Phenotypic effects of the nurse <i>Thylacospermum caespitosum</i> on dependent plant species along regional climate stress gradients

Jiang, Xingpei; Michalet, Richard; Chen, Shuyan; Zhao, Liang; Wang, Xiangtai; Wang, Chenyue; An, Lizhe; Xiao, Sa

doi:10.1111/oik.04512

Cited by 17 publications

(26 citation statements)

References 61 publications

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“…To properly capture not only the continuous nature of the measured variable but also its variation with time and space, intraspecific trait variability should be included in the study of plant facilitation networks (Poisot et al ., 2015). For example, some studies have shown that a single nurse species may have different phenotypes that have very contrasting effects on their facilitated plants (Michalet et al ., 2011; Jiang et al ., 2018; Pistón et al ., 2018). To capture the intraspecific temporal variation of traits is especially problematic for seedlings, which have fast growing rates and it is hard to determine when to measure them (Butterfield and Briggs, 2011).…”

Section: Discussionmentioning

confidence: 99%

Phenotypic structure of plant facilitation networks

Navarro‐Cano¹,

Goberna

Valiente‐Banuet³

et al. 2020

Ecology Letters

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Identifying the plant traits that determine the outcome of facilitation interactions is essential to understand how communities are assembled and can be restored. Plant facilitation networks are phylogenetically structured but which traits are behind such a pattern is unknown. We sampled plant interactions in stressful ecosystems from south‐eastern Spain to build seedling and adult facilitation networks. We collected 20 morphological and ecophysiological traits for 151 species involved in interactions between 879 nurse individuals benefiting 24 584 seedlings and adults. We detected a significant phenotypic signal in the seedling facilitation network that was maintained in the adult network, whereby functionally similar nurses tended to facilitate functionally similar species whose traits differ from those of their nurses. We provide empirical evidence to support a long‐lasting theoretical postulate stating that facilitation networks are phenotypically structured. Trait matching through which nurse and facilitated species avoid phenotypic overlap, and consequently competition, is the main linkage rule shaping plant facilitation networks.

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Section: Discussionmentioning

confidence: 99%

Phenotypic structure of plant facilitation networks

Navarro‐Cano¹,

Goberna

Valiente‐Banuet³

et al. 2020

Ecology Letters

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“…(), and Jiang et al. () stressed the importance of above‐ground traits—in particular canopy compactness—to explain the negative effects of tight phenotypes as compared to loose ones on associated species, although Schöb et al. () showed opposite effects.…”

Section: Introductionmentioning

confidence: 99%

“…Tighter phenotypes have been shown to reduce temperature and light but increase soil moisture and litter compared to loose phenotypes (Classen, Chapman, Whitham, Hart, & Koch, 2007;Crutsinger, Strauss, & Rudgers, 2010). Michalet et al (2011), Al Hayek et al (2015b), Bonanomi et al (2016), and Jiang et al (2018) stressed the importance of above-ground traits-in particular canopy compactness-to explain the negative effects of tight phenotypes as compared to loose ones on associated species, although Schöb et al (2013) showed opposite effects.…”

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confidence: 99%

The balance of canopy and soil effects determines intraspecific differences in foundation species’ effects on associated plants

