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Автор: Grafiati
Опубліковано: 14 березня 2023

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1

ŠPANIEL, STANISLAV. "Two new combinations and a new synonym in the genus Odontarrhena (Brassicaceae)." Phytotaxa 406, no. 4 (June 19, 2019): 250–54. http://dx.doi.org/10.11646/phytotaxa.406.4.4.

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Анотація:
In the recent treatment of the tribe Alysseae (Španiel et al. 2015), many taxa of the genus Alyssum Linnaeus (1753: 650) were transferred to Odontarrhena C.A.Mey. ex Ledebour (1830: 15). Odontarrhena clearly differs from Alyssum in molecular markers and morphological characters such as a predominantly compound inflorescence and monospermous locules of silicles (versus a usually simple raceme and silicles with two seeds in each locule). A list of accepted species and numerous new combinations of Odontarrhena were recently published (Španiel et al. 2015). However, two species names, Alyssum mozaffarianii Kavousi (2001: 48) and A. baldaccii Vierhapper ex Nyárády (1928: 123), were previously overlooked or misinterpreted and their respective combinations within Odontarrhena were not established. The new combinations are presented here together with taxonomic notes, a new synonym and newly designated lectotypes of four names of Odontarrhena taxa.
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2

Mohseni, Roshanak, Seyed Majid Ghaderian, and Henk Schat. "Nickel uptake mechanisms in two Iranian nickel hyperaccumulators, Odontarrhena bracteata and Odontarrhena inflata." Plant and Soil 434, no. 1-2 (September 15, 2018): 263–69. http://dx.doi.org/10.1007/s11104-018-3814-3.

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3

Bettarini, Isabella, Ilaria Colzi, Andrea Coppi, Sara Falsini, Guillaume Echevarria, Luigia Pazzagli, Federico Selvi, and Cristina Gonnelli. "Unravelling soil and plant metal relationships in Albanian nickel hyperaccumulators in the genus Odontarrhena (syn. Alyssum sect. Odontarrhena, Brassicaceae)." Plant and Soil 440, no. 1-2 (April 16, 2019): 135–49. http://dx.doi.org/10.1007/s11104-019-04077-y.

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4

Mohseni, Roshanak, Seyed Majid Ghaderian, Rasoul Ghasemi, and Henk Schat. "Differential effects of iron starvation and iron excess on nickel uptake kinetics in two Iranian nickel hyperaccumulators, Odontarrhena bracteata and Odontarrhena inflata." Plant and Soil 428, no. 1-2 (May 2, 2018): 153–62. http://dx.doi.org/10.1007/s11104-018-3666-x.

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5

Scartazza, Andrea, Daniela Di Baccio, Lorenzo Mariotti, Isabella Bettarini, Federico Selvi, Luigia Pazzagli, Ilaria Colzi, and Cristina Gonnelli. "Photosynthesizing while hyperaccumulating nickel: Insights from the genus Odontarrhena (Brassicaceae)." Plant Physiology and Biochemistry 176 (April 2022): 9–20. http://dx.doi.org/10.1016/j.plaphy.2022.02.009.

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6

Angelova, Violina, and Shreya Thapaliya. "Effect of organic amendment on soil characteristics and the uptake of nickel by Odontarrhena chalcidica." Agricultural Sciences 14, no. 34 (October 27, 2022): 4–16. http://dx.doi.org/10.22620/agrisci.2022.34.001.

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Анотація:
A comparative research on the impact of organic amendments on the soil characteristic and uptake of heavy metals, micro and macroelements of Odontarrhena chalcidica has been carried out. Experiments have been implemented in controlled conditions. The serpentine soil used in this experiment was sampled from the vicinity of the village Kazak, Bulgaria. The pot experiment was a randomized complete block design containing 9 treatments and three replications (27 pots). The treatments consisted of a control (no organic meliorants), and compost, vermicompost, biochar and activated carbon (added at 2.5% and 5.0%, respectively, recalculated based on dry soil weight). The application of organic additives to the soil influences the physicochemical properties and leads to an increase in organic matter and the content of macroelements (P, K, Ca and Mg) and trace elements (Fe, Mn, Zn) in the soil. The application of organic additives to the soil affects the uptake of Ni, micro and macroelements by Odontarrhena chalcidica. Plant biomass increased significantly, and there was a clear correlation between the amount of supplement applied and the increase in biomass. Organic additives had a positive effect on yield, influenced by the type of additive and dose. Ni yield was 3 times higher in the variants with 5% compost and 2.5% vermicompost input. The application of biochar resulted in a twofold decrease in Ni yield, while the application of activated carbon resulted in a marginal increase.
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7

Dimitrakopoulos, Panayiotis G., Maria Aloupi, Georgios Tetradis, and George C. Adamidis. "Broomrape Species Parasitizing Odontarrhena lesbiaca (Brassicaceae) Individuals Act as Nickel Hyperaccumulators." Plants 10, no. 4 (April 20, 2021): 816. http://dx.doi.org/10.3390/plants10040816.

