Growth effects in tropical nickel‐agromining ‘metal crops' in response to nutrient dosing

Nkrumah, Philip Nti; Echevarria, Guillaume; Erskine, Peter D.; Chaney, Rufus L.; Sumail, Sukaibin; Ent, Antony van der

doi:10.1002/jpln.201800468

Cited by 19 publications

(9 citation statements)

References 48 publications

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“…Blepharidium guatemalense responded strongly to synthetic fertilization with a three-fold increase in foliar Ni concentrations. This surprising result contrasts with most previous research which reports a negligible effect in shoot Ni concentrations in Ni hyperaccumulators after mineral fertilization (Shallari et al, 2001;Kidd and Monterroso, 2005;Bani et al, 2015a;Nkrumah et al, 2019a). However, this increase on the shoot Ni concentrations has been reported in B. coddii with a two-fold increase as a response to N additions (B. H. .…”

Section: Npk and Organic Fertilizationcontrasting

confidence: 74%

“…There is usually an increase in shoot biomass of Ni hyperaccumulators in response to synthetic fertilization growing in ultramafic substrates (e.g. P. rufuschaneyi (Nkrumah et al, 2019a), and Odontarrhena spp. (Bani et al, 2015a;Álvarez-López et al, 2016)).…”

Section: Npk and Organic Fertilizationmentioning

confidence: 99%

“…bengalensis, have been tested in pots and in the field to evaluate their response to synthetic fertilization, pH adjustment and organic amendments addition, among other treatments (Nkrumah et al, 2019b(Nkrumah et al, , 2019c(Nkrumah et al, , 2019d. A maximum Ni yield of 250 kg Ni ha -1 has been estimated for a large-scale agromining operation using P. rufuschaneyi under field conditions in Sabah (Nkrumah et al, 2019a).…”

Section: Introductionmentioning

confidence: 99%

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The potential of Blepharidium guatemalense for nickel agromining in Mexico and Central America

Gutiérrez

Nkrumah

Ent

et al. 2021

International Journal of Phytoremediation

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Novelty StatementOur research team is a pioneer in the discovery of metal hyperaccumulator plants in Mesoamerica with at least 13 species discovered in the last 2 years. This study is the first to assess the potential of nickel agromining (phytomining) in Mexico (and in all the American continent), using one of the strongest nickel hyperaccumulators reported so far. The promising results of this study are the basis for optimal agricultural management of Blepharidium guatemalense.

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Section: Npk and Organic Fertilizationcontrasting

confidence: 74%

Section: Npk and Organic Fertilizationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The potential of Blepharidium guatemalense for nickel agromining in Mexico and Central America

Gutiérrez

Nkrumah

Ent

et al. 2021

International Journal of Phytoremediation

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“…Phytomining has been intensively explored principally for Ni, mainly because there are known suitable species (O. chalcidica, P. rufuschaneyi and R. cf. bengalensis) and substrates that can be used to achieve economically viable nickel yields from hyperaccumulator 'metal crops' (Bani et al 2015;Li et al 2003;Nkrumah et al 2019b). Cobalt phytomining is potentially more profitable than Ni because of its higher value despite being volatile (in the last 5 years, Ni remained around $15 kg -1 while Co oscillated between $30-90 kg -1 ).…”

Section: Discussionmentioning

confidence: 99%

Cobalt hyperaccumulation in Rinorea cf. bengalensis (Violaceae) from Sabah: accumulation potential and tissue and cellular-level distribution of cobalt

