Relationships between taxonomic resolution and data transformations in analyses of a macrobenthic community along an established pollution gradient

Olsgard, F.; Somerfield, Paul J.; Carr,

doi:10.3354/meps149173

Cited by 170 publications

(156 citation statements)

References 23 publications

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“…changes at the level of orders or phyla. Olsgard et al (1997) simultaneously examined effects of altering taxonomic resolution and transforming the data on results of ANOSIM tests on soft-sediment macrofauna along a gradient of pollution. They, too, found that transformation had stronger effects on the measured patterns than dld changing resolution, with decreased ability to identify pattern for analyses of strongly transformed data at the coarsest taxonomic resolution.…”

Section: Discussionmentioning

confidence: 99%

“…From a study of the literature, there appears to be an automatic tendency to transform data to X o Z 5 before proceeding with ANOSIM or nMDS plots. Both the transformations and levels of taxonomic resolution used can strongly influence the significance of any results obtained (Olsgard et al 1997) and should be carefully considered in the light of the hypotheses being tested before each is selected.…”

Section: Discussionmentioning

confidence: 99%

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Relationships between spatial patterns of benthic assemblages in a mangrove forest using different levels of taxonomic resolution

Chapman¹

1998

Mar. Ecol. Prog. Ser.

122

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ABSTRACT-The use of multivariate techniques to quantify spatlal and temporal patterns in assemblages requires decisions about the resolution to wlhich taxa are identified Sim~lar spatial patterns in assemblages are often found whether coarse or fine levels of taxonomic resolution are used. Whether coarser resolution retains patterns of relative difference In assemblages between habitats at a hicrarchy of spatial scales has not been widely examined. Where organisms are patchy at many spatial scales, numerous replicates are needed to represent assemblages adequately Identifying taxa into broad groups is generally quicker and cheaper than identification to species, so coarser resolution may release limited resources for the intensive sampling necebsdry for populations of highly dispersed and patchy organisms. In this study, intertidal epifaunal assemblages in urban mangrove forests were examined at scales of metres, tens of metres and hundreds of metres using 2 different levels of taxonomic resolution 93 taxa and 9 broad groups. Bray-Curtis measures of dissimilarity were also compared between the 2 levels of taxonomic resolution to test the hypothesis that quantitative differences in the assemblages at a hierarchy of spatial scales were retained with different levels of taxonomic resolution. Assemblages varied at each spatial scale. Similar patterns were obtained at each level of taxonomic resolution because the Bray-Curtis measures of dissimilarity were strongly correlated between the 2 1evc:ls. More variable sites, as identified using one level of taxonomic resolution, were also more variable using a different level of taxonomic resolution. Also, sites that were similar to each other when 93 taxa were used remained similar when the taxa were grouped into 9 groups. Transforming the data to the fourth root retained patterns of differences between sites, but altered patterns of variability within sites. The relative value of putting limited resources into increasing the size of the sample as opposed to increased taxonomic resolution in such habitats is discussed.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Relationships between spatial patterns of benthic assemblages in a mangrove forest using different levels of taxonomic resolution

Chapman¹

1998

Mar. Ecol. Prog. Ser.

122

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“…The use of different sieve mesh sizes (Thompson et al, 2003) and the application of subsampling techniques (Carey and Keough, 2002) have been proposed for the establishment of more cost-effective methods. Additionally multivariate techniques (Olsgard et al, 1997) and recently developed sample-size/sample-effort free biodiversity indices have also been used as an alternative to species-level identification of the total fauna (e.g. Warwick and Clarke, 2001).…”

Section: Introductionmentioning

confidence: 99%

Molluscan diversity along a Mediterranean soft bottom sublittoral ecotone

Koulouri¹,

Dounas²,

Arvanitidis³

et al. 2006

Sci. Mar.

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SUMMARY: Molluscan diversity associated with sublittoral soft-bottoms was studied in Heraklion Bay as part of a longterm multidisciplinary research programme in the coastal environment of northern Crete (eastern Mediterranean). Quantitative benthic samples were collected in a pilot survey from a grid of 28 stations, followed by a seasonal sampling carried out over a seven-station transect located from 10 to 40 m depth. Univariate and multivariate analyses indicated the presence of a clear zonation along the depth gradient for the molluscan fauna and three main associations were identified in bathymetric zones parallel to the coastline. The structure of the local molluscan communities revealed the existence of an extended transition zone (ecotone) between a shallow sandy association and a deeper muddy one and a functional pattern, based on the feeding guilds, was evident along the environmental gradient. Application of graphical techniques, by using molluscan taxocoenosis, indicated a rather naturally disturbed habitat. Beta-diversity measures indicated different seasonal community adaptations to the prevailing environmental conditions. Results derived from this study revealed that beta-diversity may be a good descriptor for the assessment of the strength and breadth of sublittoral transition zones along environmental gradients.Keywords: mollusc diversity, ecotone, sublittoral, soft bottom, beta-diversity, perturbation, environmental assessment, eastern Mediterranean.RESUMEN: DIVERSIDAD MALACOLÓGICA EN UN ECOTONO SUBLITORAL MEDITERRÁNEO DE FONDOS BLANDOS. -La diversidad malacológica asociada a la zona infralitoral de fondos blandos se ha estudiado en la bahía de Heraklion como parte de un programa de investigación multidisciplinar a largo plazo en la costa norte de Creta (Mediterráneo Oriental). Muestras cuantitativas del bentos fueron recogidas durante un muestreo piloto realizado en una parrilla de 28 estaciones. A continuación se realizó un muestreo estacional en un transecto de siete estaciones situadas entre 10 y 40 m de profundidad. Los análisis univariables y multivariables indicaron la presencia de una clara zonación malacológica a lo largo del gradiente de profundidad, identificándose tres asociaciones principales en zonas batimétricas paralelas a la línea de costa. La estructura de las comunidades locales de moluscos puso de manifiesto la existencia de una extensa zona de transición (ecotono) entre la asociación de arena somera y la de fango profundo y evidenció un patrón funcional basado en los tipos de alimentación a lo largo del gradiente ambiental. La aplicación de técnicas gráficas, empleando la taxocenosis de moluscos, indicó un hábitat perturbado. Lla diversidad beta indicó diferentes adaptaciones de las comunidades estacionales a las condiciones ambientales reinantes. Los resultados obtenidos en este estudio muestran que la diversidad beta puede ser un buen descriptor para la evaluación de la capacidad y la amplitud de las zonas de transición sublitoral a lo largo de gradientes ambientales.Palab...

