高锰酸盐指数测定的影响因素研究

采用正交实验设计法L9(34)考察高锰酸盐指数测定的影响因素,确定各因素的主次关系及最佳测定条件。结果表明,高锰酸钾浓度对高锰酸盐指数测定的影响程度最大,其次是加热时间及滴定时间,影响较小的是溶液的酸度。在最佳测定条件下:1+3硫酸、加热8min、60s内滴定、高锰酸钾浓度为0.0100mol/L,加标回收率为101%。     

西安市LUCC预测生态系统服务价值损失

人类活动作用于土地资源,使LUCC（土地利用／土地覆被变化）在全球环境变化过程中起主导作用,随着国际LUCC研究计划的进展,各国依据本国的实际情况开展研究。对西安市以往五年（2000-2004年）的土地利用基础数据开展调查统计分析,建立灰色系统动态GM（1,1）模型,预测2005—2010年西安市土地利用结构变化状况,尝试计算西安市土地生态系统服务价值损失（简称生态损失）,用一种直观经济指标-货币来反映这种生态损失。预测2010年西安市生态损失为331、84×10^6元。     

福建农村生态环境现状与评价指标体系构建

在人口不断增加和经济大规模发展的双重压力下,农村生态环境的形势日益严峻。本文分析了福建农村与农业发展过程中突出的生态环境问题,归结了造成农村生态环境破坏的原因;依据农村生态环境的内涵和特征、农村环境保护理论、农业生态环境保护理论构建了福建农村生态环境指标体系,并利用层次分析法确定了指标权重。该指标体系的建立能够为福建农村生态环境进行定量测度和评价以及为农村生态环境预警系统奠定基础;进一步深刻了解当前福建农村生态环境的现状,为福建农业和农村社会的发展增加深度认识和思考。     

基于SVR的船舶溢油事故预测

船舶溢油事故的预测,是确定所需应急资源多少的重要依据;但船舶溢油事故具有小样本性,传统预测方法不再适用。针对船舶溢油事故的小样本性,该文选择SVR模型对其进行预测;SVR算法的关键是核函数的选择及自由参数的确定,针对上述问题该文分别采用交叉验证法、遗传算法;并在matlab软件上建立SVR模型,最后将该模型应用于上海港水域船舶溢油事故的预测。     

开发区环境管理指标体系研究

开发区环境管理指标体系研究是建立开发区环境管理综合体系的基础性工作,也是考核开发区生态环境建设与管理效果的定量评价工具。本文在探讨环境管理指标体系的确定原则、选择和量化等基础上。提出了一套包括环境保护指标、循环经济指标、绿色管理指标和相关性指标四类指标在内的环境管理综合指标体系。并将该指标体系应用于杭州钱江经济开发区的环境管理实践。结果表明,杭州钱江经济开发区的环境管理完善程度总得分为74．6％,总体上还有待进一步完善,特别是ISO14001管理体系认证和环境质量改善等方面有待进一步加强。     

区域生态安全评价的BP神经网络方法

生态安全评价是建立生态安全预警系统及进行环境管理的基础。为确立有效的区域生态安全评价方法,基于压力－状态－响应概念模型,构建了区域生态安全评价指标体系和评价标准;采用BP神经网络的途径,对安徽省17个地级市的生态安全评价问题进行了研究。结果表明：宣城、池州、黄山为Ⅱ级,亳州、宿州、阜阳、滁州、六安、巢湖、安庆为Ⅲ级,合肥、淮北、蚌埠为IV级,淮南、马鞍山、芜湖、铜陵为Ⅴ级。区域生态安全的BP神经网络评价方法涵义明确,计算过程简单,能区分生态安全的等级,可以应用于具有评价标准的其它生态系统综合评价。     

