复合生态系统油画结构与全球变化研究

在分析毛乌素沙地自然、社会经济、人文等条件与现状的基础上，诊断生态经济复合系统运行的限制因素及有利条件。运用线性规划的理论与方法进行系统的优化设计。为保证生态经济复合系统的持续发展，降水量以80%保证率的280mm计算为宜，则径流园林区的种植覆盖度可达到65%;高效农牧区的种植覆盖度可达到75%，最大不超过80%。同时表明在毛乌素沙地高效生态经济复合系统持续发展的限制因子主要是水分。 根据植物的生理生态学特点及诸气候要素建立了农业净第一性生产力模型，经我国27个省区农业生产力资料的验证表明，该模型较自然植被的净第一性生产力模型Chikugo模型和综合模型能更好地反应农业净第一性生产力。 根据自然植被净第一性生产力综合模型、农业净第一性生产力模型计算了我国自然植被及农作物的净第一性生产力，对我国自然植被与农作物对全球变化敏感性的研究表明：在所有可能的气候条件下，我国陆地生态系统的生产力表现出由东南向西北递减的趋势及明显的条带状分布，在西北地区形成明显的低值区。 根据叶面积指数、标准化差植被指数建立了中国森林植被净第一性生产力模型，经我国13组森林植被生产力数据的验证表明，该模型的预测结果与实测相符较好。通过与Chikugo模型和综合模型预测结果的比较，该模型在总体上优于Chikugo模型和综合模型。表明基于NDVI的净第一性生产力模型对我国森林植被有良好的适应性，可用于快速监测与预测我国森林生产力的动态变化。

注重林草植被建设 走水土保持型生态农业之路

林草植被恢复建造是水土保持型生态农业建设中的重要一环,也是安塞试区极具特色的一个重要方面.进入“九五”以来,试区在整体推进水土保持型生态农业建设中,进一步加强植被建造,调整土地利用结构,生态经济良性循环态势已经呈现出来.1999年农林草地面积比例为 1:2.0:2.2。“九五”前4年平均耕地面积约为“七五”之初的1/2,然而粮食平均单产却是“七五”的 2.85倍,达到 2280kg/hm~2,总产依然得到增加.盖度0.6以上的植被的覆盖率达到57%,天然灌木林成片出现.年输沙模数较治理之初减少80%以上.

纸房沟流域农业生态经济系统建设及其投入问题分析

在对纸房沟流域生态经济系统建设回顾的基础上 ,分析了生态经济系统建设中的治理投入和生产投入问题 ,得出 :①国家和农民在生态经济系统建设的不同阶段 ,在治理投入和生产投入中的地位 ;②随着综合治理措施的实施 ,农民收入不断增加 ,土地利用趋于合理 ,生态经济系统由现实中的“相制关系”转变为“相依关系”。

