阿根廷潘帕斯草原农户决策与种植制度绩效的生态-社会综合模拟模型

S. Pessah, D. Ferraro, D. Blanco, R. Castro
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引用次数: 1

摘要

农业系统的变化是一个涉及气候变化、全球化和技术变化的多原因过程。这些复杂的相互作用通过施加土地利用和覆被变化(LUCC)动态来调节景观转化过程。为了更好地理解和预测ucc过程,我们以元胞自动机的形式开发了一个空间显式的基于主体的模型:AgroDEVS模型。该模型旨在预测可行的土地利用/土地覆盖变化动态及其相关的经济和环境变化。AgroDEVS的结构具有行为规则和功能,代表a)作物产量,b)天气条件,c)经济利润,d)农民偏好,e)采用技术水平,f)基于隐含能源核算的自然资源消耗。利用1988-2015年潘帕草原地区(阿根廷)典型地区的数据,模拟表明,平均每10年有6年实现了经济目标,但每10年只有1.9年实现了环境阈值。在一组50年的模拟中,土地覆盖变化模式迅速向最有利可图的作物序列靠拢,经济和环境条件之间没有明显的贸易。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Integrated Ecological-Social Simulation Model of Farmer Decisions and Cropping System Performance in the Rolling Pampas (Argentina)
Changes in agricultural systems are a multi-causal process involving climate change, globalization and technological change. These complex interactions regulate the landscape transformation process by imposing landuseandcover change (LUCC)dynamics. Inorder tobetterunderstandand forecast theLUCCprocess we developed a spatially explicit agent-based model in the form of a Cellular Automata: the AgroDEVS model. The model was designed to project viable LUCC dynamics along with their associated economic and environmental changes. AgroDEVS is structured with behavioral rules and functions representing a) crop yields, b) weather conditions, c) economic profits, d) farmer preferences, e) adoption of technology levels and f) natural resource consumption based on embodied energy accounting. Using data from a typical location of the Pampa region (Argentina) for the period 1988-2015, simulation exercises showed that economic goals were achieved, on average, each 6 out of 10 years, but environmental thresholds were only achieved in 1.9 out of 10 years. In a set of 50-years simulations, LUCC patterns converge quickly towards the most profitable crop sequences, with no noticeable trade-o between economic and environmental conditions.
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