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The elemental defense hypothesis supports that metal hyperaccumulation in plant tissues serves as a mechanism underpinning plant resistance to herbivores and pathogens. In this study, we investigate the interaction between Odontarrhena lesbiaca and broomrape parasitic species, in the light of the defense hypothesis of metal hyperaccumulation. Plant and soil samples collected from three serpentine sites in Lesbos, Greece were analyzed for Ni concentrations. Phelipanche nowackiana and Phelipanche nana were found to infect O. lesbiaca. In both species, Ni concentration decreased gradually from tubercles to shoots and flowers. Specimens of both species with shoot nickel concentrations above 1000 mg.kg−1 were found, showing that they act as nickel hyperaccumulators. Low values of parasite to O. lesbiaca leaf or soil nickel quotients were observed. Orobanche pubescens growing on a serpentine habitat but not in association with O. lesbiaca had very low Ni concentrations in its tissues analogous to excluder plants growing on serpentine soils. Infected O. lesbiaca individuals showed lower leaf nickel concentrations relative to the non-infected ones. Elevated leaf nickel concentration of O. lesbiaca individuals did not prevent parasitic plants to attack them and to hyperaccumulate metals to their tissues, contrary to predictions of the elemental defense hypothesis.
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8

Iunusova, D. R., A. Yu Teptina, V. L. Semerikov, and M. A. Polezhaeva. "Genetic Structure of the Ni-Accumulating Alyssum L. Species (Odontarrhena) in the Urals." Russian Journal of Genetics 58, no. 6 (June 2022): 655–61. http://dx.doi.org/10.1134/s102279542206014x.

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9

Stefanatou, Aimilia, Panayiotis G. Dimitrakopoulos, Maria Aloupi, George C. Adamidis, Georgios Nakas, and Theodora Petanidou. "From bioaccumulation to biodecumulation: Nickel movement from Odontarrhena lesbiaca (Brassicaceae) individuals into consumers." Science of The Total Environment 747 (December 2020): 141197. http://dx.doi.org/10.1016/j.scitotenv.2020.141197.

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10

Ghafoori, Mohammad, Mansour Shariati, Antony van der Ent, and Alan J. M. Baker. "Interpopulation variation in nickel hyperaccumulation and potential for phytomining by Odontarrhena penjwinensis from Western Iran." Journal of Geochemical Exploration 237 (June 2022): 106985. http://dx.doi.org/10.1016/j.gexplo.2022.106985.

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11

Feigl, Gábor, Viktória Varga, Árpád Molnár, Panayiotis G. Dimitrakopoulos, and Zsuzsanna Kolbert. "Different Nitro-Oxidative Response of Odontarrhena lesbiaca Plants from Geographically Separated Habitats to Excess Nickel." Antioxidants 9, no. 9 (September 7, 2020): 837. http://dx.doi.org/10.3390/antiox9090837.

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Анотація:
Odontarrhena lesbiaca is an endemic species to the serpentine soils of Lesbos Island (Greece). As a nickel (Ni) hyperaccumulator, it possesses an exceptional Ni tolerance; and it can accumulate up to 0.2–2.4% Ni of its leaves’ dry weight. In our study, O. lesbiaca seeds from two geographically separated study sites (Ampeliko and Loutra) were germinated and grown on control and Ni-containing (3000 mg/kg) soil in a rhizotron system. Ni excess induced significant Ni uptake and translocation in both O. lesbiaca ecotypes and affected their root architecture differently: plants from the Ampeliko site proved to be more tolerant; since their root growth was less inhibited compared to plants originated from the Loutra site. In the roots of the Ampeliko ecotype nitric oxide (NO) was being accumulated, while the degree of protein tyrosine nitration decreased; suggesting that NO in this case acts as a signaling molecule. Moreover, the detected decrease in protein tyrosine nitration may serve as an indicator of this ecotype’s better relative tolerance compared to the more sensitive plants originated from Loutra. Results suggest that Ni hypertolerance and the ability of hyperaccumulation might be connected to the plants’ capability of maintaining their nitrosative balance; yet, relatively little is known about the relationship between excess Ni, tolerance mechanisms and the balance of reactive nitrogen species in plants so far.
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12

German, Dmitry A. "(2058) Proposal to conserve Odontarrhena obovata (Alyssum obovatum ), nom. cons. prop., against Alyssum fischerianum (Cruciferae )." TAXON 61, no. 2 (April 2012): 470. http://dx.doi.org/10.1002/tax.612023.

