b5236a6d-2d04-44b6-90ba-5579d3b6cdf7 Northeast Rice Production ; Rice Cultivation 东北水稻生产 ; 水稻种植 Unit processes Materials production Food and renewable raw materials Resource consumption and pollution emission of fertilizers, pesticides and agricultural machinery 化肥、农药以 及农机的使用的资源消耗和污染排放 1t 21 2016 2017 With the production of 1 t of rice as the functional unit, the starting boundary is defined as the mining of ore and fossil energy for the production of chemical fertilizers and pesticides, and the ending boundary is the emission of pollutants in the rice planting stage 以生产 1 t 稻谷为功能单位，规定起始边界为生 产化肥农药的矿石和化石能源开采，终止边界为水稻 种植阶段的污染物排放 The data set represents the life cycle of rice production in Northeast China. It indicates the agricultural process of rice cultivation which involves the use of chemical fertilizers and pesticides, machinery fuel consumption, electricity consumption for production, and irrigation water usage. This data is relevant for studies on environmental impact assessments of agricultural practices, particularly in the context of rice farming in the specified region. 该数据集代表中国东北地区水稻生产的生命周期。它涉及水稻种植的农业过程，包括化肥和农药的使用、机械燃料消耗、生产用电以及灌溉用水。此数据对于研究农业实践的环境影响评估特别是在指定区域的水稻种植情况具有相关性。 QheTbvJdyopLeDxLp2MciC5kn4f.png Unit process, single operation Attributional None 无 Consequential The stipulated starting boundary is the mining of ores and fossil energy for the production of fertilizers and pesticides. The termination boundary is the emission of pollutants during the rice planting phase. 规定起始边界为生产化肥农药的矿石和化石能源开采，终止边界为水稻种植阶段的污染物排放 None 无 None 无 A total of 62 households were surveyed, with the investigation covering various aspects such as the types and quantities of fertilizers used, types and amounts of pesticides used, machinery fuel consumption, production electricity consumption, and irrigation water volume, among other related information 共调查农户62户，调查内容包括化肥种类及用量、农药种类及用量、机械耗油、生产耗电、灌溉水量等相关信息 None 无 The equivalent coefficient method is used to convert similar pollutants into the environmental impact potential of reference objects [22], to assess the environmental impact of rice production." 采用当量系数法将同类污染物转化为参照物的环境影响潜力[22]，评价水稻生产的环境影响。 None 无 常俊彦,宋明阳,于晓曼等.沈阳地区水稻生产的生态环境影响研究[J].农业环境科学学报,2018,37(08):1793-1801. 常俊彦,宋明阳,于晓曼等.沈阳地区水稻生产的生态环境影响研究[J].农业环境科学学报,2018,37(08):1793-1801. When using this data for life cycle assessment, ensure that the system boundaries are correctly applied. The data covers from the mining of raw materials for fertilizers and pesticides production up to the emission of pollutants during the rice cultivation phase. Users should integrate this data with information about downstream processes if the full life cycle of rice is to be considered. Pay attention to the technological applicability, especially concerning the equivalent coefficient method when converting the environmental impacts, as methodology may differ according to the goal and scope of the study. 在使用该数据进行生命周期评估时，请确保正确应用了系统边界。数据覆盖了从化肥和农药生产的原材料开采到水稻种植阶段污染物的排放。如果要考虑到水稻的完整生命周期，用户应将此数据与有关下游过程的信息结合起来。关于转换环境影响的等效系数法，特别注意技术适用性时要留意，因为根据研究的目标和范围，方法论可能会有所不同。 Inventory: The internal review was done by several iteration steps concerning raw data validation, raw data documentation, representativity, completeness and consistency of modelling with regard to ISO 14040 and 14044. 清单： 内部审查通过几个迭代步骤完成，涉及原始数据验证、原始数据记录、代表性、完整性、与 ISO 14040 和 14044 有关的建模的一致性。 Tiangong LCI Data Working Group 天工LCI数据工作小组 Haoran Zhang, hrzhang@whu.edu.cn hrzhang@whu.edu.cn hrzhang@whu.edu.cn 2024-03-20T21:29:40+08:00 2024-04-20T14:33:25.906754+08:00 00.01.005 https://lcadata.tiangong.world/showProcess.xhtml?uuid=b5236a6d-2d04-44b6-90ba-5579d3b6cdf7&version=01.00.000&stock=TianGong Tiangong LCI Data Working Group 天工LCI数据工作小组 false Free of charge for all users and uses Diesel Input 10.7 10.7 Measured Electricity Input 615.6 615.6 Measured arable, non-irrigated Input 1000.24 1000.24 Measured water Input 1546.78 1546.78 Measured carbon monoxide (fossil) Output 0.61 0.61 Measured carbon dioxide (fossil),carbon dioxide (fossil) Output -245.91 -245.91 Measured nitrous oxide Output 260.16 260.16 Measured sulfur dioxide Output 0.16 0.16 Measured nitrous oxide Output 0.03 0.03 Measured ammonium Output 2.14 2.14 Measured methane (biogenic),methane (biogenic) Output 16.08 16.08 Measured phosphorus, total Output 0.18 0.18 Measured ammonia Output 1.36 1.36 Measured nitrate Output 0.87 0.87 Measured copper Output 0.0008 0.0008 Measured zinc Output 0.025 0.025 Measured mercury Output 0.0001 0.0001 Measured clopyralid Output 0.01154 0.01154 Measured pretilachlor Output 0.012 0.012 Measured 1,2,3-Triazole Output 0.00512 0.00512 Measured dimethoate Output 0.012310000000000001 0.012310000000000001 Measured rice Output 1000.0 1000.0 Measured