A meta‐analysis of nestedness and turnover components of beta diversity across organisms and ecosystems

Soininen, Janne; Heino, Jani; Wang, Jianjun

doi:10.1111/geb.12660

Cited by 334 publications

(341 citation statements)

References 133 publications

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“…In addition, the low proportion of significantly associated pairs is coherent with the high levels of beta diversity in both study sites, which mostly originate from a large species turnover across plots. This finding is common in studies across a set of local communities (Soininen, Heino, & Wang, ). Contrary to nestedness, which indicates an orderly species loss in poorer compared with richer communities, spatial turnover reflects species replacement theoretically due to spatial constraints or environmental controls (Baselga, ).…”

Section: Discussionsupporting

confidence: 56%

“…Such a low effect of dispersal limitation is typical for organisms with large populations, small body size and high rates of passive dispersal, particularly in local sampling areas (Finlay, ; Martiny et al, ; Ramette & Tiedje, ). However, in heterogeneous ecosystems (as is the case of our patchy landscapes) microbial communities, in spite of their efficient dispersal abilities, can show a high turnover across plots due to local environmental filtering (Soininen et al, ).…”

Section: Discussionmentioning

confidence: 99%

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Incorporating phylogenetic metrics to microbial co‐occurrence networks based on amplicon sequences to discern community assembly processes

Goberna

Montesinos‐Navarro

Valiente‐Banuet

et al. 2019

Molecular Ecology Resources

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Co‐occurrence network analysis based on amplicon sequences is increasingly used to study microbial communities. Patterns of co‐existence or mutual exclusion between pairs of taxa are often interpreted as reflecting positive or negative biological interactions. However, other assembly processes can underlie these patterns, including species failure to reach distant areas (dispersal limitation) and tolerate local environmental conditions (habitat filtering). We provide a tool to quantify the relative contribution of community assembly processes to microbial co‐occurrence patterns, which we applied to explore soil bacterial communities in two dry ecosystems. First, we sequenced a bacterial phylogenetic marker in soils collected across multiple plots. Second, we inferred co‐occurrence networks to identify pairs of significantly associated taxa, either co‐existing more (aggregated) or less often (segregated) than expected at random. Third, we assigned assembly processes to each pair: patterns explained based on spatial or environmental distance were ascribed to dispersal limitation (2%–4%) or habitat filtering (55%–77%), and the remaining to biological interactions. Finally, we calculated the phylogenetic distance between taxon pairs to test theoretical expectations on the linkages between phylogenetic patterns and assembly processes. Aggregated pairs were more closely related than segregated pairs. Furthermore, habitat‐filtered aggregated pairs were closer relatives than those assigned to positive interactions, consistent with phylogenetic niche conservatism and cooperativism among distantly related taxa. Negative interactions resulted in equivocal phylogenetic signatures, probably because different competitive processes leave opposing signals. We show that microbial co‐occurrence networks mainly reflect environmental tolerances and propose that incorporating measures of phylogenetic relatedness to networks might help elucidate ecologically meaningful patterns.

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Section: Discussionsupporting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

Incorporating phylogenetic metrics to microbial co‐occurrence networks based on amplicon sequences to discern community assembly processes

Goberna

Montesinos‐Navarro

Valiente‐Banuet

et al. 2019

Molecular Ecology Resources

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“…In our work, β turnover (0.6–0.8, Figure c) caused by compositional change, was the dominant component of macrophyte beta‐diversity patterns, rather than β nestedness (0.05–0.15, Figure b) based on differences in richness. This conclusion is consistent with most partitioning studies on beta diversity, indicating that species sorting plays a vital role in assembling macrophyte communities (Hill, Heino, Thornhill, Ryves, & Wood, ; Soininen, Heino, & Wang, ).…”

Section: Discussionsupporting

confidence: 90%

Lake and catchment‐scale determinants of aquatic vegetation across almost 1,000 lakes and the contrasts between lake types