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13

Movsumova, N. "Assessment and Reserve of Some Feed Phytocoenoses." Bulletin of Science and Practice, no. 12 (December 15, 2022): 119–25. http://dx.doi.org/10.33619/2414-2948/85/15.

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Анотація:
The studies were carried out on the floristic, geobotanical and resource assessment in Zardab and Ujar districts in 2020-2021 and 87 species belonging to 12 families were registered in the composition of coenosis. 12 species (Poa bulbosa L., Poa pratensisL., Artemisia lerchiana Weber, Chenopodium album L., Bromus scoparius L., Alhagi maurorum Medik., Cynodon dactylon (L.) Pers., Climacoptera crassa (M. Bieb.), Stipa capillata L., Brassica napus L., Glycyrrhiza glabra L., Alyssum tortuosum Willd. (= Odontarrhena tortuosa (Waldst. et Kit. ex Will.) C. A. Mey.)) distinguished for their long-term participation in the composition of the groupings were determined. The dynamics of productivity in coenoses were assessed by seasons and it was found that they changed in the range of 1.44-1.91 hwt/ha (in spring), 0.65-1.55 hwt/ha (in summer), 1.02-1.76 hwt/ha (in autumn). The dominance of forbs on botanical groupings was revealed.
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14

Rosenkranz, Theresa, Christina Hipfinger, Charline Ridard, and Markus Puschenreiter. "A nickel phytomining field trial using Odontarrhena chalcidica and Noccaea goesingensis on an Austrian serpentine soil." Journal of Environmental Management 242 (July 2019): 522–28. http://dx.doi.org/10.1016/j.jenvman.2019.04.073.

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15

German, Dmitry A. "(1979) Proposal to conserve the name Odontarrhena obovata (Alyssum obovatum ) against O. microphylla (A. microphyllum ) (Cruciferae )." TAXON 59, no. 6 (December 2010): 1897–98. http://dx.doi.org/10.1002/tax.596028.

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16

Paul, Adrian L. D., Hugh H. Harris, Peter D. Erskine, Wojciech Przybyłowicz, Jolanta Mesjasz-Przybyłowicz, Guillaume Echevarria, and Antony van der Ent. "Synchrotron µXRF imaging of live seedlings of Berkheya coddii and Odontarrhena muralis during germination and seedling growth." Plant and Soil 453, no. 1-2 (July 6, 2020): 487–501. http://dx.doi.org/10.1007/s11104-020-04591-4.

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17

Markovic, Branislav, Dragana Randjelovic, Gvozden Jovanovic, Gordana Tomovic, Ksenija Jakovljevic, Tomica Misljenovic, and Miroslav Sokic. "Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia." Chemical Industry 75, no. 5 (2021): 285–96. http://dx.doi.org/10.2298/hemind210701027m.

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Анотація:
Phytomining is a new promising technique that is based on using hyperaccumulating plants which biomass is utilized as a bio-ore for metal extraction. The Ni-hyperaccumulating species Odontarrhena muralis is widely distributed on ultramafic soils in Serbia, and could be a promising candidate for Ni agromining. In the present study, efficiency of a hydrometallurgical process for Ni recovery using biomass of O. muralis wild population through the synthesis of Ni salts from plant ash in the form of ammonium nickel sulfate hexahydrate, Ni(NH4)2(SO4)2 6H2O ? (ANSH) was assessed. The average Ni content in the plant from ultramafic sites in West Serbia was up to 3.300 g kg-1. The mass yield of ANSH crystals from the crude ash was ~12 % with the average purity of 73 % were obtained. By optimizing the purification process before precipitation of ANSH crystals, it is possible to obtain salt crystals of higher purity, which increases the economic profitability of this process. The results of this preliminary study on wild population of O. muralis show the increased potential for implementation of phytomining practices as an alternative way of Ni extraction on ultramafic sites in Serbia.
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18

Jakovljevic, Ksenija, Aida Bani, Dolja Pavlova, Maria Konstantinou, Panayiotis Dimitrakopoulos, Dimitris Kyrkas, Roger Reeves, et al. "Hyperaccumulator plant discoveries in the Balkans: Accumulation, distribution, and practical applications." Botanica Serbica 46, no. 2 (2022): 161–78. http://dx.doi.org/10.2298/botserb2202161j.

