Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic

The density, size, and morphology of coastal invertebrate species often predictably vary with latitude. In this study we evaluate whether the density, size, and morphology of the pulmonate limpet, Siphonaria lessonii, in the Southwestern Atlantic varies in agreement to the predictions of the abundan...

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Autores principales: Soria, S.A., Teso, V., Gutiérrez, J.L., Arribas, L.P., Scarabino, F., Palomo, M.G.
Formato: JOUR
Materias:
Abundance-centre hypothesis
Allen's rule
Bergmann's rule
Centre-periphery hypothesis
Siphonariidae
abundance
body size
ecological theory
environmental gradient
geographical variation
hypothesis testing
latitude
morphology
population density
shell
size
snail
trend analysis
Atlantic Ocean
Atlantic Ocean (Southwest)
Pacific Ocean
Pacific Ocean (Southwest)
Invertebrata
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_13851101_v129_n_p29_Soria
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_13851101_v129_n_p29_Soria2023-10-03T16:12:03Z Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic Soria, S.A. Teso, V. Gutiérrez, J.L. Arribas, L.P. Scarabino, F. Palomo, M.G. Abundance-centre hypothesis Allen's rule Bergmann's rule Centre-periphery hypothesis Siphonariidae abundance body size ecological theory environmental gradient geographical variation hypothesis testing latitude morphology population density shell size snail trend analysis Atlantic Ocean Atlantic Ocean (Southwest) Pacific Ocean Pacific Ocean (Southwest) Invertebrata Siphonariidae The density, size, and morphology of coastal invertebrate species often predictably vary with latitude. In this study we evaluate whether the density, size, and morphology of the pulmonate limpet, Siphonaria lessonii, in the Southwestern Atlantic varies in agreement to the predictions of the abundance-centre hypothesis (i.e., higher densities by the center of the species range), Bergmann's rule (i.e., increasing body size with latitude), and Allen's rule (i.e., decreasing body surface to volume ratio with latitude). Our results indicate that the upper density bounds of S. lessonii decrease with latitude across our study range, which may either contradict expectations of the abundant-centre model (i.e, if assuming a Temperate Southwestern Atlantic/Magellanic distribution; 27°S in the Atlantic to 42°S in the Pacific) or represent a partial trend within a broader scale, abundant-centre pattern (i.e., when considering a panmictic distribution from the Temperate Southwestern Atlantic to the Temperate Southeastern Pacific; 27°S in the Atlantic to 5°S in the Pacific). Limpet shell length (i.e., a surrogate of body size) was not significantly related to latitude (cf. Bergmann's rule). The two principal components of morphological variation in limpet shells – which increased with decreasing shell surface to volume ratio – showed positive and negative relationships with latitude (i.e., contradictory support to Allen's rule). From these analyses, we conclude (a) that the size and morphology of S. lessonii are primarily controlled by local conditions rather than broad-scale climatic or environmental gradients and, (b) that geographic marginality does not means reduced performance in this species at least as it concerns to abundance and maximum size. © 2017 Elsevier B.V. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_13851101_v129_n_p29_Soria
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Abundance-centre hypothesis
Allen's rule
Bergmann's rule
Centre-periphery hypothesis
Siphonariidae
abundance
body size
ecological theory
environmental gradient
geographical variation
hypothesis testing
latitude
morphology
population density
shell
size
snail
trend analysis
Atlantic Ocean
Atlantic Ocean (Southwest)
Pacific Ocean
Pacific Ocean (Southwest)
Invertebrata
Siphonariidae
spellingShingle Abundance-centre hypothesis
Allen's rule
Bergmann's rule
Centre-periphery hypothesis
Siphonariidae
abundance
body size
ecological theory
environmental gradient
geographical variation
hypothesis testing
latitude
morphology
population density
shell
size
snail
trend analysis
Atlantic Ocean
Atlantic Ocean (Southwest)
Pacific Ocean
Pacific Ocean (Southwest)
Invertebrata
Siphonariidae
Soria, S.A.
Teso, V.
Gutiérrez, J.L.
Arribas, L.P.
Scarabino, F.
Palomo, M.G.
Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
topic_facet Abundance-centre hypothesis
Allen's rule
Bergmann's rule
Centre-periphery hypothesis
Siphonariidae
abundance
body size
ecological theory
environmental gradient
geographical variation
hypothesis testing
latitude
morphology
population density
shell
size
snail
trend analysis
Atlantic Ocean
Atlantic Ocean (Southwest)
Pacific Ocean
Pacific Ocean (Southwest)
Invertebrata
Siphonariidae
description The density, size, and morphology of coastal invertebrate species often predictably vary with latitude. In this study we evaluate whether the density, size, and morphology of the pulmonate limpet, Siphonaria lessonii, in the Southwestern Atlantic varies in agreement to the predictions of the abundance-centre hypothesis (i.e., higher densities by the center of the species range), Bergmann's rule (i.e., increasing body size with latitude), and Allen's rule (i.e., decreasing body surface to volume ratio with latitude). Our results indicate that the upper density bounds of S. lessonii decrease with latitude across our study range, which may either contradict expectations of the abundant-centre model (i.e, if assuming a Temperate Southwestern Atlantic/Magellanic distribution; 27°S in the Atlantic to 42°S in the Pacific) or represent a partial trend within a broader scale, abundant-centre pattern (i.e., when considering a panmictic distribution from the Temperate Southwestern Atlantic to the Temperate Southeastern Pacific; 27°S in the Atlantic to 5°S in the Pacific). Limpet shell length (i.e., a surrogate of body size) was not significantly related to latitude (cf. Bergmann's rule). The two principal components of morphological variation in limpet shells – which increased with decreasing shell surface to volume ratio – showed positive and negative relationships with latitude (i.e., contradictory support to Allen's rule). From these analyses, we conclude (a) that the size and morphology of S. lessonii are primarily controlled by local conditions rather than broad-scale climatic or environmental gradients and, (b) that geographic marginality does not means reduced performance in this species at least as it concerns to abundance and maximum size. © 2017 Elsevier B.V.
format JOUR
author Soria, S.A.
Teso, V.
Gutiérrez, J.L.
Arribas, L.P.
Scarabino, F.
Palomo, M.G.
author_facet Soria, S.A.
Teso, V.
Gutiérrez, J.L.
Arribas, L.P.
Scarabino, F.
Palomo, M.G.
author_sort Soria, S.A.
title Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
title_short Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
title_full Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
title_fullStr Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
title_full_unstemmed Variation in density, size, and morphology of the pulmonate limpet Siphonaria lessonii along the Southwestern Atlantic
title_sort variation in density, size, and morphology of the pulmonate limpet siphonaria lessonii along the southwestern atlantic
url http://hdl.handle.net/20.500.12110/paper_13851101_v129_n_p29_Soria
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