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Minimizing Carbon Dioxide Emissions with Clinoptilolite Zeolite in Moris Pineapple Cultivation on Drained Sapric Soils

Author

Listed:
  • Liza Nuriati Lim Kim Choo

    (Soil Science, Water and Fertilizer Research Centre, Malaysian Agricultural Research and Development Institute, MARDI Saratok, P.O. Box 59, Saratok 95407, Sarawak, Malaysia)

  • Osumanu Haruna Ahmed

    (Faculty of Agriculture, Universiti Islam Sultan Sharif Ali, Kampus Sinaut, KM 33 Jalan Tutong, Kampong Sinaut, Tutong TB1741, Brunei)

  • Shamsiah Sekot

    (Soil Science, Water and Fertilizer Research Centre, Malaysian Agricultural Research and Development Institute, MARDI Saratok, P.O. Box 59, Saratok 95407, Sarawak, Malaysia)

  • Syahirah Shahlehi

    (Faculty of Agriculture, Universiti Islam Sultan Sharif Ali, Kampus Sinaut, KM 33 Jalan Tutong, Kampong Sinaut, Tutong TB1741, Brunei)

Abstract

Drained tropical peat soils for agriculture emit more carbon dioxide (CO 2 ) into the atmosphere from their stored carbon compared with their pristine state. Field and laboratory experiments were conducted to assess whether the natural zeolite of the clinoptilolite (ZeoC) species could be included in the pineapple fertilization program to decrease the CO 2 emissions from tropical sapric soils. The static closed-chamber and laboratory incubation methods were used to determine the effects of ZeoC on the CO 2 emitted from a drained sapric soil planted with Moris pineapple. The treatments assessed were as follows: (a) suggested ratio of ZeoC (5 g, 10 g, 14 g, and 20 g of ZeoC) and 20 g compound NPK 30:1:32 fertilizer, enumerated based on the pineapple plant requirement; (b) 20 g of compound NPK 30:1:32 fertilizer only; and (c) unfertilized sapric soils. The drained sapric soils amended with ZeoC (rate of 5 g to 20 g/plant) minimized the CO 2 emissions compared with those without the ZeoC, because of the physical and chemical sorption of organic compounds and polar CO 2 onto the lattices of ZeoC, which inhibited organic matter decomposition. ZeoC fertilization reduces sapric soil acidity and improves Moris pineapple fruit quality attributes and yield. Monthly pineapple fertilization with ZeoC at the vegetative and flowering phases is an alternative agronomic strategy to reduce CO 2 emissions. This approach does not reduce pineapple yield on drained tropical sapric soils.

Suggested Citation

  • Liza Nuriati Lim Kim Choo & Osumanu Haruna Ahmed & Shamsiah Sekot & Syahirah Shahlehi, 2023. "Minimizing Carbon Dioxide Emissions with Clinoptilolite Zeolite in Moris Pineapple Cultivation on Drained Sapric Soils," Sustainability, MDPI, vol. 15(22), pages 1-22, November.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:22:p:15725-:d:1276003
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    References listed on IDEAS

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    1. Qiangqiang Xiong & Jinlong Hu & Haiyan Wei & Hongcheng Zhang & Jinyan Zhu, 2021. "Relationship between Plant Roots, Rhizosphere Microorganisms, and Nitrogen and Its Special Focus on Rice," Agriculture, MDPI, vol. 11(3), pages 1-18, March.
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