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“…As has recently been shown in some coastal systems (Worm et al 2002), the effects of consumers and nutrients on diversity consistently depend on each other, and the direction of their effects and peak diversity shift between sites of low and high productivity. Also, as this is a case of communities linked with predator-prey interactions, it is possible that the effects of disturbing the higher trophic levels (fish) are likely to cascade down the lower trophic levels as shown by Worm & Myers (2003) for open sea ecosystems.In cases such as monitoring of pollution and other types of anthropogenic stress, macrofauna and the associated surrogates can be very useful as has been shown in many studies for different types of effects (Warwick 1988, Olsgard et al 1997, Dauvin et al 2003. In this particular context, monitoring is designed to detect, for instance, the spatial extent of disturbance using community structure and diversity as a sensitive tool.…”

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confidence: 99%

Cross-community congruence of patterns in a marine ecosystem: Do the parts reflect the whole?

Karakassis¹,

Machias²,

Pitta³

et al. 2006

Mar. Ecol. Prog. Ser.

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Cross-community congruence patterns of species diversity metrics and community similarity between macrobenthic infauna, epibenthic megafauna, demersal fish and microzooplankton ciliates were studied in 6 areas in the Eastern Mediterranean. These species-rich communities, cooccurring in space and time, were intensively sampled during 2 cruises, in seasons reflecting different levels of subtle anthropogenic stress. Comparisons of patterns showed high positive correlation of similarities in community structure between macrofauna and megafauna, megafauna and fish and fish and microzooplankton. However, the employed diversity metrics varied between communities, occasionally showing negative correlations. We suggest that the species composition and diversity of these communities reflect different environmental gradients and sources of heterogeneity, and therefore none of them can be used as a surrogate for ecosystem biodiversity in the context of marine conservation planning.KEY WORDS: Macrofauna · Megafauna · Demersal fish · Microzooplankton · Diversity · Community structure Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 310: [47][48][49][50][51][52][53][54] 2006 diversity 'hotspots' between pairs of taxa is highly variable and may be dependent on the spatial scale examined (Su et al. 2004 and references therein). Few researchers have directly compared patterns of crosstaxon congruency in species richness and community composition, and most of the approaches used have not addressed the congruency of community composition or beta diversity per se (Lawton et al. 1998, MacNally et al. 2002, Su et al. 2004; further, all of them come from the terrestrial environment.According to Giller et al. (2004), when compared to terrestrial systems, aquatic ecosystems are characterised by greater propagule and material exchange, often steeper physical and chemical gradients, more rapid biological processes and, in marine systems, higher metazoan phylogenetic diversity. These characteristics limit the potential to transfer conclusions derived from terrestrial experiments to aquatic ecosystems, whilst they do provide opportunities for testing the general validity of hypotheses about effects of biodiversity on ecosystem functioning. Furthermore, at present there is a large difference between the spatial scales on which marine biodiversity mapping is possible and the scales at which management decisions need to be made (Olsgard et al. 2003). Authors of many papers discussing progress in research on spatial patterns in taxonomic diversity and/or effects of biodiversity on ecosystem function (e.g. Gaston & Williams 1996, Gray 2000, Hooper et al. 2005) have expressed their reservation as to whether the knowledge gained from the research in terrestrial ecosystems is also applicable to marine ecosystems.According to the definition of Krebs (2001), a community is 'any assemblage of populations of living organisms in a prescribed area or habitat'. However, the scientist rarely has th...

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Relationships between taxonomic resolution and data transformations in analyses of a macrobenthic community along an established pollution gradient

Cited by 170 publications

References 23 publications

Relationships between spatial patterns of benthic assemblages in a mangrove forest using different levels of taxonomic resolution

Relationships between spatial patterns of benthic assemblages in a mangrove forest using different levels of taxonomic resolution

Molluscan diversity along a Mediterranean soft bottom sublittoral ecotone

Cross-community congruence of patterns in a marine ecosystem: Do the parts reflect the whole?

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