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Анотація:
Hyperaccumulator plants are able to tolerate extremely high concentrations of metals/metalloids in the soil in which they grow and to accumulate high concentrations in their shoots. To date, a total of 31 hyperaccumulator plant species have been identified in the Balkans, the centre of diversity and speciation in the European flora which is particularly rich in ultramafic areas. A further 8 species have yet to be confirmed through additional studies. Most of the 31 hyperaccumulator taxa (13 taxa or 41.9%) are species of the genus Odontarrhena, all hyperaccumulating Ni, but concentrations of this element above the hyperaccumulation threshold were also found in the genera Bornmuellera and Noccaea (all Brassicaceae), Orobanche (Orobanchaceae), Centaurea (Asteraceae) and Viola (Violaceae). The existence of hyperaccumulators of Tl and Zn is of particular interest because very few species worldwide hyperaccumulate these elements. Multiple metal hyperaccumulation was found in Noccaea kovatsii, as the hyperaccumulation of Zn was found in this species in addition to Ni, the primary accumulated element. Metal hyperaccumulation is discussed in terms of phylogenetic relationships and species distributions, with special attention to their systematics, the detection and recognition of new hyperaccumulating species and the possibilities for their future practical applications in phytotechnologies.
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19

Bettarini, Isabella, Cristina Gonnelli, Federico Selvi, Andrea Coppi, Luigia Pazzagli, and Ilaria Colzi. "Diversity of Ni growth response and accumulation in Central-Eastern Mediterranean Odontarrhena (Brassicaceae) populations on and off serpentine sites." Environmental and Experimental Botany 186 (June 2021): 104455. http://dx.doi.org/10.1016/j.envexpbot.2021.104455.

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20

ŠPANIEL, STANISLAV, LÝDIA HABURAJOVÁ, and VERONIKA CETLOVÁ. "Diploid and tetraploid cytotypes and subspecies of Odontarrhena tortuosa (Brassicaceae) in Pannonia: differences in morphology, ecology and genome size." Phytotaxa 358, no. 2 (July 4, 2018): 162. http://dx.doi.org/10.11646/phytotaxa.358.2.4.

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Odontarrhena tortuosa is a herbaceous species occurring in steppe and rocky habitats of Eurasia. The present study is focused on the cytogeography and morphological variation of the species’ populations growing in the Pannonian basin (Central Europe), which represents the westernmost part of its distribution area. Flow cytometric analyses have revealed the existence of tetraploid populations, which are reported here for the first time for Central Europe. We analysed the morphological variation of 329 individuals from Slovakia, Hungary and Serbia by multivariate morphometric methods to evaluate morphological differences between two cytotypes (diploids and tetraploids), between the subspecies (O. tortuosa subsp. tortuosa and O. tortuosa subsp. heterophylla) and between populations growing in three regions differing in the type of substrate (rocks, sand dunes and sandy and rocky screes). Although we have not found any clear morphological differences between the cytotypes, we have confirmed several previously reported morphological differences between the two subspecies, which occur in regions differing in the type of substrate. Flow cytometric data also indicate certain differences in monoploid genome size between all groups of populations under comparison. Populations from Serbia differ from other populations of O. tortuosa subsp. tortuosa in morphology and genome size, but due to a lack of data on the genetic variation of the species we suggest no change in taxonomy. For the identification of the two subspecies, we present an updated determination key.
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21

Coppi, Andrea, Alan J. M. Baker, Isabella Bettarini, Ilaria Colzi, Guillaume Echevarria, Luigia Pazzagli, Cristina Gonnelli, and Federico Selvi. "Population Genetics of Odontarrhena (Brassicaceae) from Albania: The Effects of Anthropic Habitat Disturbance, Soil, and Altitude on a Ni-Hyperaccumulator Plant Group from a Major Serpentine Hotspot." Plants 9, no. 12 (December 1, 2020): 1686. http://dx.doi.org/10.3390/plants9121686.

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Анотація:
Albanian taxa and populations of the genus Odontarrhena are most promising candidates for research on metal tolerance and Ni-agromining, but their genetic structure remains unknown. We investigated phylogenetic relationships and genetic differentiation in relation to distribution and ploidy of the taxa, anthropic site disturbance, elevation, soil type, and trace metals at each population site. After performing DNA sequencing of selected accessions, we applied DNA-fingerprinting to analyze the genetic structure of 32 populations from ultramafic and non-ultramafic outcrops across Albania. Low sequence divergence resulted in poorly resolved phylograms, but supported affinity between the two diploid serpentine endemics O. moravensis and O. rigida. Analysis of molecular variance (AMOVA) revealed significant population differentiation, but no isolation by distance. Among-population variation was higher in polyploids than in diploids, in which genetic distances were lower. Genetic admixing at population and individual level occurred especially in the polyploids O. chalcidica, O. decipiens, and O. smolikana. Admixing increased with site disturbance. Outlier loci were higher in serpentine populations but decreased along altitude with lower drought and heat stress. Genetic variability gained by gene flow and hybridization at contact zones with “resident” species of primary ultramafic habitats promoted expansion of the tetraploid O. chalcidica across anthropogenic sites.
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22

Pollard, A. Joseph, Grace L. McCartha, Celestino Quintela-Sabarís, Thomas A. Flynn, Maria K. Sobczyk, and J. Andrew C. Smith. "Intraspecific Variation in Nickel Tolerance and Hyperaccumulation among Serpentine and Limestone Populations of Odontarrhena serpyllifolia (Brassicaceae: Alysseae) from the Iberian Peninsula." Plants 10, no. 4 (April 19, 2021): 800. http://dx.doi.org/10.3390/plants10040800.

