Abstract:
Salinity and acidity have affected several hundred million hectares of land throughout the globe which poses a major threat
to global food security and biodiversity. Application of organic amendments for salt-affected soils has been identified as one
of the most effective ways to mitigate salinity-induced problems and considered as a green technique offering twin benefits of
waste load reduction and land reclamation. However, studies on reclaiming acidic-salt affected soils are limited. Therefore,
this study aimed to determine the reclamation potential of biochars and organic amendments involving Gliricidia sepium
biochar produced at 300 °C, 500 °C, and 700 °C, green waste compost, and municipal sewage sludge at three different amendment
ratios, 1.0%, 2.5% and 5.0%. The incubation experiment was conducted for a 4-month period with different amendment
ratios applied to the coastal acidic-salt affected soil. Subsamples were extracted from incubation pots after 1 and 4 months
and analyzed for soil chemical parameters (pH, EC, NO3
−, PO4
3−, total organic carbon, cation exchange capacity, sodium
adsorption ratio, exchangeable sodium percentage) and microbial enzyme activity (catalase activity, and acid- and alkaline
phosphatase activity). All organic amendments demonstrated enhancement of the soil properties in a significant manner.
However, increasing incubation time and amendment ratio increase the changes of soil parameters by a great percentage.
Therefore, the maximum amendment ratio of 5.0% and 4 months of incubation period rendered a significant improvement in
the reclamation of acidic-salt affected soil. However, the biochar produced at 500 °C contributed the maximum towards the
improved physicochemical and biochemical profile of acidic-salt affected soil, making it the most promising organic amendment
for the reclamation of acidic-salt affected soil. The overall reclamation efficiency of organic amendments registered
the following order of variation: 700 BC < Sludge < 300 BC < Compost < 500 BC.