AI Article Synopsis
- Hyperaccumulator plants, like Berkheya coddii from South Africa, can concentrate metals such as nickel and cobalt from low-grade soils into their tissues, making them valuable for agromining.
- This study investigated how cobalt affects nickel uptake and translocation in B. coddii, finding that cobalt in the soil limits nickel absorption and is primarily stored in the lower leaves of the plant.
- Despite the presence of high nickel levels, B. coddii shows good tolerance and, with proper agronomic practices, could yield significant amounts of both nickel and cobalt, making it a potential crop for areas with specific soil mineral compositions.
Article Abstract
Hyperaccumulator plants have the ability to efficiently concentrate metallic elements, e.g. nickel, from low-grade sources into their living biomass. Although the majority of nickel hyperaccumulator plant species restrict cobalt uptake, some species are able to co-accumulate cobalt when growing in ultramafic soils. The asteraceous perennial herb Berkheya coddii from South Africa is one of the most promising agromining crops known globally. It may accumulate nickel in excess of 30 000 μg g-1 in dry leaves, while co-accumulating up to 600 μg g-1 cobalt. This study aimed to elucidate the interactions between nickel and cobalt for uptake by and translocation into B. coddii through a pot experiment including various cobalt/nickel treatment combinations in soil, after which uptake and localisation were recorded. Cobalt in the substrate limits nickel uptake by B. coddii plants and is mainly retained in the basal leaves in contrast to Ni that is rapidly transferred to the top of the plant. B. coddii was more tolerant to high Ni concentration, whether in the substrate or internally but remains a promising crop which could be used, with suitable agronomic measures and practices, for cobalt agromining in areas with high soil cobalt but low soil nickel. A yield of 77 kg ha-1 nickel and 16.5 kg ha-1 cobalt may be attainable under optimum conditions.
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