504 |a Huber, M., (2010) Compendium of bivalves. A full-color guide to 3,300 of the world’s marine bivalves. A status on Bivalvia after 250 years of research, p. 901. , ConchBooks, Hackenheim 
504 |a Jones, C.G., Lawton, J.H., Shachak, M., Positive and negative effects of organisms as physical ecosystem engineers (1997) Ecology, 78, pp. 1946-1957 
504 |a Jones, C.G., Gutiérrez, J.L., Byers, J.E., Crooks, J.A., Lambrinos, J.G., Talley, T.S., A framework for understanding physical ecosystem engineering by organisms (2010) Oikos, 119, pp. 1862-1869 
504 |a Lill, J.T., Marquis, R.J., Ecosystem engineering by caterpillars increases insect herbivore diversity on white oak (2003) Ecology, 84, pp. 682-690 
504 |a Nakano, D., Yamamoto, M., Okino, T., Ecosystem engineering by larvae of net–spinning stream caddisflies creates a habitat on the upper surface of stones for mayfly nymphs with a low resistance to flows (2005) Freshw Biol, 50, pp. 1492-1498 
504 |a Olivier, S.R., Kreibohm de Paternoster, I., Bastida, R., Estudios biocenóticos en las costas de Chubut (Argentina) I. Zonación biocenológica de Puerto Pardelas (Golfo Nuevo) (1966) Bol Inst Biol Mar, 10, pp. 5-74 
504 |a Paruelo, J.M., Beltran, A., Jobbagy, E., Sala, O.E., Golluscio, R.A., The climate of Patagonia: general patterns and controls on biotic processes (1998) Ecol Austral, 8, pp. 85-101 
504 |a Rechimont, M.E., Galván, D.E., Sueiro, M.C., Casas, G., Piriz, M.L., Diez, M.E., Primost, M., Bigatti, G., Benthic diversity and assemblage structure of a north Patagonian rocky shore: a monitoring legacy of the NaGISA project (2013) J Mar Biol Assoc UK, 93, pp. 2049-2058 
504 |a Sánchez, V., Zaixso, H.E., Secuencias de recolonización mesolitoral en una costa rocosa del Golfo San José (Chubut, Argentina) (1995) Nat Patagón Cienc Biol, 3, pp. 57-83 
504 |a Scasso, R.A., del Río, C.J., Ambientes de sedimentación y proveniencia de la secuencia marina del Terciario Superior de la región de Península Valdés (1987) Rev Asoc Geol Argent, 42, pp. 291-321 
504 |a Silliman, B.R., Bertness, M.D., Altieri, A.H., Griffin, J.N., Bazterrica, M.C., Hidalgo, F.J., Crain, C.M., Reyna, M.V., Whole-community facilitation regulates biodiversity on Patagonian rocky shores (2011) PLoS One, 6 (10). , COI: 1:CAS:528:DC%2BC3MXhsVSgtr7P, PID: 22022356 
504 |a Tokeshi, M., Romero, L., Filling a gap: dynamics of space occupancy on a mussel-dominated subtropical rocky shore (1995) Mar Ecol Prog Ser, 119, pp. 167-176 
504 |a Trovant, B., Orensanz, J.L., Ruzzante, D.E., Stotz, W., Basso, N.G., Scorched mussels (Bivalvia: Mytilidae: Brachidontinae) from the temperate coasts of South America: Phylogenetic relationships, trans–Pacific connections and the footprints of Quaternary glaciations (2015) Mol Phylogenet Evol, 82, pp. 60-74. , PID: 25451805 
504 |a Van der Molen, S., Márquez, F., Idaszkin, Y.L., Adami, M., Use of shell–shape to discriminate between Brachidontes rodriguezii and Brachidontes purpuratus species (Mytilidae) in the transition zone of their distributions (south–western Atlantic) (2013) J Mar Biol Assoc UK, 93, pp. 803-808 
504 |a Wesche, K., Nadrowski, K., Retzer, V., Habitat engineering under dry conditions: the impact of pikas (Ochotona pallasi) on vegetation and site conditions in southern Mongolian steppes (2007) J Veg Sci, 18, pp. 665-674 
504 |a Witman, J.D., Refuges, biological disturbance, and rocky subtidal community structure in New England (1985) Ecol Monogr, 55, pp. 421-445 
504 |a Wright, J.P., Jones, C.G., Flecker, A.S., An ecosystem engineer, the beaver, increases species richness at the landscape scale (2002) Oecologia, 132, pp. 96-101 
504 |a Wright, J.P., Jones, C.G., Boeken, B., Shachak, M., Predictability of ecosystem engineering effects on species richness across environmental variability and spatial scales (2006) J Ecol, 94, pp. 815-824 
504 |a Wright, J.T., Byers, J.E., DeVore, J.L., Sotka, E.E., Engineering or food? Mechanisms of facilitation by a habitat-forming invasive seaweed (2014) Ecology, 95, pp. 2699-2706 
520 3 |a Structural modification of the environment by physical ecosystem engineers often allows for the occurrence of species that are not able to establish in unengineered habitats, thus leading to increased species richness at the landscape-level (i.e., areas encompassing engineered and unengineered habitats). Unlike previous studies that focused on the contribution of a single engineering species to landscape-level species richness, this study evaluates whether co-occurring engineers—i.e., intertidal mussels (primarily Perumytilus purpuratus) and rock boring bivalves (Lithophaga patagonica)—contribute to landscape-level species richness in a similar or complementary way. Our results show that both mussel and L. patagonica patches harbor a substantial number of invertebrate species in addition to those occurring in the unenegineered rock substrate. However, the distinctive habitat patches created by each engineer add exclusive subsets of species to the study area, which implies that mussel and L. patagonica patches contribute complementarily to overall species richness in our intertidal landscape. Here we postulate that complementary engineering effects on landscape-level species richness will occur when the engineered patches structurally differ from each other and, thus, vary in their relative ability to modulate two or more abiotic conditions and/or resources that prevent species establishment in the unengineered state. In spite of its inherently small spatial scale (500 m), our study highlights the potential for complementary engineering impacts at the larger scales that are usually implied in biodiversity conservation and management (tens to hundreds of kilometers) and outlines a simple conceptual basis and approach to address them. © 2016, Springer Science+Business Media Dordrecht.  |l eng 
593 |a Museo Argentino de Ciencias Naturales “Bernardino Rivadavia” (MACN-CONICET), Buenos Aires, Argentina 
593 |a Grupo de Investigación y Educación en Temas Ambientales (GrIETA), Mar del Plata, Argentina 
593 |a Facultad de Ciencias Exactas y Naturales and CONICET, Universidad Nacional de Mar del Plata, Mar del Plata, Argentina 
593 |a Centro Nacional Patagónico (CENPAT-CONICET), Puerto Madryn, Argentina 
690 1 0 |a BIODIVERSITY 
690 1 0 |a COMPLEMENTARITY 
690 1 0 |a ECOSYSTEM ENGINEERS 
690 1 0 |a MUSSELS 
690 1 0 |a SPECIES RICHNESS 
690 1 0 |a BIVALVIA 
690 1 0 |a INVERTEBRATA 
690 1 0 |a LITHOPHAGA 
700 1 |a Gutiérrez, J.L. 
700 1 |a Arribas, L.P. 
700 1 |a Palomo, M.G. 
773 0 |d Springer Netherlands, 2016  |g v. 25  |h pp. 2787-2802  |k n. 13  |x 09603115  |t Biodiversity Conserv. 
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