Effect of gypsum rates and lime with different reactivity on soil acidity and crop grain yields in a subtropical Oxisol under no-tillage

•Surface liming reduced soil acidity down to −60 cm one year after its application.•Liming increased soybean grain yield by 9%, but it had no effect on cereal crops.•The lime reactivity had no effect on crop grain yield.•Gypsum did not increase crop grain yield in this moderate acidic Oxisol.•Combin...

Full description

Saved in:
Bibliographic Details
Published in:Soil & tillage research 2019-10, Vol.193, p.27-41
Main Authors: Vieira Fontoura, Sandra Mara, de Castro Pias, Osmar Henrique, Tiecher, Tales, Cherubin, Maurício Roberto, de Moraes, Renato Paulo, Bayer, Cimélio
Format: Article
Language:English
Subjects:
Aluminum
Lime reactivity
Phosphogypsum
Subsurface acidity
Toxicity
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Surface liming reduced soil acidity down to −60 cm one year after its application.•Liming increased soybean grain yield by 9%, but it had no effect on cereal crops.•The lime reactivity had no effect on crop grain yield.•Gypsum did not increase crop grain yield in this moderate acidic Oxisol.•Combined application of gypsum and lime did not benefit crop yields. The low solubility of lime (CaCO3) and the absence of soil disturbance in fields under no-tillage (NT) may diminish the effectiveness of surface liming to reduce exchangeable Al3+ (toxic to plants) and increase the base saturation in deep soil layers. However, the effects of subsurface soil acidity can be attenuated by applying agricultural gypsum (CaSO4⋅2H2O), which is more soluble than lime, and thus, can leached bases (exchangeable Ca2+, Mg2+ and K+) and S-SO42− to deeper soil layers as well as decrease Al3+ toxicity to plants. Therefore, gypsum can be applied individually or in combination with lime. Herein, we conducted a field experiment aiming to evaluate short- (1 year) and long-term (11 years) effects of surface liming and gypsum application on the chemical properties of the 0.00–0.10, 0.10–0.20, 0.20–0.40 and 0.40–0.60 m soil layers and also on crop yield of 22 crop seasons (i.e., 10 soybean, 3 maize, 4 white oat, 3 wheat and 2 barley crops). The study was performed in a clayey Typic Hapludox of moderate acidity managed under NT for more than 25 years in Guarapuava, Paraná State, southern Brazil. Three soil surface-applied lime strategies were tested in order to raise base saturation to 70%, namely: (a) 4.62 Mg ha–1 rate of lime of low effective calcium carbonate equivalent (ECCE = 75%); (b) 3.47 Mg ha–1 rate of lime with a high ECCE value (101%); and (c) the same rate of high-ECCE lime split in three applications (i.e., 1/3 at the start of experiment; 1/3 after 1 year and 1/3 after 2 years). A control treatment without liming was also conducted. The liming strategies were combined with four rates of agricultural gypsum (i.e., 0, 3, 6 and 9 Mg ha–1) applied at the start of the experiment. Our findings did not reveal synergistic effect of lime and gypsum on soil chemical properties nor on crop yield. Gypsum resulted in very slight gains in grain yield (4% on average) and limited to just 25% of cereal (corn and winter cereals) crop seasons. On the other hand, liming increased soybean yields by 14% in 40% of crop seasons. Gypsum was more efficient than lime in raising exchangeable Ca2+ levels
ISSN:0167-1987
1879-3444
DOI:10.1016/j.still.2019.05.005