Direct uptake of organically derived carbon by grass roots and allocation in leaves and phytoliths: 13C labeling evidence
2016
Alexandre, Anne | Balesdent, Jérôme | Cazevieille, Patrick, M | Chevassus-Rosset, Claire, M | Signoret, Patrick | Mazur, Jean-Charles, M | Harutyunyan, Araks | Doelsch, Emmanuel, M | Basile-Doelsch, Isabelle | Miche, Hélène, M | Santos, Guaciara, M | Centre Européen de Recherche et d'Enseignement des Géosciences de l'Environnement (CEREGE) ; Institut de Recherche pour le Développement (IRD)-Institut National de la Recherche Agronomique (INRA)-Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS) | Unité de recherche Géochimie des Sols et des Eaux (URGSE) ; Institut National de la Recherche Agronomique (INRA) | Recyclage et risque (UPR Recyclage et risque) ; Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad) | Department of Earth System Science [Irvine] (ESS) ; University of California [Irvine] (UC Irvine) ; University of California (UC)-University of California (UC)
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Show more [+] Less [-]English. In the rhizosphere, the uptake of low-molecular-weight carbon (C) and nitrogen (N) by plant roots has been well documented. While organic N uptake relative to total uptake is important, organic C uptake is supposed to be low relative to the plant's C budget. Recently, radiocarbon analyses demonstrated that a fraction of C from the soil was oc-cluded in amorphous silica micrometric particles that precipitate in plant cells (phytoliths). Here, we investigated whether and to what extent organically derived C absorbed by grass roots can feed the C occluded in phytoliths. For this purpose we added 13 C-and 15 N-labeled amino acids (AAs) to the silicon-rich hydroponic solution of the grass Festuca arun-dinacea. The experiment was designed to prevent C leakage from the labeled nutritive solution to the chamber atmosphere. After 14 days of growth, the 13 C and 15 N enrich-ments (13 C excess and 15 N excess) in the roots, stems and leaves as well as phytoliths were measured relative to a control experiment in which no labeled AAs were added. Additionally , the 13 C excess was measured at the molecular level, in AAs extracted from roots and stems and leaves. The net uptake of labeled AA-derived 13 C reached 4.5 % of the total AA 13 C supply. The amount of AA-derived 13 C fixed in the plant was minor but not nil (0.28 and 0.10 % of total C in roots and stems/leaves, respectively). Phenylalanine and methionine that were supplied in high amounts to the nu-tritive solution were more 13 C-enriched than other AAs in the plant. This strongly suggested that part of AA-derived 13 C was absorbed and translocated into the plant in its original AA form. In phytoliths, AA-derived 13 C was detected. Its concentration was on the same order of magnitude as in bulk stems and leaves (0.15 % of the phytolith C). This finding strengthens the body of evidences showing that part of organic compounds occluded in phytoliths can be fed by C entering the plant through the roots. Although this experiment was done in nutrient solution and its relevance for soil C uptake assessment is therefore limited, we discuss plausible forms of AA-derived 13 C absorbed and translocated in the plant and eventually fixed in phytoliths, and implications of our results for our understanding of the C cycle at the soil– plant–atmosphere interface
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