全球变化下中国东北样带植物多样性梯度分析及气候-NDVI-植被的关系研究

中国东北样带（NorthEast China Transect, NECT）是位于中纬度温带以降水量作为主要驱动因素的陆地样带。本文的工作以此作为研究平台，利用生态信息系统（Ecological Information System, EIS）以及Microsoft Excel 7.0软件包建立了样带的地理数据库和植物多样性数据库，包括气候数据库、植被数据库、遥感数据库和内蒙内C_4植物数据库以及样带内生态系统特征数据库。在此基础上，主要研究了以下四个方面的内容： 1. 利用Holdridge的生命地带方法对NECT内的生物群区进行了划分。 主要是确定了生物群区间过渡带的位置与宽度，并预测了在全球变化三种模式下NECT内生物群区，尤其是过渡带的变化图景。湿度升高2 ℃后，过渡带的面积都呈扩大化的趋势。森林区对于降水量的变化反应很敏感。荒漠灌丛（即荒漠草原类型）由于其水热条件处于样带内较极端类型，因而对于全球气候变化反应也比较敏感。 2. 研究了NECT内的α、β多样性以及包括生活型、水分生态型、区系地理成分等在内的植物群落特征多样性的梯度变化规律。 研究了样带内的多样性梯度，提出了在样带内存在的α多样性测度问题以及β多样性沿样带的变化规律：样带内由东到西，β多样性逐渐升高，群落内物种被替代的速率变慢;两种植被类型边界上的两个样地之间的相似程度由东到西呈上升趋势;同一类型群落之间的物种周转率比不同类型群落间的物种周转率相对要低。同时将各个环境因子与α、β多样性作了回归分析，找出样带内决定α、β多样性的主要环境因子指标。 样带内沿43.5°N一线附近植物群落的生活型共有17类，水分生态型8类，区系地理成分包括17类，以此为基础分析了群落特征沿样带的变化规律。并探讨了生活型分布的历史地理原因。 3. 对样带气候－NDVI间的关系以及植被－NDVI的关系进行了探讨。 利用来自气象卫星的遥感数据一归一化植被指数（NDVI），和数值化后的样带1:100万植被图进行叠加，找到NECT内每种植被类型对应的NDVI值。样带内共有植被类型147种，反映在NDVI变化上的植被类型有106类。其中，自然植被101种。 影响年均NDVI分布的因子主要有经度、辐射日照百分率及7月温度，与经度呈正相关，与辐射日照时数及7月温度呈负相关。回归方程如下： NDVI = -220.426 + 3.273Lon - 80.338Ratio - 1.962T_7 (R~2 = 0.9714, F = 521.52, p < 0.001) 4. 研究了NECT内的光合功能型。 主要包括内蒙古地区的C_4植物及其生态地理特性。揭标C_4植物的分类群特性、生活型、水分生态型与区系地理成分等生态学特性。C_4植物分布的科属极其集中。C_4光合型为维管植物某些分类群（科、属、种）的特性，为它们固有的遗传特性。推断C_4起源于草本的某些科属。C_4植物为喜热、耐旱的类群。世界种、泛热带种、泛地中海种C_4植物较集中。 样带内的C_3、C_4功能型及其与环境因子的相关性。样带内C_4和C_3光合型植物组成比例由东到西表现出两高两低的趋势。分布主要与年均温和降水量呈显著相关。 提出了一种新的C_3、C_4鉴别方法。即根据野外测定的光合数据建立了C_3、C_4的判别模型： f_1(x) = -1.5493 + 0.1427Pn + 0.1035Tr + 0.3768ΔT + 0.1000Gs f_2(x) = -15.6142 + 1.0542Pn - 0.2503Tr - 0.2957ΔT + 0.6491Gs 最后，综合7个GCMs模型（GFDL，GISS，LLNL，MPI，OSU，UKMOH，UKMOL）的输出结果，利用此结果和本文建立的回归模型，模拟了样带内生物多样性的窨分布格局，并预测了末来全球变化下归一化植被指数NDVI的空间分布格局的变化。

70年来陕西省纸坊沟流域农业生态经济系统耦合态势

"农业生态经济系统耦合"的研究与实践对于实现农业产业与资源相一致,建立持续、高效的农业生态经济系统具有重要的意义。耦合度可以阐明农业经济系统与农业生态系统互动关系,判定农业生态经济系统耦合态势。在分析陕西省纸坊沟流域农业生态经济系统耦合关系的基础上,参照系统科学等理论及相关研究结果建立了农业经济系统与农业生态系统耦合度模型,并计算和分析了该流域70a来的耦合度。结果表明,农业生态经济系统的耦合过程可以划分为4个阶段:Ⅰ.经济系统依赖生态资源进行原始化农业生产阶段;Ⅱ.农业生产掠夺式利用生态资源,生态系统供给能力不断减少阶段;Ⅲ.农业经济系统与生态系统协调化发展阶段;Ⅳ.降低农业发展速度,促使生态系统重建阶段。纸坊沟流域从1938～2008年先后经历了第Ⅰ阶段、第Ⅱ阶段和第Ⅲ阶段。目前处于第Ⅲ阶段,但在"系统发展"过程中已潜伏了越来越大的危机,到2018年系统耦合突破"协调"界限,"相悖态势"将明显表现出来。为此,纸坊沟流域必须调整产业布局,发展草畜产业,进行产业升级,优化产业结构,实现农业生态经济系统协调、持续发展。