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Анотація:
Odontarrhena serpyllifolia (Desf.) Jord. & Fourr. (=Alyssum serpyllifolium Desf.) occurs in the Iberian Peninsula and adjacent areas on a variety of soils including both limestone and serpentine (ultramafic) substrates. Populations endemic to serpentine are known to hyperaccumulate nickel, and on account of this remarkable phenotype have, at times, been proposed for recognition as taxonomically distinct subspecies or even species. It remains unclear, however, to what extent variation in nickel hyperaccumulation within this taxon merely reflects differences in the substrate, or whether the different populations show local adaptation to their particular habitats. To help clarify the physiological basis of variation in nickel hyperaccumulation among these populations, 3 serpentine accessions and 3 limestone accessions were cultivated hydroponically under common-garden conditions incorporating a range of Ni concentrations, along with 2 closely related non-accumulator species, Clypeola jonthlaspi L. and Alyssum montanum L. As a group, serpentine accessions of O. serpyllifolia were able to tolerate Ni concentrations approximately 10-fold higher than limestone accessions, but a continuous spectrum of Ni tolerance was observed among populations, with the least tolerant serpentine accession not being significantly different from the most tolerant limestone accession. Serpentine accessions maintained relatively constant tissue concentrations of Ca, Mg, K, and Fe across the whole range of Ni exposures, whereas in the limestone accessions, these elements fluctuated widely in response to Ni toxicity. Hyperaccumulation of Ni, defined here as foliar Ni concentrations exceeding 1g kg−1 of dry biomass in plants not showing significant growth reduction, occurred in all accessions of O. serpyllifolia, but the higher Ni tolerance of serpentine accessions allowed them to hyperaccumulate more strongly. Of the reference species, C. jonthlaspi responded similarly to the limestone accessions of O. serpyllifolia, whereas A. montanum displayed by far the lowest degree of Ni tolerance and exhibited low foliar Ni concentrations, which only exceeded 1 g kg−1 in plants showing severe Ni toxicity. The continuous spectrum of physiological responses among these accessions does not lend support to segregation of the serpentine populations of O. serpyllifolia as distinct species. However, the pronounced differences in degrees of Ni tolerance, hyperaccumulation, and elemental homeostasis observed among these accessions under common-garden conditions argues for the existence of population-level adaptation to their local substrates.
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23

CECCHI, LORENZO, ISABELLA BETTARINI, ILARIA COLZI, ANDREA COPPI, GUILLAUME ECHEVARRIA, LUIGIA PAZZAGLI, AIDA BANI, CRISTINA GONNELLI, and FEDERICO SELVI. "The genus Odontarrhena (Brassicaceae) in Albania: Taxonomy and Nickel accumulation in a critical group of metallophytes from a major serpentine hot-spot." Phytotaxa 351, no. 1 (May 29, 2018): 1. http://dx.doi.org/10.11646/phytotaxa.351.1.1.

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Анотація:
Metal hyperaccumulator plants represent a unique biological resource for scientific research and practical applications. Though essential, however, an adequate knowledge of the systematics of these plants is often missing. This is the case of Odontarrhena, a large but taxonomically critical group of nickel hyperaccumulators from Eurasia. We present a study on this genus in Albania, to fill a gap in our knowledge of this group from a major centre of diversity of metallicolous flora, and to contribute updated information to the Global Hyperaccumulator Database. Morphological and karyological analyses of material from field collections across all major serpentine outcrops in the country, in different years and seasons, allowed to delimit seven taxa: O. albiflora, O. chalcidica, O. moravensis, O. sibirica, O. decipiens, O. smolikana subsp. glabra and O. rigida. The three latter taxa have been long neglected and were resurrected in view of their clear distinctness, while commonly accepted taxa such as O. bertolonii subsp. scutarina and O. markgrafii were reduced to synonymy of O. chalcidica due to the lack of consistent differentiation. Polyploidy was prevalent, while diploid complements were typical of the two vicariant endemics O. rigida and O. moravensis. Types are indicated or newly designated for each entity, and nomenclatural issues are addressed based on in-depth studies of literature and herbarium material. Revised descriptions, phenology, habitat and distribution data are given for each taxon, as well as original iconographies and chromosome counts. A revised identification key is provided. Shoot nickel concentrations were determined to assess accumulation levels of taxa and populations in natural conditions and their potential for phytoextraction of this metal from the soil. With ca. 23000 and 17000 µg of Ni g-1 of shoot dry weight, respectively, the tetraploids O. chalcidica and O. decipiens were the most promising candidates, especially the latter for its robust habit.
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24

CECCHI, LORENZO, ISABELLA BETTARINI, ILARIA COLZI, ANDREA COPPI, GUILLAUME ECHEVARRIA, LUIGIA PAZZAGLI, AIDA BANI, CRISTINA GONNELLI, and FEDERICO SELVI. "The genus Odontarrhena (Brassicaceae) in Albania: Taxonomy and Nickel accumulation in a critical group of metallophytes from a major serpentine hot-spot." Phytotaxa 351, no. 1 (May 29, 2018): 1. http://dx.doi.org/10.11646/hytotaxa.351.1.1.

