Comparative study of Zn deficiency in L. sativa and B. oleracea plants: NH4+ assimilation and nitrogen derived protective compounds
Metadatos
Mostrar el registro completo del ítemAutor
Navarro León, Eloy; Barrameda Medina, Yurena; Lentini, Marco; Espósito, Sergio; Ruiz Sáez, Juan Manuel; Blasco León, BegoñaEditorial
Elsevier
Materia
Zn deficiency N metabolism Proline Glycinebetaine Lactuca sativa Brassica oleracea
Fecha
2016Referencia bibliográfica
Published version: Navarro-León, E., Barrameda-Medina, Y., Lentini, M., Esposito, S., Ruiz, J. M., & Blasco, B. (2016). Comparative study of Zn deficiency in L. sativa and B. oleracea plants: NH4+ assimilation and nitrogen derived protective compounds. Plant Science, 248, 8-16. https://doi.org/10.1016/j.plantsci.2016.04.002
Patrocinador
Plan Andaluz de Investigación AGR161; Ministerio de Educación y CienciaResumen
Zinc (Zn) deficiency is a major problem in agricultural crops of many world regions. N metabolism plays an essential role in plants and changes in their availability and their metabolism could seriously affect crop productivity. The main objective of the present work was to perform a comparative analysis of different strategies against Zn deficiency between two plant species of great agronomic interest such as Lactuca sativa cv. Phillipus and Brassica oleracea cv. Bronco. For this, both species were grown in hydroponic culture with different Zn doses: 10 µM Zn as control and 0.01 µM Zn as deficiency treatment. Zn deficiency treatment decreased foliar Zn concentration, although in greater extent in B. oleracea plants, and caused similar biomass reduction in both species. Zn deficiency negatively affected NO3- reduction and NH4+ assimilation and enhanced photorespiration in both species. Pro and GB concentrations were reduced in L. sativa but they were increased in B. oleracea. Finally, the AAs profile changed in both species, highlighting a great increase in glycine (Gly) concentration in L. sativa plants. We conclude that L. sativa would be more suitable than B. oleracea for growing in soils with low availability of Zn since it is able to accumulate a higher Zn concentration in leaves with similar biomass reduction. However, B. oleracea is able to accumulate N derived protective compounds to cope with Zn deficiency stress.