Labelling plants in the Chernobyl way: A new Cs and C foliar application approach to investigate rhizodeposition and biopore reuse.

Background and aims: Biopores as microbial hotspots provide additional nutrients to crops - but only if their roots grow within the biopores. Such reuse has never been quantified as pre-crop-specific biopores are hardly differentiated from the multitude of pre-existing biopores. Quantification requires e.g. radionuclide labelling of pre-crops (Cs, to label their biopores) and main crops (C, to detect new roots). Preliminary testing was performed on simulated biopore reuse: both nuclides given to the same plant were excreted into the same rhizosphere. Methods: Cichorium intybus (cv. Puna) and Medicago sativa (cv. Planet) were each sequentially labelled via the leaves with Cs and CO. β-signals were visualised by imaging of horizontal soil cuts - with and without shielding off the weaker C. Results: Both species allocated 7.1-9.4% of the Cs and 21-63% of the C below ground. The first image gave both activities; while the second gave only Cs. Subtracting the second from the first image gave the C distribution, resulting in successful separation of the signals. Thus, separate spatial representations of the roots were obtained. Main root locations by Cs and C showed a very high spatial overlap coefficient (> 0.95). Conclusions: Biopore reuse quantification likely becomes feasible with this sequential labelling and shielding approach. [ABSTRACT FROM AUTHOR]