Different Nitro-Oxidative Response of Odontarrhena lesbiaca Plants from Geographically Separated Habitats to Excess Nickel

Feigl, Gábor; Varga, Viktor; Molnár, Árpád; Dimitrakopoulos, Panayiotis G.; Kolbert, Zsuzsanna

doi:10.3390/antiox9090837

Cited by 10 publications

(4 citation statements)

References 61 publications

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“…O. lesbiaca is the only hyperaccumulator species in our communities, with differences in Ni hyperaccumulation among its populations being consistent with nickel availability in the soil (Kazakou et al 2010; Adamidis et al 2014c). In a rhizotron experiment, individuals of O. lesbiaca from Ni rich soils (Ampeliko) proved to be more tolerant in terms of root growth relative to those from sites with lower nickel content (Loutra), as Ni-induced nitric oxide accumulation was observed in their root tips along with a decrease in the degree of protein tyrosine nitration (Feigl et al 2020). The difference in traits of the O. lesbiaca could also be linked to high resistance to low nutrient and water availability (Kazakou et al 2008; Harrison et al 2017), as species strictly restricted to serpentine habitats are found to have higher drought tolerance than more generalist Mediterranean species (Hidalgo-Triana et al 2023).…”

Section: Discussionmentioning

confidence: 99%

Interspecific trait differences drive plant community responses on serpentine soils

Delhaye,

Dimitrakopoulos,

Adamidis

2024

Preprint

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Serpentine ecosystems are characterized by multiple environmental stressors such as high levels of trace metals such as nickel (Ni), low availability of macronutrients and low water retention. These harsh environmental conditions exert a strong selective force on the vegetation, but their effect on the functional trait composition of the communities remains unknown. In 26 plots on four serpentine sites on Lesbos Island (Greece), we measured six leaf functional traits related to resource acquisition and stress resistance on the 20 most abundant plant species. We quantified the proportion of variance explained by inter- and intraspecific traits difference and tested if individual species show changes in trait values explained by soil Ni content. We investigated the selective value and the community level changes for each trait along the natural soil Ni gradient using a species multilevel model approach and functional diversity analyses. We also tested the role of the abundant serpentine endemicOdontarrhena lesbiacain driving these patterns. Intraspecific variation explained by soil Ni content is smaller than 2%, with most of the variance being explained by interspecific differences in trait values and most species do not show significant changes in trait values. At the community level, leaf thickness is the only trait driving an increase in species abundance along the gradient. Functional diversity analyses suggest a shift towards a stress tolerance syndrome (thick leaves with low SLA values) on Ni rich soils, but an increase in the diversity of these traits. However, these patterns are driven by the increasing abundance ofO. lesbiaca. When this species is excluded, there is an increase in the community mean leaf area and SLA, suggesting that the community does not respond to metallic stress with classical stress syndromes. Intraspecific variation in leaf trait responds little to soil metal toxicity. Endemic species harbour original trait values compared to species with broad distribution which should justify their conservation as a priority.

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Section: Discussionmentioning

confidence: 99%

Interspecific trait differences drive plant community responses on serpentine soils

Delhaye,

Dimitrakopoulos,

Adamidis

2024

Preprint

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“…Transfer and accumulation of metals from soil to plants is complex and often site-specific. Factors influencing this include: the chemical forms of the heavy metal; the pH of the soil; the soil organic matter content; soil nutrient contents; root exudation of organic acids and flavonoids; soil texture (particularly clay content); mycorrhizal symbiosis, microbial activity and abundance; the plant species; the plants stage of growth; climatic conditions and irrigation with polluted waters (Aladesanmi et al, 2019;Claveria et al, 2019b;Dahilan and Dalagan, 2017;de la Torre et al, 2016;De Oliveira et al, 2020;Domingo and David, 2014;Feigl et al, 2020;Mahajan et al, 2016;Navarrete et al, 2017;Sanqui et al, 2020;Susaya et al, 2010;Tibbett et al, 2021;Yashim et al, 2014).…”

Section: Metal Partitioning and Phytoextraction/phytomining Potentialmentioning

confidence: 99%

The extent and applications of metal accumulation and hyperaccumulation in Philippine plants

Duddigan,

Quimado,

Fernando

et al. 2023

Aust. J. Bot.

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To examine the potential applications of hyperaccumulator plants in the Philippines, we reviewed current data on the extent of metal hyperaccumulation in native species and partitioning of metals within the plant tissue. Twenty-eight species had reported tissue concentrations above the hyperaccumulator threshold, 11 species were endemic to the Philippines. Nickel was present in higher concentrations in the aboveground tissue than in the belowground tissue, but the reverse was found for copper, aluminium and chromium. The fact that copper accumulates belowground rather than above, and most hyperaccumulators of nickel identified were trees, has implications for the potential of phytoextraction using native Philippines flora.

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“…The use of soil-filled rhizotrons can be a good compromise between in vitro systems and field studies, allowing real-time, non-invasive studies of root system development [48]. Root responses of agricultural crops to different stressors have been investigated in such systems in several cases, e.g., treated with zinc [49] or nickel [50], combined heavy metal treatment modeling wastewater [51], polypropylene surgical mask fragments [52], or raw and nutrient-enriched pomegranate peel powder [53].…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Allelopathic Effect of Two Invasive Plant Species in Rhizotron System

Bakacsy,

Kardos,

Szepesi

et al. 2024

Life

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A key question in plant invasion biology is why invasive plants are more competitive in their introduced habitat than in their native habitat. Studies show that invasive species exhibit allelopathy, influencing other plants by releasing chemicals. Research on allelopathy uses in vitro tests, investigating effects on seed germination and seedling development. Although soil plays a role in modifying allelopathic effects, observations with soil are rare and almost nothing is known about the root development of test plants developing in soil and the effects of allelopathic compounds on root architecture. Our study evaluates the allelopathic effects of false indigo-bush (Amorpha fruticosa L.) and common milkweed (Asclepias syriaca L.) on oilseed rape growth as a model plant. The rhizotron system was used to study the effect of morphology and root architecture. Leaf–soil mixtures at 0.5%, 1%, and 5% concentrations were used. Shoot and root development was strongly inhibited at 5%. But there was no difference between the allelopathy of the two species, and the application of lower concentrations did not show any effect, demonstrating that soil has a significant modifying effect on their allelopathy. Our results highlight that the development of roots growing in the soil is also worth investigating in connection with allelopathy, which can strengthen the ecological importance of allelochemicals during successful invasions.

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Different Nitro-Oxidative Response of Odontarrhena lesbiaca Plants from Geographically Separated Habitats to Excess Nickel

Cited by 10 publications

References 61 publications

Interspecific trait differences drive plant community responses on serpentine soils

Interspecific trait differences drive plant community responses on serpentine soils

The extent and applications of metal accumulation and hyperaccumulation in Philippine plants

Investigation of the Allelopathic Effect of Two Invasive Plant Species in Rhizotron System

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