Journal article

Publication year: 2023

Pages: 351-361

Journal: Biology and Fertility of Soils

Volume number: 59

Issue number: 3

ISSN: 0178-2762

eISSN: 1432-0789

Open access status: Hybrid

DOI Link: https://doi.org/10.1007/s00374-023-01708-6

Publisher: Springer

Abstract: 
One of the most prominent changes in the rhizospheric soil structure is associated with the formation of a strongly bound soil layer in the surroundings of the root, which is named rhizosheath. In this study, we investigated how root hair elongation, a ubiquitous root morphological trait, affect the stability of rhizosheath aggregates. Using (CO2)-C-13 pulse labeling, we tracked the fate of root-derived C-13 inputted into the rhizosheath of two Zea mays L. genotypes with contrasting root hair elongation: a mutant with root hair defective elongation (rth3) and a corresponding wild type (WT). In addition, we also investigated the differences between two (CO2)-C-13 labeling approaches (single vs. multiple pulse labeling) in the distribution of C-13 in the rhizosheath aggregates. We were able to demonstrate that the rhizosheath aggregate stability and the resulting aggregate size distribution follows the same mechanisms irrespective of the root hair elongation. This result reinforces the assumption that other soil properties are more decisive for the soil structure formation in the rhizosheath in comparison to root hair elongation. The majority of recently deposited root-derived C (57%) was found in the macroaggregates. Increasing the number of pulses (multiple pulse labeling approach) resulted in a higher C-13 enrichment of the rhizosheath aggregates fractions in comparison to the application of a single pulse. While both labeling approaches resulted in a similar distribution of C-13 in the rhizosheath aggregates, the higher enrichment given by multiple pulse labeling allowed the separation of significant differences between the genotypes in plant C allocation in the rhizosheath.

Harvard Citation style: Teixeira, P., Trautmann, S., Buegger, F., Felde, V., Pausch, J., Mueller, C., et al. (2023) Role of root hair elongation in rhizosheath aggregation and in the carbon flow into the soil, Biology and Fertility of Soils, 59(3), pp. 351-361. https://doi.org/10.1007/s00374-023-01708-6

APA Citation style: Teixeira, P., Trautmann, S., Buegger, F., Felde, V., Pausch, J., Mueller, C., & Koegel-Knabner, I. (2023). Role of root hair elongation in rhizosheath aggregation and in the carbon flow into the soil. Biology and Fertility of Soils. 59(3), 351-361. https://doi.org/10.1007/s00374-023-01708-6