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Анотація:
Metal hyperaccumulator plants represent a unique biological resource for scientific research and practical applications. Though essential, however, an adequate knowledge of the systematics of these plants is often missing. This is the case of Odontarrhena, a large but taxonomically critical group of nickel hyperaccumulators from Eurasia. We present a study on this genus in Albania, to fill a gap in our knowledge of this group from a major centre of diversity of metallicolous flora, and to contribute updated information to the Global Hyperaccumulator Database. Morphological and karyological analyses of material from field collections across all major serpentine outcrops in the country, in different years and seasons, allowed to delimit seven taxa: O. albiflora, O. chalcidica, O. moravensis, O. sibirica, O. decipiens, O. smolikana subsp. glabra and O. rigida. The three latter taxa have been long neglected and were resurrected in view of their clear distinctness, while commonly accepted taxa such as O. bertolonii subsp. scutarina and O. markgrafii were reduced to synonymy of O. chalcidica due to the lack of consistent differentiation. Polyploidy was prevalent, while diploid complements were typical of the two vicariant endemics O. rigida and O. moravensis. Types are indicated or newly designated for each entity, and nomenclatural issues are addressed based on in-depth studies of literature and herbarium material. Revised descriptions, phenology, habitat and distribution data are given for each taxon, as well as original iconographies and chromosome counts. A revised identification key is provided. Shoot nickel concentrations were determined to assess accumulation levels of taxa and populations in natural conditions and their potential for phytoextraction of this metal from the soil. With ca. 23000 and 17000 µg of Ni g-1 of shoot dry weight, respectively, the tetraploids O. chalcidica and O. decipiens were the most promising candidates, especially the latter for its robust habit.
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Editorial, E. "Corrigendum in the article: Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis - case study from Serbia." Chemical Industry 75, no. 6 (2021): 379. http://dx.doi.org/10.2298/hemind211227033m.

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do Nascimento, Clístenes Williams Araujo, Dean Hesterberg, Ryan Tappero, Sarah Nicholas та Fernando Bruno Vieira da Silva. "Citric acid-assisted accumulation of Ni and other metals by Odontarrhena muralis: Implications for phytoextraction and metal foliar distribution assessed by μ-SXRF". Environmental Pollution 260 (травень 2020): 114025. http://dx.doi.org/10.1016/j.envpol.2020.114025.

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Shynder, Oleksandr, and Julia Negrash. "Checklist of the flora of the vicinity of Balakliya (Kharkiv region, Ukraine): native and alien taxa, distribution of rare plants, new findings." Plant Introduction 89-90 (March 29, 2021): 13–71. http://dx.doi.org/10.46341/pi2020043.

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For the first time, information on the flora of the Siverskyi Donets basin in the vicinity of Balakliya town (Kharkiv region of Ukraine) was summarized based on the comprehensive analysis of published data, herbarium material, and own field examinations. Field surveys were conducted during September 2015 and March-July 2016. The surveyed areas were located mainly in the valleys of the Sіverskyi Donets river and some of its tributaries within the former Balakliуa district. The conspectus of flora comprising 933 taxa of vascular plants (including 798 recorded during field surveys) has been prepared. In particular, 739 taxa of native and 194 taxa of alien plants were recorded. The habitats of 14 species from the Red Book of Ukraine were found. The locations of other protected, uncommon and new for the flora of the region plant species were also identified. Several taxa (i.e., some of the calciphytes like Astragalus albicaulis, Linum czernjajevii, Odontarrhena tortuosa subsp. cretacea, Scutellaria supina, and Silene supina) were found out of their previously known ranges. Newly established locations of some other species (e.g., Ephedra distachya, Onosma simplicissima, and Ornithogalum boucheanum) significantly complement previously known chorological data. Finally, information about new findings of such alien taxa actively expanding new areas as Cornus sanguinea subsp. australis, Fraxinus pennsylvanica, Sedum sexangulare, Ulmus pumila, and Vitis vulpina is provided.It has been established that the flora of the Siverskyi Donets basin in the vicinity of Balakliya town is a rich natural center of phytodiversity being under active adventisation. Forest reclamation plantations play a significant role in spreading the alien plants. Railway and the pine terrace of the Siverskyi Donets also serve the migration corridors for many of such alien plants.
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Hopewell, Tyler, Federico Selvi, Hans-Jürgen Ensikat, and Maximilian Weigend. "Trichome Biomineralization and Soil Chemistry in Brassicaceae from Mediterranean Ultramafic and Calcareous Soils." Plants 10, no. 2 (February 17, 2021): 377. http://dx.doi.org/10.3390/plants10020377.