et al. 2020

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Aims Knowledge on the ecophysiology of cobalt hyperaccumulator species is limited. The nickel hyperaccumulator Rinorea cf. bengalensis from Borneo can accumulate high concentrations of cobalt in nature. This study investigates the cobalt accumulation potential of Rinorea cf. bengalensis in relation to nickel concentrations in soils and the subsequent tissue and cellular-level distributions of cobalt, nickel, and major cations. Methods Seedlings of Rinorea cf. bengalensis were grown in mixed treatments on ultramafic soil containing a high concentration of available nickel. Cobalt and nickel salts were then added to the soil to study their interactions. The tissue and cellular-level distributions of cobalt, calcium, nickel, and potassium were investigated using synchrotron-based X-ray fluorescence microscopy. ResultsThe maximum foliar cobalt concentration reached 1200 μg g -1 . Accumulation of cobalt competed with nickel accumulation although nickel seems to stimulate cobalt phloem translocation. Plants suffered toxicity in the treatment with the highest soil cobalt concentration. Cobalt and nickel have contrasting distribution patterns in the leaves of Rinorea cf. bengalensis, with cobalt mainly excreted on the surface of the leaves, whereas nickel is localised in foliar epidermal cells. Conclusions Rinorea cf. bengalensis can accumulate high concentrations of cobalt but is intrinsically more tolerant to nickel. It does not rely on a similar sequestration mechanism for both metals, which could explain the lesser tolerance for cobalt. Nickel appears to be essential for the plant to tolerate high cobalt concentrations. Further studies intending to develop agronomic practices are needed to determine the viability of Rinorea cf. bengalensis for nickel-cobalt agromining.

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“…Within this flora, hyperaccumulator plants have the ability to concentrate metals in their aerial parts, whatever the concentration found in the soil (Baker, 1981). There are about 700 taxa of plants that are known to hyperaccumulate one or more metals, and around 90% of these accumulate Ni (van der Ent et al, 2013;Pollard et al, 2014;Galey et al, 2017;Reeves et al, 2017;van der Ent et al, 2017;Kidd et al, 2018;Nkrumah et al, 2019). In the case of Ni hyperaccumulator plants, the threshold of Ni accumulation is at least 1000 mg Ni kg −1 of dry weight in aerial parts (0.1% of plant biomass; .…”

Section: Introductionmentioning

confidence: 99%

Bacterial community diversity in the rhizosphere of nickel hyperaccumulator plant species from Borneo Island (Malaysia)

Lopez

Ent

Sumail

et al. 2020

Environmental Microbiology

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Summary The Island of Borneo is a major biodiversity hotspot, and in the Malaysian state of Sabah, ultramafic soils are extensive and home to more than 31 endemic nickel hyperaccumulator plants. The aim of this study was to characterize the structure and the diversity of the rhizosphere bacterial communities of several of these nickel hyperaccumulator plants and factors that affect these bacterial communities in Sabah. The most abundant phyla were Proteobacteria, Acidobacteria and Actinobacteria. At family level, Burkholderiaceae and Xanthobacteraceae (Proteobacteria phylum) were the most abundant families in the hyperaccumulator rhizospheres. Redundancy analysis based on soil chemical analyses and relative abundances of the major bacterial phyla showed that abiotic factors of the studied sites drove the bacterial diversity. For all R. aff. bengalensis rhizosphere soil samples, irrespective of studied site, the bacterial diversity was similar. Moreover, the Saprospiraceae family showed a high representativeness in the R. aff. bengalensis rhizosphere soils and was linked with the nickel availability in soils. The ability of R. aff. bengalensis to concentrate nickel in its rhizosphere appears to be the major factor driving the rhizobacterial community diversity unlike for other hyperaccumulator species.

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Growth effects in tropical nickel‐agromining ‘metal crops' in response to nutrient dosing

Cited by 19 publications

References 48 publications

The potential of Blepharidium guatemalense for nickel agromining in Mexico and Central America

The potential of Blepharidium guatemalense for nickel agromining in Mexico and Central America

Cobalt hyperaccumulation in Rinorea cf. bengalensis (Violaceae) from Sabah: accumulation potential and tissue and cellular-level distribution of cobalt

Bacterial community diversity in the rhizosphere of nickel hyperaccumulator plant species from Borneo Island (Malaysia)

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