Plant growth shapes the effects of elevation on the content and variability of flavonoids in subalpine bilberry stands

Filippi, Antonio; Braidot, Enrico; Petrussa, Elisa; Fabro, Michele; Vuerich, Marco; Boscutti, Francesco

doi:10.1111/plb.13194

Cited by 13 publications

(8 citation statements)

References 97 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…On the other hand, the trend of increasing total flavonoid content in southern latitudes can be explain by increased UV-B radiation at higher elevations compared with northern, suggesting a greater contribution of flavonoids to radical scavenging potential. In this regard, our findings are partially explained by previous studies showing the promotion of flavonoid synthesis at a high altitude due to increased UV-B radiation and oxidative stress [ 37 ].…”

Section: Discussionsupporting

confidence: 67%

“…However, previous studies on different plant species have shown the variable effects of environmental gradients on phenolic metabolic pathways [ 34 , 35 ]. The opposite trend of accumulation of phenolic compounds, depending on the elevation, was found in Vaccinium myrtillus L. both for groups of compounds and for part of plants [ 36 , 37 ]. Nataraj et al [ 38 ] reported that the concentration of phenolic compounds decreased in the leaves of Artemisia brevifolia Wall ex DC.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Trends in Phenolic Profiles of Achillea millefolium from Different Geographical Gradients

Radušienė

Karpavičienė

Raudonė

et al. 2023

Plants

View full text Add to dashboard Cite

The traditional widely used raw material of Achillea millefolium is currently mainly derived from wild populations, leading to diversification and uncertainty in its quality. The aim of the study was to determine the accumulation differences of phenolic compounds between geographically distant populations of Achillea millefolium from northern and southern gradients. Plant material was collected from Gaziantep and Nevşehir provinces in Turkey and from wild populations in Lithuania. A complex of nine hydroxycinnamic acids and eleven flavonoids was identified and quantified in the methanolic extracts of inflorescences, leaves, and stems using the HPLC-PDA method. Caffeoylquinic acids predominated in leaves, while inflorescences tended to prevail in flavonoids. The PCA score plot model represented the quantitative distribution pattern of phenolic compounds along a geographical gradient of populations. The content of phenolic compounds in plant materials from northern latitudes was more than twice that of plants from southern latitudes. A significant correlation of individual phenolic compounds with latitude/longitude corresponded to their differences between two countries. Differences in accumulation of caffeoylquinic acids and flavonoids revealed several intraspecific groups within A. millefolium. Our findings suggest that spatial geographical data on the distribution of phenolic compounds in A. millefolium populations could be used as a tool to find potential collection sites for high-quality raw materials.

show abstract

Section: Discussionsupporting

confidence: 67%

Section: Discussionmentioning

confidence: 99%

Trends in Phenolic Profiles of Achillea millefolium from Different Geographical Gradients

Radušienė

Karpavičienė

Raudonė

et al. 2023

Plants

View full text Add to dashboard Cite

show abstract

“…Plants often employ mixed anti‐herbivore defense strategies that involve production of various types of secondary metabolites, which vary in their effectiveness against different herbivores but also play a huge role in plant adaptation to adverse environmental conditions (Filippi et al, 2021; Lankau, 2007; War et al, 2012). Carbon‐based metabolites such as tannins and flavonoids (phenolic compounds) are well‐known to act as anti‐herbivore defenses by affecting the feeding behavior and development of insect herbivores (Müller‐Schärer et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

Nutrient enrichment promotes invasion success of alien plants via increased growth and suppression of chemical defenses

