Soil aluminum saturation threshold for subtropical crops in no-tillage system

Abstract

Context

Neutralising native soil Al³⁺ is crucial in subtropical agriculture before implementing no-tillage (NT).

Aims

The aim of this study was to monitor variations in soil Al saturation and crop yields over 34 years in a field trial under NT, to define the best rate and frequency of lime reapplication for maximum productivity of grain and forage crops.

Methods

We measured the soil Al³⁺ saturation in 11 soil sampling seasons in three soil layers (0–5, 5–10, and 10–15 cm). From these 11 soil samplings, the Al saturation was extrapolated for the harvesting day of each crop by fitting a sigmoid model with five parameters. Then, Al saturation values of each year were plotted against the relative crop yields. From that, the critical Al saturation at which crop yield declined by more than 5% was estimated by a linear plateau model.

Key results

We observed that the yields of six of the 10 soybean crops, and all corn, millet, and black oat crops were not decreased even though the soil had been cultivated for 34 years without reapplying lime. The critical Al saturation values in the 10–15 cm soil layers for soybean, wheat, and cover crops were 44, 24 and 20%, respectively.

Conclusions

The soybean, corn, and wheat varieties available for Brazil’s subtropical region are tolerant to high Al³⁺ saturation, but responsive to liming. It is possible to maintain high crop yields in the long term by reapplying limestone on the soil surface.

Implications

It is imperative to establish an agronomic soil profile without Al³⁺ when adopting NT for a diverse crop rotation system. The combination of NT, Al-tolerant varieties, and reapplication of surface limestone is a suitable strategy to optimise both grain and forage yields.