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Trichome biomineralization is widespread in plants but detailed chemical patterns and a possible influence of soil chemistry are poorly known. We explored this issue by investigating trichome biomineralization in 36 species of Mediterranean Brassicaceae from ultramafic and calcareous soils. Our aims were to chemically characterize biomineralization of different taxa, including metallophytes, under natural conditions and to investigate whether divergent Ca, Mg, Si and P-levels in the soil are reflected in trichome biomineralization and whether the elevated heavy metal concentrations lead to their integration into the mineralized cell walls. Forty-two samples were collected in the wild while a total of 6 taxa were brought into cultivation and grown in ultramafic, calcareous and standard potting soils in order to investigate an effect of soil composition on biomineralization. The sampling included numerous known hyperaccumulators of Ni. EDX microanalysis showed CaCO3 to be the dominant biomineral, often associated with considerable proportions of Mg—independent of soil type and wild versus cultivated samples. Across 6 of the 9 genera studied, trichome tips were mineralized with calcium phosphate, in Bornmuellera emarginata the P to Ca-ratio was close to that of pure apatite-calcium phosphate (Ca5(PO4)3OH). A few samples also showed biomineralization with Si, either only at the trichome tips or all over the trichome. Additionally, we found traces of Mn co-localized with calcium phosphate in Bornmuellera emarginata and traces of Ni were detected in trichomes of the Ni-hyperaccumulator Odontarrhena chalcidica. Our data from wild and cultivated plants could not confirm any major effect of soil chemistry on the chemistry of trichome biominerals. Hyperaccumulation of Ni in the plants is not mirrored in high levels of Ni in the trichomes, nor do we find large amounts of Mn. A comparison based on plants from cultivation (normal, calcareous and serpentine soils, Mg:Ca-ratios ca 1:2 to 1:20) shows at best a very weak reflection of different Mg:Ca-ratios in the mineralized trichomes. The plants studied seem to be able to maintain highly conserved biomineralization patterns across a wide range of soil chemistries.
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Saad, R. F., G. Echevarria, B. Rodríguez-Garrido, P. Kidd, and E. Benizri. "A two-year field study of nickel-agromining using Odontarrhena chalcidica co-cropped with a legume on an ultramafic soil: temporal variation in plant biomass, nickel yields and taxonomic and bacterial functional diversity." Plant and Soil 461, no. 1-2 (January 30, 2021): 471–88. http://dx.doi.org/10.1007/s11104-021-04834-y.

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Cecchi, Lorenzo, Stanislav Španiel, Elisabetta Bianchi, Andrea Coppi, Cristina Gonnelli, and Federico Selvi. "Odontarrhena stridii (Brassicaceae), a new Nickel-hyperaccumulating species from mainland Greece." Plant Systematics and Evolution 306, no. 4 (June 25, 2020). http://dx.doi.org/10.1007/s00606-020-01687-3.

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Álvarez-López, V., M. Puschenreiter, J. Santner, N. Lehto, Á. Prieto-Fernández, W. W. Wenzel, C. Monterroso, and P. S. Kidd. "Evidence for nickel mobilisation in rhizosphere soils of Ni hyperaccumulator Odontarrhena serpyllifolia." Plant and Soil, April 13, 2021. http://dx.doi.org/10.1007/s11104-021-04944-7.

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Bettarini, Isabella, Ilaria Colzi, Cristina Gonnelli, Luigia Pazzagli, Roger D. Reeves, and Federico Selvi. "Inability to accumulate Ni in a genus of hyperaccumulators: the paradox of Odontarrhena sibirica (Brassicaceae)." Planta 252, no. 6 (November 10, 2020). http://dx.doi.org/10.1007/s00425-020-03507-x.

