X-ray fluorescence elemental mapping of roots, stems and leaves of the nickel hyperaccumulators Rinorea cf. bengalensis and Rinorea cf. javanica (Violaceae) from Sabah (Malaysia), Borneo

Aims: There are major knowledge gaps in understanding the translocation leading from nickel uptake in the root to accumulation in other tissues in tropical nickel hyperaccumulator plant species. This study focuses on two species, Rinorea cf. bengalensis and Rinorea cf. javanica and aims to elucidate the similarities and differences in the distribution of nickel and physiologically relevant elements (potassium, calcium, manganese and zinc) in various organs and tissues. Methods: High-resolution X-ray fluorescence microscopy (XFM) of frozen-hydrated and fresh-hydrated tissue samples and nuclear microprobe (micro-PIXE) analysis of freeze-dried samples were used to provide insights into the in situ elemental distribution in these plant species. Results: This study has shown that the distribution pattern of nickel hyperaccumulation is typified by very high levels of accumulation in the phloem bundles of roots and stems. In the leaves, nickel is preferentially located in epidermal cell region, whereas manganese is located mainly in the lower epidermis and zinc in the upper epidermis and palisade mesophyll. The abundant formation of calcium-oxalate crystals, lining the collenchyma, is a prominent feature of both Rinorea cf. bengalensis and Rinorea cf. javanica. Conclusions: Future investigations on Rinorea cf. bengalensis and Rinorea cf. javanica should focus on unravelling the mechanisms of nickel uptake in the root, specifically targeting the identification of nickelspecific membrane transporters.