Salinity is one of the major threat

Salinity is one of the major threats to global food security. Biochar amendment could alleviate the negative
impacts of salt stress in crop in the season. However, its long-term residual effect on reducing Na+ uptake
in latter crops remains unknown. A pot experiment with wheat was conducted in a greenhouse. The
soil used was from an earlier experiment on potato where the plants were irrigated with tap water (S0),
25 mM (S1) and 50 mM (S2) NaCl solutions and with 0 and 5% (w/w) biochar amendment. At onset of the
experiment, three different EC levels at S0, S1 and S2 were established in the non-biochar control (2.3,
7.2 and 10.9 dS m−1) and the biochar amended (2.8, 8.1 and 11.8 dS m−1) soils, respectively. A column
leaching experiment was also conducted in the greenhouse to study the adsorption capacity of biochar
to Na+. The results indicated that biochar addition reduced plant sodium uptake by transient Na+ binding
due to its high adsorption capacity, decreasing osmotic stress by enhancing soil moisture content, and
by releasing mineral nutrients (particularly K+, Ca++, Mg++) into the soil solution. Growth, physiology and
yield of wheat were affected positively with biochar amendment, particularly under high salinity level.
It was concluded that addition of biochar had significant residual effect on reducing Na+ uptake in wheat
under salinity stress. However, more detailed field studies should be carried out to evaluate the long-term
residual effects of biochar for sustaining crop production in saline soils.