Nutrient-Induced Modifications of Wood Anatomical Traits of Alchornea lojaensis (Euphorbiaceae)

Spannl, Susanne; Homeier, Jürgen; Bräuning, Achim

doi:10.3389/feart.2016.00050

Cited by 19 publications

(7 citation statements)

References 58 publications

(90 reference statements)

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“…Leaf anatomical structure was evaluated via paraffin sectioning of tissues and light microscopy observations/methods ( Spannl et al, 2016 ). We selected fully expanded sun leaves from five randomly selected plants of each species.…”

Section: Methodsmentioning

confidence: 99%

Two Dominant Herbaceous Species Have Different Plastic Responses to N Addition in a Desert Steppe

Guo

Zuo²,

Hu³

et al. 2022

Front. Plant Sci.

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Nitrogen (N) deposition rates are increasing in the temperate steppe due to human activities. Understanding the plastic responses of plant dominant species to increased N deposition through the lens of multiple traits is crucial for species selection in the process of vegetation restoration. Here, we measured leaf morphological, physiological, and anatomical traits of two dominant species (Stipa glareosa and Peganum harmala) after 3-year N addition (0, 1, 3, and 6 g N m−2 year−1, designated N0, N1, N3, and N6, respectively) in desert steppe of Inner Mongolia. We separately calculated the phenotypic plasticity index (PI) of each trait under different N treatments and the mean phenotypic plasticity index (MPI) of per species. The results showed that N addition increased the leaf N content (LNC) in both species. N6 increased the contents of soluble protein and proline, and decreased the superoxide dismutase (SOD) and the peroxidase (POD) activities of S. glareosa, while increased POD and catalase (CAT) activities of P. harmala. N6 increased the palisade tissue thickness (PT), leaf thickness (LT), and palisade-spongy tissue ratio (PT/ST) and decreased the spongy tissue–leaf thickness ratio (ST/LT) of S. glareosa. Furthermore, we found higher physiological plasticity but lower morphological and anatomical plasticity in both species, with greater anatomical plasticity and MPI in S. glareosa than P. harmala. Overall, multi-traits comparison reveals that two dominant desert-steppe species differ in their plastic responses to N addition. The higher plasticity of S. glareosa provides some insight into why S. glareosa has a broad distribution in a desert steppe.

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Section: Methodsmentioning

confidence: 99%

Two Dominant Herbaceous Species Have Different Plastic Responses to N Addition in a Desert Steppe

Guo

Zuo²,

Hu³

et al. 2022

Front. Plant Sci.

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“…The higher AGBI on soils with a high P content was accompanied by an increase in stem vessel diameter and reductions in branch and stem vessel density. This is consistent with the described increase in vessel diameter with nutrient availability, mainly nitrogen (Hacke et al 2010;Plavcová et al 2013;Spannl et al, 2016) and may reflect a shift to a more efficient xylem anatomy precipitated by the more favorable nutrient availability (Goldstein et al, 2013;. Most likely, nutrients alter wood anatomical and hydraulic traits due to their link to growth rates (Ewers et al, 2001;Phillips et al, 2001;Giardina et al, 2003;Amponsah et al 2004;Lovelock et al, 2004;Bucci et al, 2006;B´aez and Homeier, 2018).…”

Section: Influence Of Wood Properties and Leaf Traits On Growth Perfo...supporting

confidence: 80%

Growth, hydraulics and functional traits of Melia dubia across a steep climatic gradient in southern India

Ramesha¹

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“…2a). These modifications should produce less water‐demanding xylem architectures (Tyree & Zimmermann, 2002), create alternative pathways for water transport, bypassing embolized vessels (von Arx et al ., 2013; Spannl et al ., 2016), and reinforce the xylem under strongly negative water potentials (Hacke et al ., 2001). Hydraulic efficiency, in turn, seems to be achieved by invariably large and solitary vessels, reflecting more suitable phenotypes to wet sites.…”

Section: Discussionmentioning

confidence: 99%

Hydraulic tradeoffs underlie local variation in tropical forest functional diversity and sensitivity to drought

et al. 2022

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Summary Tropical forests are important to the regulation of climate and the maintenance of biodiversity on Earth. However, these ecosystems are threatened by climate change, as temperatures rise and droughts' frequency and duration increase. Xylem anatomical traits are an essential component in understanding and predicting forest responses to changes in water availability. We calculated the community‐weighted means and variances of xylem anatomical traits of hydraulic and structural importance (plot‐level trait values weighted by species abundance) to assess their linkages to local adaptation and community assembly in response to varying soil water conditions in an environmentally diverse Brazilian Atlantic Forest habitat. Scaling approaches revealed community‐level tradeoffs in xylem traits not observed at the species level. Towards drier sites, xylem structural reinforcement and integration balanced against hydraulic efficiency and capacitance xylem traits, leading to changes in plant community diversity. We show how general community assembly rules are reflected in persistent fiber–parenchyma and xylem hydraulic tradeoffs. Trait variation across a moisture gradient is larger between species than within species and is realized mainly through changes in species composition and abundance, suggesting habitat specialization. Modeling efforts to predict tropical forest diversity and drought sensitivity may benefit from adding hydraulic architecture traits into the analysis.

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Nutrient-Induced Modifications of Wood Anatomical Traits of Alchornea lojaensis (Euphorbiaceae)

Cited by 19 publications

References 58 publications

Two Dominant Herbaceous Species Have Different Plastic Responses to N Addition in a Desert Steppe

Two Dominant Herbaceous Species Have Different Plastic Responses to N Addition in a Desert Steppe

Growth, hydraulics and functional traits of Melia dubia across a steep climatic gradient in southern India

Hydraulic tradeoffs underlie local variation in tropical forest functional diversity and sensitivity to drought

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