RESUMO
Drought is one of the most damaging abiotic stress that hinder plant growth and development. The present study aimed to determine the effects of various Ca/Mg quotients under polyethylene glycol (PEG)-induced osmotic stress on growth, uptake and translocation of Ca and Mg in Avena sativa (L). Plants were grown in nutrient solution supplemented with three different Ca/Mg molar quotients (0.18, 2, and 4). After 30 days plants were exposed to two different PEG (Polyethylene glycol) concentrations (0.6 MPa & 0.2 MPa) for 8 days, and solutions were renewed after 4 days. A solution containing Ca and Mg nutrients has mitigated the negative impact caused via osmotic stress on relative growth rate (RGR), absolute growth rate (AGR), crop growth rate (CGR), leaf area ratio (LAR), Leaf index ratio (LAI), root-shoot ratio (RSR), water use efficiency (WUE) and net assimilation rate (NAR). In addition, it adversely affected germination parameters, including final emergence percentage (FEP), mean germination time (MGT), Timson germination Index (TGI), germination rate index (GRI) and percent field capacity (%FC), of oat (Avena sativa L.). Mg and Ca in shoot and root and Ca translocation factor decreased with increasing Ca in solution, while Mg translocation factor increased with increasing Ca in nutrient solution. In this work, the combined effects of various Ca/Mg quotients and osmotic stress produced by polyethylene glycol (PEG) in different concentrations (0.6 MPa, 0.2 MPa) on the growth and element uptake of Avena sativa L. are examined. As a result, the Ca/Mg Quotient may naturally combat the moderate drought stress experienced by field crops.
A seca é um dos estresses abióticos mais prejudiciais que dificultam o crescimento e o desenvolvimento das plantas. O presente estudo teve como objetivo determinar os efeitos de vários quocientes de Ca/Mg sob estresse osmótico induzido por polietilenoglicol (PEG) no crescimento, absorção e translocação de Ca e Mg em Avena sativa L. As plantas foram cultivadas em solução nutritiva suplementada com três diferentes quocientes molares de Ca/Mg (0,18, 2 e 4). Após 30 dias, as plantas foram expostas a duas concentrações diferentes de PEG (0,6 MPa e 0,2 MPa) por 8 dias, e as soluções foram renovadas após 4 dias. Uma solução contendo os nutrientes Ca e Mg mitigou o impacto negativo causado por estresse osmótico na taxa de crescimento relativo (RGR), taxa de crescimento absoluto (AGR), taxa de crescimento da cultura (CGR), razão de área foliar (LAR), razão de índice foliar (LAI), razão raiz-parte aérea (RSR), eficiência do uso da água (WUE) e taxa de assimilação líquida (NAR). Além disso, afetou negativamente os parâmetros de germinação, incluindo porcentagem final de emergência (FEP), tempo médio de germinação (MGT), índice de germinação de Timson (TGI), índice de taxa de germinação (GRI) e capacidade de campo percentual (%FC) de aveia (Avena sativa L.). O Mg e o Ca na parte aérea e raiz e o fator de translocação de Ca diminuíram com o aumento de Ca em solução, enquanto o fator de translocação de Mg aumentou com o aumento de Ca em solução nutritiva. Neste trabalho, são examinados os efeitos combinados de vários quocientes de Ca/Mg e estresse osmótico produzido por PEG em diferentes concentrações (0,6 MPa e 0,2 MPa) no crescimento e na absorção de elementos de Avena sativa L. Como resultado, o quociente de Ca/Mg pode combater naturalmente o estresse hídrico moderado experimentado pelas lavouras.
Assuntos
Avena/crescimento & desenvolvimento , SecasRESUMO
Drought is one of the most damaging abiotic stress that hinder plant growth and development. The present study aimed to determine the effects of various Ca/Mg quotients under polyethylene glycol (PEG)-induced osmotic stress on growth, uptake and translocation of Ca and Mg in Avena sativa (L). Plants were grown in nutrient solution supplemented with three different Ca/Mg molar quotients (0.18, 2, and 4). After 30 days plants were exposed to two different PEG (Polyethylene glycol) concentrations (0.6 MPa & 0.2 MPa) for 8 days, and solutions were renewed after 4 days. A solution containing Ca and Mg nutrients has mitigated the negative impact caused via osmotic stress on relative growth rate (RGR), absolute growth rate (AGR), crop growth rate (CGR), leaf area ratio (LAR), Leaf index ratio (LAI), root-shoot ratio (RSR), water use efficiency (WUE) and net assimilation rate (NAR). In addition, it adversely affected germination parameters, including final emergence percentage (FEP), mean germination time (MGT), Timson germination Index (TGI), germination rate index (GRI) and percent field capacity (%FC), of oat (Avena sativa L.). Mg and Ca in shoot and root and Ca translocation factor decreased with increasing Ca in solution, while Mg translocation factor increased with increasing Ca in nutrient solution. In this work, the combined effects of various Ca/Mg quotients and osmotic stress produced by polyethylene glycol (PEG) in different concentrations (0.6 MPa, 0.2 MPa) on the growth and element uptake of Avena sativa L. are examined. As a result, the Ca/Mg Quotient may naturally combat the moderate drought stress experienced by field crops.