乌克兰左岸森林草原农业低碳生产体系研究

Y. Tarariko, Y. Soroka, H. I. Lychuk
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摘要

根据研究结果确定,为了显著减少所获得产品的“碳足迹”,有必要优化生产的生物质在食物、能源原料、土壤和气体损失之间的分布。左岸森林草原典型地带性轮作植物生物量干物质积累10 t /ha时,宜将其转化为0.8 ~ 1.0 t /ha的肉类和乳制品、1.3 ~ 1.5 t /ha的油脂和糖、1.2 ~ 1.5 t /ha的甲烷和0.6 ~ 0.8 t /ha的稳定腐殖质物质。在这种转化过程中,光合作用过程中积累的有机碳有一半被用于农业生态系统的生物组成部分,即植物、动物和微生物土壤群落的需要。将部分生物质用于农业技术过程的能源供应,同时尽量减少使用不可再生能源。从农业生态系统中提取的最终产品以脂肪、蛋白质和碳水化合物的形式主要由碳氧元素组成。因此,形成了宏量元素和微量元素的封闭循环,同时对所有废物进行全面消毒,最大限度地减少了农用化学品的使用,而农用化学品的生产也伴随着大量温室气体进入大气。以典型的左岸森林草原农业企业为例,建立了一个接近最优的农业生产模型,该模型中各组成部分同步平衡运行,不仅具有较高的经济效益,而且从长远来看,可以从减少温室气体排放中获得额外的利润。研究表明,在实施拟议的农业生产制度时,其盈利能力约为3500美元/公顷,考虑到排放配额的价值,这一数字将增加20%。这样做并没有考虑到提高碳足迹短的产品竞争力的可能性,它们的有机标签和其他好处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-carbon system of agricultural production in the Left Bank Forest-Steppe of Ukraine
Based on the research results it was determined that to significantly reduce the "carbon footprint" of the obtained products, it is necessary to optimize the distribution of produced biomass among food, energy raw materials, soil, and gaseous losses. When accumulating 10 t /ha of dry matter of plant biomass in the typical zonal crop rotation of the Left Bank Forest-Steppe, it is advisable to transform it into 0.8-1.0 t /ha of meat and dairy products, 1.3-1.5 t /ha of oil and sugar, 1.2-1.5 t /ha of methane and 0.6-0.8 t /ha of stable humus substances. In the process of such transformation, half of the organic carbon accumulated in the process of photosynthesis is used for the needs of the biological components of the agroecosystem, namely plants, animals, and microbial soil coenosis. Allocation of part of biomass for the energy supply of agro-technological processes is accompanied by minimization of the use of non-renewable energy sources. The final products extracted from the agro-ecosystem in the form of fats, proteins, and carbohydrates have mainly carbon-oxygen elemental composition. As a result, a closed cycle of macro- and microelements is formed, which, along with total disinfection of all wastes, minimizes the use of agrochemicals, the production of which is also accompanied by the entry into the atmosphere of large amounts of greenhouse gases (GHG). In the example of a typical Left Bank Forest-Steppe agricultural enterprise a close to an optimal model of agricultural production was worked out, which synchronized and balanced operation of components provides not only high economic efficiency but also in the long run allows to obtain additional profits from reducing GHG emissions. It is shown that when implementing the proposed system of agricultural production, its profitability will be about 3.5 thousand USD / ha, taking into account the value of emission quotas, this figure will increase by 20%. In doing so that does not take into account the possibility of increasing the competitiveness of products with a short carbon footprint, their labeling as organic and other benefits.
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