A graphical causal model for resolving species identity effects and biodiversity–ecosystem function correlations

Schoolmaster, Donald R.; Zirbel, Chad R.; Cronin, James Patrick

doi:10.1002/ecy.3070

Cited by 36 publications

(62 citation statements)

References 46 publications

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“…Numerous well-known studies have posited that species identity and biodiversity are surrogates of functional-trait effects on ecosystem functioning (see Hättenschwiler et al, 2018; Szefer et al, 2017). However, according to (Schoolmaster et al, 2020), these surrogates should not be assumed to be “causal” although significant biodiversity–ecosystem function correlations are spurious associations that arise from common-cause confounding in mis-specified trait-based ecosystem function models. Residual effects of species identity, while causally related (i.e., elements of species composition), also indicate incomplete trait information.…”

Section: Discussionmentioning

confidence: 99%

Riparian forest restoration as sources of biodiversity and ecosystem functions in anthropogenic landscapes

Antonini

Beirão

Costa

et al. 2021

Preprint

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Restoration of tropical riparian forests is challenging, since these ecosystems are the most diverse, dynamic, and complex physical and biological terrestrial habitats. This study tested whether biodiversity can predict ecosystem functions in a human-impacted tropical riparian forest. We explored the effects of several biodiversity components (taxonomic or functional groups) on different ecosystem functions associated with restored riparian forests. Overall, 49% of the biodiversity components showed positive effects on ecosystem functions, each component to a different degree. In general, our results showed that both taxonomic and functional biodiversity had strong effects on ecosystem functions indicating that floral and faunal biodiversity enhanced the multifunctionality of these restored riparian tropical forests. These findings indicate that in restored riparian forests, recovery of biodiversity is followed by improvement in important ecosystem functions that are the basis for successful restoration. Future research and policy for restoration programs must focus on restoring elementary faunal and floral components of biodiversity in order to promote ecosystem multifunctionality.

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Section: Discussionmentioning

confidence: 99%

Riparian forest restoration as sources of biodiversity and ecosystem functions in anthropogenic landscapes

Antonini

Beirão

Costa

et al. 2021

Preprint

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“…S1). These results are suggestive, but it is community composition, rather than species richness per se, that should account for differences in ecosystem multifunctionality 11-12 . As Schoolmaster et al .…”

Section: Introductionmentioning

confidence: 91%

“…These results are suggestive, but it is community composition, rather than species richness per se, that should account for differences in ecosystem multifunctionality [11][12] . As Schoolmaster et al (2020) argue, it is essential to correctly account for the cause -effect links between the components of biodiversity and ecosystem functions since community composition would influence ecosystem functions via plant phenotypic traits at small local spatial scales [13][14] .…”

Section: Introductionmentioning

confidence: 91%

“…As Schoolmaster et al (2020) argue, it is essential to correctly account for the cause -effect links between the components of biodiversity and ecosystem functions since community composition would influence ecosystem functions via plant phenotypic traits at small local spatial scales [13][14] . Hence, trait-based approaches (response/effect traits) quantifying compositional complexity have been proposed as a way of mediating the relationship between global change and ecosystem functions [12][13][14][15] . In this paper, we will apply trait-based approaches, and call the pattern of trait values expressed in a community that determined both by the identity and relative abundance of the species possessing these traits, as the community functional structure 16 .…”

Section: Introductionmentioning

confidence: 99%

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Exploring the relationship between functional structure and ecosystem multifunctionality requires intraspecific trait variability

Shipley

Zhou

2020

Preprint

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Recent studies have shown that intraspecific trait variability is an important source of total trait variation in the face of global change. However, the contribution of intraspecific variability to ecosystem multifunctionality remains unknown. We calculated the mean and variability of four functional traits in an alpine meadow under long-term nitrogen addition and experimental warming and split them into interspecific and intraspecific variabilities. We then investigated their net effects and relative importance in determining ecosystem multifunctionality. We found that the effect of trait variability on multifunctionality depended not only on the number of functions, but also on the thresholds considered. Trait variability dominating ecosystem multifunctionality switched from interspecific to intraspecific when the thresholds of multifunctionality varied from low to high levels. When more functions were considered to interpret multifunctionality above high threshold levels, the relative contribution of intraspecific variability would be more important.

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“…The coordination among different leaf traits, which are shaped by evolution (Firn et al, 2019), allows plant adaptation to diverse habitats (Ahrens et al, 2020;Firn et al, 2019;Gratani & Bombelli, 2000;Moreira & Pearse, 2017;Wright et al, 2004Wright et al, , 2005. Correlations among leaf traits are used to interpret the biodiversity-ecosystem functions (Cronin & Schoolmaster, 2018;Schoolmaster et al, 2020) and can be used to track how plants respond to environmental change (Cronin & Schoolmaster, 2018). For example, plants can decrease SLA to increase water-use efficiency (WUE) in habitats with low water availability (Maxwell et al, 2018) and synthesize OA to abate the adverse effects of excess leaf [Ca] (Kinzel, 1983).…”

Section: Introductionmentioning

confidence: 99%

Increase in leaf organic acids to enhance adaptability of dominant plant species in karst habitats

Tang

Liu

Lambers

et al. 2021

Ecology and Evolution

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A graphical causal model for resolving species identity effects and biodiversity–ecosystem function correlations

Cited by 36 publications

References 46 publications

Riparian forest restoration as sources of biodiversity and ecosystem functions in anthropogenic landscapes

Riparian forest restoration as sources of biodiversity and ecosystem functions in anthropogenic landscapes

Exploring the relationship between functional structure and ecosystem multifunctionality requires intraspecific trait variability

Increase in leaf organic acids to enhance adaptability of dominant plant species in karst habitats

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