机构地区:[1]辽宁师范大学海洋经济与可持续发展中心,辽宁大连116029 [2]辽宁师范大学城市与环境学院,辽宁大连116029
出 处:《生态环境学报》2013年第4期632-638,共7页Ecology and Environmental Sciences
基 金:国家自然科学基金项目(40801209);辽宁省社科联课题(2013lslktzixxjc-06)
摘 要:将能值与生态足迹理论相结合,引入能量折算系数,通过能值密度构建能值-生态足迹模型,并应用此模型对辽河流域2001—2010年生态承载力和生态足迹进行计算。生态承载力计算主要是自然生态承载力和本地产品产出承载力,其中自然生态承载力主要考虑可更新资源的承载力,本地产品产出承载力主要包括生物资源产出承载力和工业产品产出承载力。生态足迹的计算主要包括消费足迹和污染足迹,消费足迹主要测算生物资源消费、能源消费和水资源消费足迹。污染足迹主要测算废气和生活废水、工业废水对自然生态系统带来的负荷。测算结果表明:2001—2010年辽河流域人均生态承载力和人均生态足迹均有所增加,但是生态足迹的增长速度远远大于生态承载力,致使流域内自2001与2009年生态略有盈余外,其余年份均出现生态赤字,处于不可持续发展状态。以能值-生态足迹模型测算结果为基础,基于EViews采用自回归综合移动平均模型(ARIMA),对流域内10年的生态足迹和生态承载力进行动态模拟。首先通过ADF与PP单位根检验时间序列的平稳性;其次分析序列的自相关函数图和偏自相关函数,初步确定AR和MA的阶次;再根据R2、AIC及SC准则,进行模型参数估计并诊断分析;最后确定最佳模拟模型。以ARIMA模型预测2011—2015年辽河流域生态足迹和生态承载力的演变趋势。预测结果表明,人均生态足迹在未来5年内会继续呈直线式增长,到2015年达到7.387 8 hm2,是2001年的2.16倍;而人均生态承载力在2011年之后开始下降,生态赤字继续扩大,到2015年增长到-4.167 67,约为2005年的10倍,流域内不可持续发展形势会更加恶化。最后提出辽河流域生态安全建设的对策。能值-生态足迹模型测算结果与实地调研基本相符,较真实反映了辽河流域可持续发展状况。基于ARIMA模型模拟预测结果可为未来流域�In this work, Based on emergy analysis and the theory of ecological footprint, the emergy-ecological footprint model was established by the coefficient of energy conversion and emergy density. The ecological carrying capacity and ecological footprint in Liaohe River basin from 2001 to 2010 were calculated via this model. The calculation of ecological carrying capacity includes the carrying capacity of natural ecological and local products output. The carrying capacity of natural ecological mainly refers to the carrying capacity of renewable resources, and the carrying capacity of local product output mainly includes the carrying capacity of biological resources and industrial products output. The calculation of the ecological footprint includes consumption footprint and pollution footprint. The consumption footprint consists of the footprint of biological resources consumption, energy consumption and water consumption, and the pollution footprint mainly calculates the load of natural ecosystems brought by exhaust gas and waste water. The results showed that the growth speed of the per capita ecological footprint was greater than one of the ecological carrying capacity. So the ecological deficit occurred in retained years except for the slight ecological surplus in 2001 and 2009. Based on the results of the emergy-ecological footprint model, the autoregressive integrated moving average (ARIMA) model by EViews was introduced to stimulate the dynamic evolution trend in the research region during decade years. Firstly, the stationarity of time series was inspected by Dickey-Fuller (ADF) and Phillips-Perron (PP) unit root model. The diagram of the autocorrelation function and the partial autocorrelation function of the sequence were analyzed, and the order time of autoregressive (AR) and moving average (MA) were initially identified. Then the model parameters were diagnosed and estimated according to R-squared (R2), Akanke's Information Criterion (AIC) and Schwarz Criterion (SC). The
关 键 词:ARIMA模型 辽河流域 能值 生态承载力 生态足迹
分 类 号:F062.2[经济管理—政治经济学]
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