[Review on the assessment model of nutrient recycling with agricultural residues treatment technologies]. / å†œä¸šåºŸå¼ƒç‰©å »åˆ†å¾ªçŽ¯åˆ©ç”¨æŠ€æœ¯æ¨¡å¼è¯„ä¼°æ¨¡åž‹çš„ç ”ç©¶è¿›å±•.

The technology for nutrient resource utilization of agricultural residues is crucial to realizing a circular agricultural economy. The assessment model provides essential support to optimize nutrient recovery and treatment technologies. We specifically summarized research progress in the assessment framework of agricultural residues nutrient recycling technology, assessment models and evaluation indicators, data sources of models and their uncertainty analysis, and the application scale of models. We found that process mathematical models and industrial eco-logy models are the common nutrient flow assessment models. Process mathematical and industrial ecology models differed greatly in terms of the reliability of assessment results and the simulation scale. The former mainly focused at laboratory or pilot scale, with higher accuracy. The latter could achieve multi-scale simulation from microscopic to macroscopic and had higher uncertainty, due to the way its data were obtained. Finally, we provided an outlook on the research on the assessment model of agricultural residues nutrient resource utilisation technology. In order to achieve accurate assessment of waste resource utilisation technology in agricultural production systems at the regional scale, a reliable model framework and database should be established by combining process mathematical models with industrial ecology models. Meanwhile, we should carry out research on model expansion at the geographical scales of factory scale, farm scale, village scale, township scale, and regional scale.

[Nitrogen flow and polluted nitrogen footprint accounting of rural systems at the municipal scale: The case of Shenyang]. / å¸‚åŸŸå°ºåº¦å†œæ‘ç³»ç»Ÿæ°®ç´ æµåŠ¨åŠæ±¡æŸ“æ°®è¶³è¿¹æ ¸ç®—­­ä»¥æ²ˆé˜³å¸‚为例.

Understanding the process of nitrogen flow, emission, and utilization in rural systems is of great importance to reduce pollutant emissions caused by agricultural activities and to promote the sustainable utilization of nutrient resources. Based on the NUFER (nutrient flow in food chain, environment and resources use) model and nitrogen footprint approach, we proposed a nitrogen accounting framework for municipal-scale rural systems, and conducted a quantitative and time series-based comparative study on nitrogen flow, recycling, and footprint from the perspective of three subsystems, namely planting, animal husbandry, and rural human settlement in Shenyang from 1998 to 2018. The results showed that: 1) nitrogen utilization rates of the planting subsystem, animal husbandry subsystem, and rural human settlement subsystem were 36.1%, 59.7%, and 70.1%, respectively in 2018, with a growth rate of 15.9%, 9.1%, and 0.7% respectively compared to 1998; 2) The total polluted nitrogen footprint in Shenyang grew rapidly from 1998 to 2014, but declined from 2014 to 2018. In 2018, the total footprint of nitrogen pollution was 123.5 Gg, increasing by 21.6% compared with 1998; 3) In 2018, the unused nitrogen in the planting subsystem, animal husbandry subsystem, and rural human settlement subsystem were 129.5, 62.2, and 8.7 Gg, respectively, which were equivalent to 420.4, 202.1, and 8.7 Gg of nutrient resources from nitrogen fertilizer, respectively. In general, the nitrogen use efficiency of rural system increased gradually from the production end to the consumption end, but the temporal and spatial variation of nitrogen in rural systems need further studies.