Secomandi, E., De Gregorio, M. A., Garcia-Perez, P., Vaccari, F., Puglisi, E., & Lucini, L. (2025). Waterlogging alone and combined with other abiotic stresses provides unique metabolic signatures at the plant-rhizosphere interface: A multi-omics perspective on root metabolome, root exudation and rhizomicrobiome. Plant physiology and biochemistry : PPB, 221, 109646. https://doi.org/10.1016/j.plaphy.2025.109646
Style de citation ChicagoSecomandi, Elena, Marco Armando De Gregorio, Pascual Garcia-Perez, Filippo Vaccari, Edoardo Puglisi, et Luigi Lucini. "Waterlogging Alone and Combined with Other Abiotic Stresses Provides Unique Metabolic Signatures at the Plant-rhizosphere Interface: A Multi-omics Perspective on Root Metabolome, Root Exudation and Rhizomicrobiome." Plant Physiology and Biochemistry : PPB 221 (2025): 109646. https://dx.doi.org/10.1016/j.plaphy.2025.109646.
Style de citation MLASecomandi, Elena, et al. "Waterlogging Alone and Combined with Other Abiotic Stresses Provides Unique Metabolic Signatures at the Plant-rhizosphere Interface: A Multi-omics Perspective on Root Metabolome, Root Exudation and Rhizomicrobiome." Plant Physiology and Biochemistry : PPB, vol. 221, 2025, p. 109646.