基于实测光谱分析和MODIS数据鄱阳湖叶绿素a浓度估算

基于遥感的大面积水体监测技术为水环境监测提供了一种有效手段。以鄱阳湖为研究区,以反映水体营养状态的重要指标叶绿素a为研究对象,在测定研究区水体光谱及叶绿素a浓度和收集了相应时间的MODIS数据的基础上,采用浮游藻类指数法（Floating Algae Index,FAI）提取鄱阳湖水体范围,对鄱阳湖水体实测光谱数据进行剔除异常、归一化及光谱微分处理,构建波段差值、比值、归一化差值等光谱指数,利用最小二乘原理迭代分析水体叶绿素光谱响应特征,得出敏感波段范围：673～680 nm与650～665 nm、680～710 nm与650～670 nm、662～671 nm与700～720 nm光谱区间组合。选择最佳通道组合,建立基于MODIS影像的鄱阳湖叶绿素a浓度反演模型,相关系数为067。应用该模型得到2011年秋季鄱阳湖的叶绿素浓度估算值,反演结果显示湖区水体叶绿素浓度总体不高,且在空间分布上湖区水体周边与陆地交界处比湖中心区浓度偏高。分析认为：通过对实测光谱的定量分析,获得对鄱阳湖地区水体叶绿素浓度的光谱特征认识,揭示出其反射光谱的长波漂移现象,为鄱阳湖这一富营养化程度底,且水体分布不均匀区域建立一种叶绿素浓度反演方法,可为该区域长期的水环境管理提供方法借鉴     

Identification of Forest Vegetation Using Vegetation Indices

Abstract

Spectral feature of forest vegetation with remote sensing techniques is the research topic all over the world, because forest plays an important role in human beings' living environment. Research on vegetation classification with vegetation index is still very little recently. This paper proposes a method of identifying forest types based on vegetation indices, because the contrast of absorbing red waveband with reflecting near-infrared waveband strongly for different vegetation types is recognized as the theoretic basis of vegetation analysis with remote sensing. Vegetation index is highly related to leaf area index, absorbed photosynthetically active radiation and vegetation cover. Vegetation index reflects photosynthesis intensity of plants and manifests different forest types. According to reflectance data of forest canopy and soil line equation NIR=1.506R+0.0076 in Jingyuetan, Changchun of China, many vegetation indices are calculated and analyzed. The result shows that the relationships between vegetation indices and forest types are that perpendicular vegetation index (PVI) identifies broadleaf forest and coniferous forest the most easily; the next is transformed soil-adjusted vegetation index (TSVI) and modified soil-adjusted vegetation index (MSVI), but their calculation is complex. Ratio vegetation index (RVI) values of different coniferous forest vary obviously, so RVI can classify conifers. Therefore, the combination of PVI and RVI is evaluated to classify different vegetation types.     

Function of Agricultural Land Use and Its Evolvement in Peri-urban Area: A Case Study of Beijing

Abstract

Rapid urbanization in Beijing stimulates the urban land expansion and diminishes available agricultural land. Monofunctional agricultural land use can not meet the demand of the development of the multifunctional agriculture and urbanization any more, so multifunctional agricultural land use is going to be promoted in the city. This article proposes the evolvement of the land use change from 1992 to 2004 and discusses some evolvement views.     

Developing Mechanism of Rubber-tea-chicken Agro-forestry Model in Tropical Area of China

Abstract

As a typical tropical agro-forestry ecosystem in Wenchang, Hainan Province, China, rational mechanisms of the rubber-tea-chicken eco-agricultural model were studied with the Solow technological level index, stability indicator, harmonizing coefficient, grey correlation coefficient and production dominance. This study focused on rational hierarchical structure, the limiting factors and optimal strategies of the model development based on model structure, resource conditions and external market demands. Results showed that rational mechanism of the rubber-tea-chicken ecosystem model mainly included technological contributions, leverage function of dominance component (livestock husbandry), stability of the model structure and harmony of its components, the model dominant product’s market demand and government’s supporting policies. The contributions of fund, technology, information and talent resources played an important role in improving sustainability and productivity of the agro-forestry model.