Effect of Farming Systems on Soil Carbon Sequestration and Crop Yield of Paddy (Oryza sativa L.) in Irrigated Rice Field

Q3 Environmental Science Environment and Natural Resources Journal Pub Date : 2024-01-01 DOI:10.32526/ennrj/22/20230179
M. Mujiyo, Suciati Dwi Nuraeni, J. Syamsiyah, A. Herawati
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Abstract

Carbon sequestration is obtained from the total accumulation of the element in both soil and plants. The enhancement has the capacity to reduce greenhouse gas emissions and influence soil quality and fertility, thereby affecting plant biomass and crop yield. Therefore, this research aimed to compare the total carbon sequestration in rice field with different farming systems, determine soil characteristics, and identify the correlation between the total carbon sequestration and impact on rice yield. An exploratory-descriptive method was used through field survey and laboratory analysis. The locations were mapped by overlaying the Indonesian landform map of the Girimarto District with various rice field systems, soil types, and slopes. Furthermore, the 12 Land Mapping Units (LMU) with 3-time repetitions resulted in 36 sampling points. Data were processed by calculating total carbon sequestration and statistical tests such as one-way ANOVA and Pearson's correlation. The results showed that rice field farming systems affected the total carbon sequestration. Organic farming had the highest total carbon sequestration value of 72.49 Mg/ha and the increase had a strongly positive correlation with crop yield of paddy. Crop yield in organic farming were higher than in semi-organic and conventional systems by 8.92 tons/ha. Factors that determined total carbon sequestration were soil C-organic and microbial biomass C. The suggested improvement recommendations were the transition of conventional and semi-organic farming as well as adding a variety of organic fertilizers such as biofertilizers.
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耕作制度对灌溉稻田土壤碳固存和稻谷产量的影响
碳固存来自土壤和植物中碳元素的总积累。碳固存的增加能够减少温室气体排放,影响土壤质量和肥力,从而影响植物生物量和作物产量。因此,本研究旨在比较不同耕作制度下稻田的总固碳量,确定土壤特性,并找出总固碳量与水稻产量影响之间的相关性。研究采用探索-描述法,通过实地调查和实验室分析进行。通过将印尼吉里马尔托地区的地形图与各种稻田系统、土壤类型和坡度进行叠加,绘制出各个地点的地图。此外,12 个土地测绘单元(LMU)经过 3 次重复后形成了 36 个采样点。数据处理方法包括计算总固碳量和进行统计检验,如单向方差分析和皮尔逊相关性检验。结果表明,稻田耕作制度影响了总固碳量。有机耕作的总固碳量最高,为 72.49 兆克/公顷,且总固碳量的增加与水稻产量呈强正相关。有机耕作的作物产量比半有机耕作和常规耕作高 8.92 吨/公顷。决定总固碳量的因素是土壤碳-有机碳和微生物生物量碳。改进建议是过渡传统耕作和半有机耕作,以及添加各种有机肥料,如生物肥料。
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来源期刊
Environment and Natural Resources Journal
Environment and Natural Resources Journal Environmental Science-Environmental Science (all)
CiteScore
1.90
自引率
0.00%
发文量
49
审稿时长
8 weeks
期刊介绍: The Environment and Natural Resources Journal is a peer-reviewed journal, which provides insight scientific knowledge into the diverse dimensions of integrated environmental and natural resource management. The journal aims to provide a platform for exchange and distribution of the knowledge and cutting-edge research in the fields of environmental science and natural resource management to academicians, scientists and researchers. The journal accepts a varied array of manuscripts on all aspects of environmental science and natural resource management. The journal scope covers the integration of multidisciplinary sciences for prevention, control, treatment, environmental clean-up and restoration. The study of the existing or emerging problems of environment and natural resources in the region of Southeast Asia and the creation of novel knowledge and/or recommendations of mitigation measures for sustainable development policies are emphasized. The subject areas are diverse, but specific topics of interest include: -Biodiversity -Climate change -Detection and monitoring of polluted sources e.g., industry, mining -Disaster e.g., forest fire, flooding, earthquake, tsunami, or tidal wave -Ecological/Environmental modelling -Emerging contaminants/hazardous wastes investigation and remediation -Environmental dynamics e.g., coastal erosion, sea level rise -Environmental assessment tools, policy and management e.g., GIS, remote sensing, Environmental -Management System (EMS) -Environmental pollution and other novel solutions to pollution -Remediation technology of contaminated environments -Transboundary pollution -Waste and wastewater treatments and disposal technology
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