Straw Phytolith for Less Hazardous Open Burning of Paddy Straw

Overview

Journal Sci Rep

Specialty Science

Date 2019 Dec 29

PMID 31882923

Citations 2

Authors

Anh T Q Nguyen

Minh N Nguyen

Affiliations

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Abstract

Rice production helps feed at least half of the world's population but generates approximately one billion tonnes of straw residue per annum. On-site open burning of rice straw after harvesting is common in recent times because there has been less demand for rice straw to use as fuel and fodder. Due to health and climate change concerns, open burning, which results in biomass losses, smog and emissions of green house gases, e.g., CO, has been widely criticized and banned in many countries. Little is known about the positive benefits of straw burning, such as field care (eradication of biotic diseases) or nutrient cycling. Herein, we propose a new viewpoint in which the burning of rice straw followed by cycling of the burned materials, including silica material (so-called phytolith), into soil is demonstrated as a CO-sequestration strategy via buffering the soil CO flux and coupling CO with the silicon cycle.

Citing Articles

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Li R, Gu Z, Vachula R, Dong H, Xu M, Chen X Sci Rep. 2024; 14(1):30009.

PMID: 39622911 PMC: 11612506. DOI: 10.1038/s41598-024-81246-9.

2000 Year-old Bogong moth (Agrotis infusa) Aboriginal food remains, Australia.

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