Shan

Oduor

Huang

et al. 2023

Ecological Applications

View full text Add to dashboard Cite

In support of the prediction of the enemy release hypothesis regarding a growth–defense trade‐off, invasive alien plants often exhibit greater growth and lower anti‐herbivory defenses than native plants. However, it remains unclear how nutrient enrichment of invaded habitats may influence competitive interactions between invasive alien and co‐occurring native plants, as well as production of anti‐herbivore defense compounds, growth‐promoting hormones, and defense‐regulating hormones by the two groups of plants. Here, we tested whether: (i) nutrient enrichment causes invasive alien plants to produce greater biomass and lower concentrations of the defense compounds flavonoids and tannins than native plants; and (ii) invasive alien plants produce lower concentrations of a defense‐regulating hormone jasmonic acid (JA) and higher concentrations of a growth‐promoting hormone gibberellic acid (GA3). In a greenhouse experiment, we grew five congeneric pairs of invasive alien and native plant species under two levels each of nutrient enrichment (low vs. high), simulated herbivory (leaf clipping vs. no‐clipping), and competition (alone vs. competition) in 2.5‐L pots. In the absence of competition, high‐nutrient treatment induced a greater increase in total biomass of invasive alien species than that of native species, whereas the reverse was true under competition as native species benefitted more from nutrient enrichment than invasive alien species. Moreover, high‐nutrient treatment caused a greater increase in total biomass of invasive alien species than that of native species in the presence of simulated herbivory. Competition induced higher production of flavonoids and tannins. Simulated herbivory induced higher flavonoid expression in invasive alien plants under low‐nutrient than high‐nutrient treatments. However, flavonoid concentrations of native plants did not change under nutrient enrichment and simulated herbivory treatments. Invasive alien plants produced higher concentrations of GA3 than native plants. Taken together, these results suggest that impact of nutrient enrichment on growth of invasive alien and co‐occurring native plants may depend on the level of competition that they experience. Moreover, invasive alien plants might adjust their flavonoid‐based defense more efficiently than native plants in response to variation in soil nutrient availability and herbivory pressure. Our findings suggest that large‐scale efforts to reduce nutrient enrichment of invaded habitats may help to control future invasiveness of target alien plant species.

show abstract

“…So far, investigations targeting snow cover effects mainly explore single plant’s parameters as radial annual growth or shoot elongation ( Rixen et al, 2010 ; Schmidt et al, 2010 ; Pellizzari et al, 2014 ; Francon et al, 2017 ; Carrer et al, 2019 ), while other key functional traits or physiological parameters crucial for plant fitness, productivity, and survival, as leaf traits or non-structural carbohydrate content, are mostly neglected, especially in shrub-related studies ( Wipf et al, 2009 ; Sedlacek et al, 2015 ; Filippi et al, 2021 ). In fact, leaves and stomata features, driving photosynthesis and transpiration processes, reflect plant functioning in specific growing conditions ( Chapin et al, 2002 ).…”

Section: Introductionmentioning

confidence: 99%

Transient Effects of Snow Cover Duration on Primary Growth and Leaf Traits in a Tundra Shrub

et al. 2022

View full text Add to dashboard Cite

With the recent climate warming, tundra ecotones are facing a progressive acceleration of spring snowpack melting and extension of the growing season, with evident consequences to vegetation. Along with summer temperature, winter precipitation has been recently recognised as a crucial factor for tundra shrub growth and physiology. However, gaps of knowledge still exist on long-living plant responses to different snowpack duration, especially on how intra-specific and year-to-year variability together with multiple functional trait adjustments could influence the long-term responses. To fill this gap, we conducted a 3 years snow manipulation experiment above the Alpine treeline on the typical tundra species Juniperus communis, the conifer with the widest distributional range in the north emisphere. We tested shoot elongation, leaf area, stomatal density, leaf dry weight and leaf non-structural carbohydrate content of plants subjected to anticipated, natural and postponed snowpack duration. Anticipated snowpack melting enhanced new shoot elongation and increased stomatal density. However, plants under prolonged snow cover seemed to compensate for the shorter growing period, likely increasing carbon allocation to growth. In fact, these latter showed larger needles and low starch content at the beginning of the growing season. Variability between treatments slightly decreased over time, suggesting a progressive acclimation of juniper to new conditions. In the context of future warming scenarios, our results support the hypothesis of shrub biomass increase within the tundra biome. Yet, the picture is still far from being complete and further research should focus on transient and fading effects of changing conditions in the long term.

show abstract

Plant growth shapes the effects of elevation on the content and variability of flavonoids in subalpine bilberry stands

Cited by 13 publications

References 97 publications

Trends in Phenolic Profiles of Achillea millefolium from Different Geographical Gradients

Trends in Phenolic Profiles of Achillea millefolium from Different Geographical Gradients

Nutrient enrichment promotes invasion success of alien plants via increased growth and suppression of chemical defenses

Transient Effects of Snow Cover Duration on Primary Growth and Leaf Traits in a Tundra Shrub

Contact Info

Product

Resources

About