Sun

Hunter

Tyler

et al. 2019

Journal of Biogeography

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Aim The factors controlling macrophyte (aquatic plant) composition are complex, recent research having shown that the well‐studied effects of lake environmental factors (the so‐called “environmental filter”) can be constrained by hydrological and landscape factors. We investigated the factors determining macrophyte composition in lakes over water body and catchment scales and the transferability of this pattern across lake types. Location Almost 1,000 lakes distributed across Britain. Taxon Lake macrophytes. Methods Lakes were partitioned into five types based on subdivision of alkalinity and elevation gradients. Data from botanical surveys were used to compare the spatial turnover and nestedness components of beta diversity between lake types. The relative importance of lake environment (based on local physicochemical data), hydrology (e.g. lake and stream density), landscape (e.g. fragmentation indices, land cover) and spatial autocorrelation in explaining variation in macrophyte composition were derived from variance partitioning. Results Species composition showed strong spatial structuring, suggestive of overland dispersal, enhanced by spatially correlated abiotic factors such as alkalinity and elevation. Catchment‐scale factors (e.g. land use, connectivity) promoted the establishment of different communities (more or less diverse, or differing in composition) but were of secondary importance. Turnover in composition between upland lakes was lower than in other lake types, reflecting a more specialist flora and increased potential for propagule exchange due to spatial aggregation and higher hydrological connectivity. Main conclusions Vegetation composition in lakes is more spatially structured than previously appreciated, consistent with the importance of dispersal limitation, but this does not apply evenly to all lakes, being most acute in lowland high alkalinity lakes. Thus, spatially structured abiotic factors, such as alkalinity, influence macrophyte composition most (suggestive of niche filtering) in high alkalinity lakes where human impacts tend to be greatest, although nestedness was also lowest in such lakes. By contrast, hydrological connectivity has a proportionally stronger structuring role in upland lakes.

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“…As a result, total β‐diversity was highest in primary forest and lowest in Eucalyptus forest (Figure S2.12). This was largely driven by species turnover, with nestedness forming only a small component in line with most studies (Soininen, Heino, & Jianjun, ) and particularly ants (Luis, Silva, Souza, Solar, & Neves, ; Schmidt et al., ). In disturbed habitats turnover decreased, probably due to a larger proportion of generalist species that tolerate a broader range of conditions, reducing the effects of environmental filtering.…”

Section: Discussionsupporting

confidence: 81%

Is β‐diversity of Amazonian ant and dung beetles communities elevated at rainforest edges?

Marsh

Feitosa

Louzada

et al. 2018

Journal of Biogeography

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Aim Thousands of kilometres of rainforest edges are created every year through forest fragmentation, but we have little knowledge of the impacts of edges on spatial patterns of species turnover and nestedness components of β‐diversity. Location A quasi‐experimental landscape in the north‐east Brazilian Amazon. Methods We sampled dung beetles and ants using a sampling design based on a fractal series of equilateral triangles that naturally allows examination at multiple spatial scales. We sampled two edge types (primary‐secondary and primary‐Eucalyptus forest) and three control sites immersed in primary, secondary and Eucalyptus forest. We measured β‐diversity between communities across the primary forest‐matrix edge and within communities at up to 1 km from the forest edge. We examined β‐diversity at multiple scales by partitioning the dissimilarity matrix into fractal orders representing inter‐point distances of ~32, ~100, ~316 and ~1,000 m and into turnover and nestedness components. Results Turnover but not nestedness was greater across the primary‐Eucalyptus forest than primary‐secondary forest edge. There was spillover of species across edges in both directions. Across edges and within controls, turnover was the main driver of β‐diversity. Within community, β‐diversity was increased for dung beetles at large scales (~300–1,000 m) at both edge types. This increase, however, was driven by elevated nestedness. Levels of β‐diversity were affected even ~300 m into habitat interiors, but appeared to be at control levels by 1 km. Main conclusions The effects of edges on the spatial dynamics of community composition penetrated far beyond the typical distances at which forest structure and microclimate are altered. This indicates that for a significant proportion of Amazonian communities, the underlying processes determining diversity may be impacted by deforestation.

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A meta‐analysis of nestedness and turnover components of beta diversity across organisms and ecosystems

Cited by 334 publications

References 133 publications

Incorporating phylogenetic metrics to microbial co‐occurrence networks based on amplicon sequences to discern community assembly processes

Incorporating phylogenetic metrics to microbial co‐occurrence networks based on amplicon sequences to discern community assembly processes

Lake and catchment‐scale determinants of aquatic vegetation across almost 1,000 lakes and the contrasts between lake types

Is β‐diversity of Amazonian ant and dung beetles communities elevated at rainforest edges?

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