Your search keyword '"Nikolas de Souza Mateus"' showing total 4 results

1. Corrigendum: Partial Substitution of K by Na Alleviates Drought Stress and Increases Water Use Efficiency in Eucalyptus Species Seedlings

Author

Nikolas de Souza Mateus, Antônio Leite Florentino, Elcio Ferreira Santos, Alexandre de Vicente Ferraz, José Leonardo de Moraes Goncalves, and José Lavres

Subjects

sodium application, drought, stable carbon isotope, water use efficiency, water consumption, photosynthesis, Plant culture, SB1-1110

Published

2021

2. Partial Substitution of K by Na Alleviates Drought Stress and Increases Water Use Efficiency in Eucalyptus Species Seedlings

Author

Nikolas de Souza Mateus, Antônio Leite Florentino, Elcio Ferreira Santos, Alexandre de Vicente Ferraz, José Leonardo de Moraes Goncalves, and José Lavres

Subjects

sodium application, drought, stable carbon isotope, water use efficiency, water consumption, photosynthesis, Plant culture, SB1-1110

Abstract

Eucalyptus, the most widely planted tree genus worldwide, is frequently cultivated in soils with low water and nutrient availability. Sodium (Na) can substitute some physiological functions of potassium (K), directly influencing plants’ water status. However, the extent to which K can be replaced by Na in drought conditions remains poorly understood. A greenhouse experiment was conducted with three Eucalyptus genotypes under two water conditions (well-watered and water-stressed) and five combination rates of K and Na, representing substitutions of 0/100, 25/75, 50/50, 75/25, and 100/0 (percentage of Na/percentage of K), to investigate growth and photosynthesis-related parameters. This study focused on the positive effects of Na supply since, depending on the levels applied, the Na supply may induce plants to salinity stress (>100 mM of NaCl). Plants supplied with low to intermediate K replacement by Na reduced the critical level of K without showing symptoms of K deficiency and provided higher total dry matter (TDM) than those Eucalyptus seedlings supplied only with K in both water conditions. Those plants supplied with low to intermediate K replacement by Na had improved CO2 assimilation (A), stomatal density (Std), K use efficiency (UEK), and water use efficiency (WUE), in addition to reduced leaf water potential (Ψw) and maintenance of leaf turgidity, with the stomata partially closed, indicated by the higher values of leaf carbon isotope composition (δ13C‰). Meanwhile, combination rates higher than 50% of K replacement by Na led to K-deficient plants, characterized by the lower values of TDM, δ13C‰, WUE, and leaf K concentration and higher leaf Na concentration. There was positive evidence of partial replacement of K by Na in Eucalyptus seedlings; meanwhile, the ideal percentage of substitution increased according to the drought tolerance of the species (Eucalyptus saligna < Eucalyptus urophylla < Eucalyptus camaldulensis).

Published

2021

3. Leaf 13C and 15N composition shedding light on easing drought stress through partial K substitution by Na in eucalyptus species

Author

Antonio Leite Florentino, Ricardo Antunes Azevedo, Jessica Bezerra de Oliveira, Nikolas de Souza Mateus, Elcio Ferreira Santos, José Lavres, Francisco Scaglia Linhares, José Albertino Bendassolli, Mônica Lanzoni Rossi, and Salete Aparecida Gaziola

Subjects

SÓDIO, Science, Plant physiology, Drought tolerance, chemistry.chemical_element, Photosynthesis, Article, Dry weight, Carbon Radioisotopes, Water-use efficiency, Stomata, Eucalyptus, Multidisciplinary, Nitrogen Radioisotopes, Drought, Chemistry, Sodium, fungi, food and beverages, Carbon Dioxide, Nitrogen, Droughts, Plant Leaves, Horticulture, Potassium, Medicine, Composition (visual arts)

Abstract

This work aimed to investigate the partial K-replacement by Na supply to alleviate drought-induced stress in Eucalyptus species. Plant growth, leaf gas exchange parameters, water relations, oxidative stress (H2O2 and MDA content), chlorophyll concentration, carbon (C) and nitrogen (N) isotopic leaf composition (δ13C and δ15N) were analyzed. Drought tolerant E. urophylla and E. camaldulensis showed positive responses to the partial K substitution by Na, with similar dry mass yields, stomatal density and total stomatal pore area relative to the well K-supplied plants under both water conditions, suggesting that 50% of the K requirements is pressing for physiological functions that is poorly substituted by Na. Furthermore, E. urophylla and E. camaldulensis up-regulated leaf gas exchanges, leading to enhanced long-term water use efficiency (WUEL). Moreover, the partial K substitution by Na had no effects on plants H2O2, MDA, δ13C and δ15N, confirming that Na, to a certain extent, can effectively replace K in plants metabolism. Otherwise, the drought-sensitive E. saligna species was negatively affected by partial K replacement by Na, decreasing plants dry mass, even with up-regulated leaf gas exchange parameters. The exclusive Na-supplied plants showed K-deficient symptoms and lower growth, WUEL, and δ13C, besides higher Na accumulation, δ15N, H2O2 and MDA content.

Published

2021

4. Partial Substitution of K by Na Alleviates Drought Stress and Increases Water Use Efficiency in Eucalyptus Species Seedlings

Author

Alexandre de Vicente Ferraz, José Lavres, Elcio Ferreira Santos, José Leonardo de Moraes Gonçalves, Nikolas de Souza Mateus, and Antonio Leite Florentino

Subjects

SÓDIO, Eucalyptus saligna, photosynthesis, biology, water use efficiency, Chemistry, Drought tolerance, Plant culture, Correction, drought, Plant Science, Photosynthesis, biology.organism_classification, stable carbon isotope, Eucalyptus, SB1-1110, Horticulture, sodium application, Eucalyptus camaldulensis, Nutrient, Soil water, Water-use efficiency, Original Research, water consumption

Abstract

Eucalyptus, the most widely planted tree genus worldwide, is frequently cultivated in soils with low water and nutrient availability. Sodium (Na) can substitute some physiological functions of potassium (K), directly influencing plants’ water status. However, the extent to which K can be replaced by Na in drought conditions remains poorly understood. A greenhouse experiment was conducted with three Eucalyptus genotypes under two water conditions (well-watered and water-stressed) and five combination rates of K and Na, representing substitutions of 0/100, 25/75, 50/50, 75/25, and 100/0 (percentage of Na/percentage of K), to investigate growth and photosynthesis-related parameters. This study focused on the positive effects of Na supply since, depending on the levels applied, the Na supply may induce plants to salinity stress (>100 mM of NaCl). Plants supplied with low to intermediate K replacement by Na reduced the critical level of K without showing symptoms of K deficiency and provided higher total dry matter (TDM) than those Eucalyptus seedlings supplied only with K in both water conditions. Those plants supplied with low to intermediate K replacement by Na had improved CO2 assimilation (A), stomatal density (Std), K use efficiency (UEK), and water use efficiency (WUE), in addition to reduced leaf water potential (Ψw) and maintenance of leaf turgidity, with the stomata partially closed, indicated by the higher values of leaf carbon isotope composition (δ13C‰). Meanwhile, combination rates higher than 50% of K replacement by Na led to K-deficient plants, characterized by the lower values of TDM, δ13C‰, WUE, and leaf K concentration and higher leaf Na concentration. There was positive evidence of partial replacement of K by Na in Eucalyptus seedlings; meanwhile, the ideal percentage of substitution increased according to the drought tolerance of the species (Eucalyptus saligna < Eucalyptus urophylla < Eucalyptus camaldulensis).

Published

2021