Effects of burning rice straw residue on-field on soil organic carbon pools: Environment-friendly approach from a conventional rice paddy in central Viet Nam

Effects of burning rice straw residue on-field on soil organic carbon pools: Environment-friendly approach from a conventional rice paddy in central Viet Nam

Rice straw residue management is still facing many problems worldwide. This study used two environmentally friendly methods to investigate the effects of rice straw burning activity on water-extracted carbohydrate content in long-term paddy soil. Soil samples were collected at a depth within 0-15 cm...

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Veröffentlicht in:Chemosphere (Oxford) 2022-05, Vol.294, p.133596
Hauptverfasser: Toan, Nguyen-Sy, Hanh, Do Hong, Dong Phuong, Nguyen Thi, Thuy, Phan Thi, Dong, Pham Duy, Gia, Nguyen Thanh, Tam, Le Duc, Thu, Tran Thi Ngoc, Thanh, Do Thi Van, Khoo, Kuan Shiong, Show, Pau Loke
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Agriculture - methods
Carbon - analysis
Oryza - chemistry
Soil - chemistry
Vietnam
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container_issue
container_start_page 133596
container_title Chemosphere (Oxford)
container_volume 294
creator Toan, Nguyen-Sy
Hanh, Do Hong
Dong Phuong, Nguyen Thi
Thuy, Phan Thi
Dong, Pham Duy
Gia, Nguyen Thanh
Tam, Le Duc
Thu, Tran Thi Ngoc
Thanh, Do Thi Van
Khoo, Kuan Shiong
Show, Pau Loke
description Rice straw residue management is still facing many problems worldwide. This study used two environmentally friendly methods to investigate the effects of rice straw burning activity on water-extracted carbohydrate content in long-term paddy soil. Soil samples were collected at a depth within 0-15 cm at the paddy field before and after burning rice straw (pre-burning and post-burning), then extracted by distilled water at the ratio of 1:10 (soil: water) for measuring hot water (at 80 °C) and water extracted carbohydrate (at 25 °C) (HECH and WECH). The results showed that burning rice straw did not alter soil organic carbon (SOC); however, soil pH increased approximately 8.3%. Meanwhile, WECH and HECH ranged from 233 to 630 mg kg , with the highest HECH in Pre-burning treatment, while the lowest amount addressed WECH of Post-burning treatment. Extracted carbohydrate decreased after burning rice straw compared to Pre-burning soil. On the other hand, hot water increased 39-58% of carbohydrates compared to water extraction. We conclude that burning rice straw did not affect SOC but tends to reduce their labile carbon pools, and the heating process likely degrade part of SOC when extracted at high temperatures.
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This study used two environmentally friendly methods to investigate the effects of rice straw burning activity on water-extracted carbohydrate content in long-term paddy soil. Soil samples were collected at a depth within 0-15 cm at the paddy field before and after burning rice straw (pre-burning and post-burning), then extracted by distilled water at the ratio of 1:10 (soil: water) for measuring hot water (at 80 °C) and water extracted carbohydrate (at 25 °C) (HECH and WECH). The results showed that burning rice straw did not alter soil organic carbon (SOC); however, soil pH increased approximately 8.3%. Meanwhile, WECH and HECH ranged from 233 to 630 mg kg , with the highest HECH in Pre-burning treatment, while the lowest amount addressed WECH of Post-burning treatment. Extracted carbohydrate decreased after burning rice straw compared to Pre-burning soil. On the other hand, hot water increased 39-58% of carbohydrates compared to water extraction. 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subjects Agriculture - methods
Carbon - analysis
Oryza - chemistry
Soil - chemistry
Vietnam
title Effects of burning rice straw residue on-field on soil organic carbon pools: Environment-friendly approach from a conventional rice paddy in central Viet Nam
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