Pineapple Residue Ash Reduces Carbon Dioxide and Nitrous Oxide Emissions in Pineapple Cultivation on Tropical Peat Soils at Saratok, Malaysia

Abstract: Burning pineapple residues on peat soils before pineapple replanting raises concerns on hazards of peat fires. A study was conducted to determine whether ash produced from pineapple residues could be used to minimize carbon dioxide (CO2) and nitrous oxide (N2O) emissions in cultivated tropical peatlands. The effects of pineapple residue ash fertilization on CO2 and N2O emissions from a peat soil grown with pineapple were determined using closed chamber method with the following treatments: (i) 25, 50, 70, and … Show more

“…Deforestation, logging, drainage and land use changes may result in variations in peatland characteristics that eventually influence the rates of N2O emissions. The application of pineapple residue ash to tropical peatlands reduces N2O emission compared to peatlands without ash application [5]. Application of coated nitrogen fertilizer to tropical peatlands decreases N2O emission rates by 31 and 48% in wet and dry season related to peatland plots applied with conventional nitrogen fertilizer [6].…”

Soil characteristics controlling nitrous oxide emissions of tropical peatlands

“…Deforestation, logging, drainage and land use changes may result in variations in peatland characteristics that eventually influence the rates of N2O emissions. The application of pineapple residue ash to tropical peatlands reduces N2O emission compared to peatlands without ash application [5]. Application of coated nitrogen fertilizer to tropical peatlands decreases N2O emission rates by 31 and 48% in wet and dry season related to peatland plots applied with conventional nitrogen fertilizer [6].…”

Soil characteristics controlling nitrous oxide emissions of tropical peatlands

Bromelain enzyme extraction from pineapple waste and its application as meat tenderizer