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Abstract Main conclusion Odontarrhena is a highly diverse genus of Ni-hyperaccumulators. Here, we demonstrate substantial inability to accumulate Ni in the facultative serpentinophyte O. sibirica, which seems a unique case among the numerous species of the genus that grow on ultramafic soils. Abstract Odontarrhena is the most diverse genus of Ni-accumulating plants in W Eurasia, with most taxa growing obligatorily or facultatively on ultramafic soils. A notable exception may be O. sibirica, a facultative serpentinophyte from the E Mediterranean and W Asia in which accumulation ability is still enigmatic. We addressed this issue using observational and experimental methods. Atomic Absorption Analysis of 33 herbarium specimens and plant and soil samples from seven ultramafic and non-ultramafic sites in Greece revealed shoot Ni values always much lower than 1000 µg g−1, non-significant differences between plants from the two soil types and no relationship with soil pH. Only two Turkish specimens from waste mines had shoot Ni concentration > 1000 µg g−1. The reasons for this deviating result remain obscure, but may be associated with inherent peculiarities of the local populations. When cultivated together with congeneric Ni-accumulating species on the same natural ultramafic soil, only O. sibirica was unable to accumulate the metal. Although plant growth was stimulated in hydroponics at relatively low NiSO4 levels (50–150 µM), as typical for hyperaccumulators, Ni-accumulation occurred only at higher concentrations which had a toxic effect. This peculiar combination of Ni-response traits could be the result of a partial evolutionary loss of ability with respect to all other Ni-accumulating congeneric species. For this, O. sibirica could represent a unique model system for further studies on the evolutionary dynamics, physiological mechanisms and genetic control of metal accumulation and homeostasis.
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Selvi, Federico, and Laura Vivona. "Polyploidy in Odontarrhena bertolonii (Brassicaceae) in relation to seed germination performance and plant phenotype, with taxonomic implications." Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, September 27, 2021, 1–12. http://dx.doi.org/10.1080/11263504.2021.1985001.

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Ghafoori, Mohammad, Mansour Shariati, Antony van der Ent, and Alan J. M. Baker. "Nickel hyperaccumulation, elemental profiles and agromining potential of three species of Odontarrhena from the ultramafics of Western Iran." International Journal of Phytoremediation, July 5, 2022, 1–12. http://dx.doi.org/10.1080/15226514.2022.2086213.

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Kozhevnikova, Anna D., Ilya V. Seregin, and Henk Schat. "Translocation of Ni and Zn in Odontarrhena corsica and Noccaea caerulescens: the effects of exogenous histidine and Ni/Zn interactions." Plant and Soil, September 3, 2021. http://dx.doi.org/10.1007/s11104-021-05080-y.

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Durand, Alexis, Cristina Gonnelli, Séverine Lopez, Andrea Coppi, Giovanni Bacci, and Emile Benizri. "Plant genetics and site properties influenced the diversity of seed endophytic bacterial communities of Odontarrhena species from serpentine soil of Albania." Plant and Soil, September 3, 2022. http://dx.doi.org/10.1007/s11104-022-05649-1.

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Tripti, Adarsh Kumar, Maria Maleva, Galina Borisova, Nadezhda Chukina, Maria Morozova, and Irina Kiseleva. "Nickel and copper accumulation strategies in Odontarrhena obovata growing on copper smelter-influenced and non-influenced serpentine soils: a comparative field study." Environmental Geochemistry and Health, April 28, 2020. http://dx.doi.org/10.1007/s10653-020-00575-6.

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Salinitro, Mirko, Sofia Montanari, Andrea Simoni, Claudio Ciavatta, and Annalisa Tassoni. "Phytoextraction of arsenic, nickel, selenium and zinc from sewage sludge: from laboratory to pilot scale." Plant and Soil, August 3, 2022. http://dx.doi.org/10.1007/s11104-022-05630-y.

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Abstract Aims The present study aimed at: (i) verifying the suitability of pure sewage sludge (SS) as growing medium for the hyperaccumulator species (Pteris vittata, Odontarrhena chalcidica, Astragalus bisulcatus and Noccaea caerulescens); (ii) evaluating the removal of As, Ni, Se and Zn operated by the chosen species; (iii) estimating the potential metal yields (bio-ore production) and connected monetary rewards in a small-scale field experiment. Methods Hyperaccumulator plants were first tested under controlled conditions, on three different SS (P1, P2, P3) characterized by the presence of one or more contaminants among As, Ni, Se and Zn. P1 sludge was then chosen for a small-scale field experiment. Hyperaccumulator seedlings were transferred on SS and cultivated for 16 weeks before harvesting. Results All hyperaccumulator species grew healthy on P1 SS, with A. bisulcatus and O. chalcidica reaching an average biomass of 40.2 and 21.5 g DW/plant. Trace metal concentrations in aerial parts were: As (P. vittata) 380 mg/kg DW, Ni (O. chalcidica) 683 mg/kg DW, Se (A. bisulcatus) 165 mg/kg DW, Zn (N. caerulescens) 461 mg/kg DW. The total removal of As, Ni, Se and Zn from SS due to phytoextraction was 5.8, 19, 18, 29% respectively. Conclusions This study demonstrated that phytoextraction can be applied to SS for the removal contaminants while recovering valuable metals. Se and As were identified as the most promising target element, while Ni and Zn removal was poorly efficient under the present experimental conditions.
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