
Wheat growth and nutrient uptake after phosphorus and potassium applications in saline-sodic field of semi-arid region
Author(s) -
Zahid Hussain,
R. A. Khattak,
Ping An,
Shao Yang,
Muhammad Irshad
Publication year - 2020
Publication title -
bioscience journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.199
H-Index - 19
eISSN - 1981-3163
pISSN - 1516-3725
DOI - 10.14393/bj-v36n6a2020-42494
Subject(s) - potassium , dry matter , phosphorus , randomized block design , chemistry , nutrient , agronomy , sodic soil , zoology , soil water , crop yield , crop , biology , ecology , organic chemistry
Nutrient deficiency is important limiting factor of saline-sodic soils which results in declining crop production in arid climates. The study investigated wheat response to phosphorus and potassium in saline-sodic field of Kohat, Pakistan. The K2O was applied at 0(K0), 75(K1), 150 (K2) kg ha-1 as K2S04 and P2O5 at (0(P0), 60(P1), 120(P2) kg ha-1 as (NH4)2HPO4 in three replications under two-factorial randomized complete block (RCB) design. Both treatments significantly enhanced wheat grain (118%) and dry matter yield (60%) at P2K2 compared to control. The P treatments significantly affected leaf P, Mg, SO4, Ca:P, SO4:P ratios and soil P, Ca:P, Cl:P and SO4:P ratios, while K on leaf K, Na, Ca, SO4concentration, K:Na, K:Ca, SO4:P,Ca:P ratios and soil pH, Na, K, Ca, SO4 concentrations, SAR, Na:K, Ca:K and Na:Ca ratios. Leaf Na was decreased to 85.3 mmol (+) kg-1 at K2 compared to 105.3 mmol (+) kg-1at P2K0. Negative correlation (R2=0.906) of leaf K:Na was found with Leaf Na concentration. Correlation of dry matter was more positive (R2=0.851) with leaf K:Na than grain yield (R2=0.392). It is concluded that K and P addition might be beneficial for improving crop nutrition and wheat yield in saline-sodic soils.