et al. 2018

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The impact of plant–plant interactions on species diversity patterns has been broadly addressed in stressful environments, such as alpine ecosystems, where foundation species promote species richness by creating habitat for other species. However, foundation species with contrasting phenotypes might modify the microhabitat differently, which would alter the subordinate community composition, and coincide with distinct feedback effects of those subordinate species on the foundation species. However, the precise interaction mechanisms that facilitate species are not fully understood, especially the relative contribution of above‐ and below‐ground compartments of foundation species to subordinate species and the potential feedbacks they receive. We explored whether two contrasted canopy phenotypes (tight and loose) of the shrub Cytisus galianoi differed in their effects on the microhabitat and on subordinate plant community composition in a dry subalpine system. We also experimentally distinguished the relative contribution of above‐ (canopy) and below‐ground (soil) effects of C. galianoi on the most frequent subordinate species, Festuca indigesta, as well as the reciprocal effects of F. indigesta on C. galianoi. We performed observational and manipulative experiments to assess the influence of phenotypic differences of the shrub on understorey microhabitat and subordinate plant community composition. Reciprocal effects were assessed by removing either F. indigesta from the understorey of the two shrub phenotypes or the C. galianoi canopy from the immediate vicinity of F. indigesta. The two C. galianoi phenotypes differed in mean values of functional traits (like stem density or plant height), modified their understorey microhabitats differently and hosted distinct subordinate communities. Loose phenotypes had more positive effects on community composition and diversity than tight phenotypes. In addition, tight phenotypes simultaneously showed both more positive above‐ground and more negative below‐ground effects on F. indigesta than loose phenotypes. There were no significant feedback effects of F. indigesta on C. galianoi. The two phenotypes of the foundation species C. galianoi showed contrasting effects on the subordinate plant community: Compared to the tight phenotype, the loose phenotype had higher associated species diversity and reduced reciprocal interaction intensities above‐ and below‐ground with the subordinate species F. indigesta. This highlights the impact of phenotypic variation for plant interactions and community‐level diversity. A http://onlinelibrary.wiley.com/doi/10.1111/1365-2435.13139/suppinfo is available for this article.

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“…They explained this interesting result by species pool effects, especially the lack of stress‐intolerant species under the most extreme conditions of stress. Similar species pool effects have also been shown to potentially affect the shape of the relationship between plant–plant interactions and environmental severity in salt marsh communities (Pennings, Selig, Houser, & Bertness, ), desert systems (Noumi, Chaieb, Michalet, & Touzard, ) and alpine communities (Jiang et al., ).…”

Section: Discussionmentioning

confidence: 83%

Benefactor facilitation and beneficiary feedback effects drive shrub‐dominated community succession in a semi‐arid dune ecosystem

Bai

She

Michalet

et al. 2018

Applied Vegetation Science

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Questions: (a) How do the facilitative effects of benefactors on understorey species change along a successional gradient; (b) what are the feedback effects of the beneficiary species on the benefactor; and (c) how do these bidirectional interactions drive community dynamics of a shrub-dominated ecosystem.Location: A sand-fixing community, Mu Us Desert, China. Methods:We quantified the effects of the shrub Artemisia ordosica on understorey herb abundance, biomass and richness using an observational procedure at four positions along a successional gradient, i.e., semi-fixed dunes (D1 stage), fixed dunes (D2 stage), fixed dunes covered with biological crusts (D3 stage) and fixed dunes with herbs (D4 stage). The relative interaction index (RII) was used to calculate the effect of the shrub on the herbs. Additionally, we conducted a removal experiment at the latest successional stage to assess the beneficiary feedback effects on the growth of the shrub's vegetative and reproductive twigs. Results:The response of herbs to the effect of the benefactor shrub showed a humped-back curve for abundance and biomass along the successional gradient, supporting the collapse of the interaction model, but a linear curve for richness, thus supporting the stress-gradient hypothesis. This difference could likely be explained by a turnover of life-history groups of understorey species from annuals to perennials along the successional gradient, with the growth of the latter group being more susceptible to shrub facilitation than the former. The herbs had a negative feedback effect on the growth of the shrub's reproductive twigs. Conclusions:Our results suggest that the relationship between the shrub A. ordosica and the associated herbs was antagonistic, and the absence of shrub seedling recruitment at the end of succession suggests that this antagonistic relationship was a crucial driver of a successional shift from a shrub-dominated to a herb-dominated community. K E Y W O R D Santagonism, Artemisia ordosica, beneficiary feedback effects, facilitation, Mu Us Desert, reproductive ability, sand dunes, succession 596 | Applied Vegetation Science BAI et Al.

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Phenotypic effects of the nurse Thylacospermum caespitosum on dependent plant species along regional climate stress gradients

Cited by 17 publications

References 61 publications

Phenotypic structure of plant facilitation networks

Phenotypic structure of plant facilitation networks

The balance of canopy and soil effects determines intraspecific differences in foundation species’ effects on associated plants

Benefactor facilitation and beneficiary feedback effects drive shrub‐dominated community succession in a semi‐arid dune ecosystem

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