黄土丘陵区县南沟流域生态恢复的生态经济耦合过程及可持续性分析

生态恢复不但是自然和技术过程,更重要的是经济过程,生态经济耦合是生态恢复成败及能否持续的关键。综合应用经济学、能值和生态足迹分析工具,系统研究了黄土丘陵区县南沟流域生态恢复过程中的生态经济系统演变过程及其特征,旨在探索生态可持续的经济社会发展机制。结果表明,2000～2005年流域产业结构及其多样性显著改善,生产力显著提高并跨越低水平进入高水平发展阶段,农民的生活状况已经由温饱逐步迈向小康水平。基于能值的生态经济耦合分析结果显示2002～2005年流域环境负载率(ELR)下降,持续性指数(ESI)增加。生态足迹结果显示流域2000年和2005年的生态盈余分别为0.03hm2和0.239hm2,新指标万元产值生态足迹(EFprod)分别为53.5hm2/万$和33.6hm2/万$,生态压力指数(EFPI)分别为0.980和0.838,流域处于弱可持续状态。上述结果显示生态恢复提高了流域资源利用和转换效率,环境负载率下降,人类经济活动对生态生产性有效空间的占用减少,可持续性提高。研究结果表明生态恢复是黄土丘陵区实现生态经济良性耦合、协调发展的基本途径。

黄土丘陵区流域生物量和气体调节服务功能价值动态变化及评价

文章研究纸坊沟流域内草地、农地、林地、灌丛四种不同生态系统类型植被生产力及逐年生物量,估算各生态系统类型固定CO2和释放O2的能力,并根据生态学原理和生态经济学方法,运用碳税法、造林成本法和影子价格法,推算出各生态类型固定CO2和释放O2气体的生态、调节服务功能价值。研究表明,1985～2001年流域总生物量年均生物量和总体呈线性增加趋势。由于各种治理措施的实施和退耕还林(草)政策的正确导向,纸坊沟流域土地利用趋于合理,CO2/O2气体调节服务功能价值逐步增强,流域生态经济系统向良性演变。不同生态系统类型气体调节功能价值的估算为退耕还林(草)年限及生态补偿提供了科学决策依据。

黄土丘陵区农业可持续发展的科学途径

依据黄土丘陵区生态-经济系统演变过程中的正反两方面事例,分析了制约该区农业、经济可持续发展的主要限制因素,探讨了改善该区生态环境、实现农业持续发展的科学途径。并以此认为,退耕还林还草恢复林草植被,是实行农耕制度革命的重要举措,应该与产业结构调整密切结合,实现生态经济可持续发展。

试论生态分类系统在我国数字林业建设中的应用

我国传统森林区划中,二类小班和三类小班两类小班体系同时存在,二者在空间上不一致;即使是同一小班体系,先后两次调查结果也不相同,不利于应用数字技术制定长期的森林管理计划.本文以辽宁东部山区为例,建立生态分类系统(ecological classification system,ECS),共得到5类生态土地类型(ecological land type,ELT),34类生态土地类型相(ecological land type phase,ELTP).以ELTP作为固定小班,设计了一致性森林资源调查方法,解决了我国数字林业建设中的基础技术问题.以生态分类系统和空间信息技术为依托的生态系统管理方法,加上计算机模型和辅助决策界面的支持,构成了数字林业的基本框架.

