Effects of water table management and nitrogen supplies in crops under hypoxia conditions in soil / Influência do manejo do nível freático e doses de nitrogênio em culturas sob hipoxia no solo

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

In many countries, extensive agricultural areas are affected by short-term waterlogging that cause significant damages to the crop yields. The objectives of this work were: a) to evaluate the stress effect of the soil water excess on lentil plants (Lens culinaris Medik) related to water table management; b) to evaluate the behavior of soybean cultivars (Glycine max L. Merrill) to hypoxia conditions and to the nitrogen supplying for reducing flood damages c) to evaluate wheat (Triticum aestivum, L.) responses to complete or partial soil water saturation in the root zone. On lentil plants the excess of water reduced the growth of the leaves, the dry matter and grain production and the concentration of N, K, Ca, Mn and Mg in leaves. Also the senescence process was increased. The elevation and lowering by 15 and 30 cm day-1 affected positively the crop development and yield production. The most severe damage was induced by rate elevation of 5 cm day-1 and drawdown of water table. The increasing of water table ascension and lowering rate from 5 to 30 cm day-1 alleviated the damage effect on grain production in 21%. Hypoxia injuries were not minimized by a supplemental addition of 50 kg ha-1 of nitrogen. The leaves area, shoot dry matter accumulation, the grain production and the grain protein concentration of soybean plants were reduced proportionally to the flooding duration. The N, K, Mg and Mn concentration in leaves decreased linearly while Fe concentration increased for the waterlogging duration. The soybean cultivar FT-Abyara showed the higher vegetative growth, while CD205 produced a greater grain yield and grain protein concentration. A flooding period of 48 h caused severe damage to grain yield. The leaf area, shoot growth, grain yield and grain protein increased with supplemental N application of 50 and 100 kg N ha-1. The soybean cultivar FT-Abyara showed the best results due to the nitrogen supply. The N addition reduced the grain production damages by 15%. In wheat plants, the water excess increased leaves senescence, reduced dry matter and the growth rate and produced a significant decreasing on grain weight. The effects caused by total water saturation of soil pores were more severe to the plant growth and grain yield than those caused by partial water saturation, even for large periods. A water table at 15 cm depth minimized by 30% the harmful effects of water excess to the grain production. The application of 50 kg N ha-1 reduced by 16% the damages on the crop yield caused by flooding.

ASSUNTO(S)

soja lentilha nutrição vegetal fisiologia vegetal soybean oxigênio – deficiência vegetable nutrition vegetable physiology wheat lentil oxygen deficiency trigo agricultural drainage drenagem agrícola

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