Assessment of Carbon Footprint, Water Footprint, Cost and Return of Organic Rice Based on Circular Economy and Original Organic Rice

2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE) Pub Date : 2022-10-26 DOI:10.1109/ICUE55325.2022.10113496

Natawan Wanvisesh, N. Pumijumnong, Sukanya Sereenonchai, Uthai Chareonwong, Noppol Arunrat

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Abstract

Although original methods of organic rice farming are environmentally friendly, a circular economy concept is a new trend being applied in organic rice production. The objectives of this study were: (1) to evaluate the carbon footprint (CF) and water footprint (WF) throughout the entire process of original organic rice farming (OG-NonCE) and organic rice farming based on a circular economy approach (OG-CE), and (2) to assess cost and return of OG-NonCE and OG-CE productions. All data were collected by using a questionnaire survey with organic farm owners in Phichit province, Thailand. The concept of CF based on cradle to gate was employed to estimate GHG emission, while CROPWAT8.0 program was used to calculate the WF. The results revealed that CF intensities of OG-CE and OG-NonCE were 1.68 and 1.16 kg CO2/kg rice yield, respectively. The total WF of OG-CE production was 1543.3 m3/ton, consisting of 612.4, 85.8, and 845.1 m3/ton for green, blue, and grey WFs, respectively. Meanwhile, the total WF of OG-NonCE production was 552.5 m3/ton, including 223.0, 31.2, and 298.3 m3/ton for green, blue, and grey WFs, respectively. Under OG-CE production, it generated a return of 5793 Baht/rai, while total cost was approximately 1760 Baht/rai. The return of OG-NonCE production was 9929 Baht/rai, with a total cost of 1408 Baht/rai. Higher total WF and CF, and lower return were found under OG-CE compared with OG-NonCE due to the lower rice yield. Although OG-CE farms applied high amounts of organic fertilizer to increase rice yield, using low quality rice seeds caused low yield. This study recommended that providing knowledge and technology to produce good quality rice seed are necessary for organic rice production.

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基于循环经济和原生有机稻的有机稻碳足迹、水足迹、成本与回报评价

虽然有机水稻种植的原始方法是环保的，但循环经济概念是有机水稻生产的新趋势。本研究的目的是:(1)评估基于循环经济方法的有机稻种植(OG-NonCE)和有机稻种植(OG-CE)整个过程中的碳足迹(CF)和水足迹(WF);(2)评估OG-NonCE和OG-CE生产的成本和回报。所有数据均通过对泰国菲吉省有机农场主的问卷调查收集。采用基于从摇篮到闸门的CF概念估算温室气体排放量，采用CROPWAT8.0程序计算WF。结果表明，OG-CE和OG-NonCE的CF强度分别为1.68和1.16 kg CO2/kg水稻产量。OG-CE生产总WFs为1543.3 m3/t，其中绿色WFs为612.4 m3/t，蓝色WFs为85.8 m3/t，灰色WFs为845.1 m3/t。同时，OG-NonCE生产的总WF为552.5 m3/t，其中绿色WF为223.0 m3/t，蓝色WF为31.2 m3/t，灰色WF为298.3 m3/t。在OG-CE生产下，它产生了5793泰铢/莱的回报，而总成本约为1760泰铢/莱。OG-NonCE生产的回报为9929泰铢/莱，总成本为1408泰铢/莱。由于水稻产量较低，与OG-NonCE相比，OG-CE处理的总WF和CF较高，而收益较低。虽然ogg - ce农场使用大量的有机肥来提高水稻产量，但使用劣质水稻种子导致产量低。本研究建议，提供生产优质稻种的知识和技术是有机水稻生产的必要条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE)

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