港西油田现代油藏管理研究与实践

Through years of practice, reservoir management has already become the basic mode of foreign oil companies to realize the high-efficient development of the oil field. From the view of reservoir development and technological economy, reservoir management regards the study of the reservoir engineering, designs of reservoir projects and the dynamic analysis of the reservoir's performance as a system. In the fields of reservoir description, the establishment of the geological models and development models, the dynamic simulations of reservoir exploitation and the design of the oil engineering, reservoir management emphasizes the cooperation of the geology and the engineering, the combination of the engineering technology and the economic evaluation. In order to provide the means and basis for the reservoir geology study, reservoir evaluation, reserves calculation, numerical simulation, development plan and risk analysis, it adopts the reservoir management activities(team work) to make and implement the optimized oil field development management strategies so that secientific and democratic decision making can be achieved. Under the planned economic system for a long time, the purpose of Chinese reservoir development has been to fulfill the" mandatory" production task. With the deepening of the reform, the management organization of Chinese petroleum enterprises has been gradually going through the transition and reforms to the operational entity and the establishment of the mode of oil companies under the socialist market economy system. This research aims at introducing the advanced reservoir management technique from foreign countries to further improve the reservoir development results and wholly raise the economic benefits of Chinese mature land facieses sandstone reservoirs in the later stage of the water flooding. We are going to set up a set of modern reservoir management modes according to the reservoir features, current situation and existing problems of GangXi oil field of DaGang oil company. Through the study and implementation of the reservoir description and numerical simulation technology effectively, we plan to work out integrated adjustment projects, to study the related technology of oil recovery; to set up the effective confirmable data procedure and data management system of the reservoir management, to establish the coordinated model and workbench related to geology, engineering and economy in order to realize the real time supervision and evaluation on the process of reservoir development. We hope to stipulate modernization management tools for GangXi oil fields to rationally utilize various kinds of existing technological methods and to realize the economic exploitation and achieve the maximum benefits from the reservoir. The project of the modem reservoir management will be carried out on the GangXi oil field of DaGang oil company for this oil field is typical and has integrated foundamental materials and perfect networks. Besides, it is located in the good geographical position enjoying very convenient traffic. Implementing modern reservoir management will raise the recovery ratio, reduce the production cost and improve the working efficiency. Moreover, the popularization of modern reservoir management will improve the comprehensive benefits of DaGang oil company and even the whole Petro China. Through the reserch of this project, the following technical indicators can be reached: Establishing the concept of modern reservoir management. Establishing a set of integrated data information management system adapt to the features of GangXi reservoir. 3. Forming technical research modes of modern reservoir management suitable for mature reservoirs in the later developing stage. 4. Advancing projects of GangXi reservoir which are maxium optimized in engineering technique and economic benefits of oil exploitation. Besides, this set of technology, research principle and method can guide the mature reservoir of DaGang oil field and even the whole PetroChina to develop the further research of reservoir adjustment and improve the reservoir recovery factor and developing level constantly.

Using epilithic diatom communities to assess ecological condition of Xiangxi River system

Assessment method for ecological condition of Xiangxi River system was studied by using 13 candidate metrics of epilithic diatom which can reflect conditions in pH, salinity, nitrogen uptake metabolism, oxygen requirements, saprobity, trophic state, morphological character and pollution tolerant capability etc. By one-way ANOVA, the metrics of relative abundance of acidobiontic algae (ACID), freshwater algae (FRESH), high oxygen requirement (HIGH-O), eutraphentic state (EUTRA) and mobile taxa ( MOBILE) were suitable for distinguishing sites in different conditions. Then, the river diatom index (RDI) composed of these five metrics was used to evaluate ecological condition of the river. The results showed that the healthiest sites were in the Guanmenshan Natural Reserve ( with the mean RDI of 79.73). The sites located in tributary of Jiuchong River also owned excellent state (mean RDI of 78.25). Mean RDI of another tributary - Gufu River and the main river were 70.85 and 68.45 respectively, and the unhealthiest tributary was Gaolan River (with mean RDI of 65.64). The mean RDI for all the 51 sites was 71.40. The competence of RDI was discussed with comparison of evaluation results of DAIpo and TDI, it can be concluded that multimetrics is more competent in assessment task.

Use of microbial community to evaluate performance of a wetland system in treating Pb/Zn mine drainage

The performance of a wetland system in treating lead (Pb)/zinc (Zn) mine drainage was evaluated by using the polyurethane foam unit (PFU) microbial community (method), which has been adopted by China as a standardized procedure for monitoring water quality. The wetland system consisted of four cells with three dominant plants: Typha latifolia, Phragmites australis and Paspalum distichum. Physicochemical characteristics [pH, EC, content of total suspended solid (TSS) and metals (Pb, Zn, Cd, and Cu)] and PFU microbial community in water samples had been investigated from seven sampling sites. The results indicated that the concentrations of Pb, Zn, Cd, Cu, and TSS in the mine drainage were gradually reduced from the inlet to the outlet of the wetland system and 99%, 98%, 75%, 83%, and 68% of these metals and TSS respectively, had been reduced in concentration after the drainage passed through the wetland system. A total of 105 protozoan species were identified, the number of protozoa species and the diversity index (DI) gradually increased, while the heterotrophic index (HI) gradually decreased from the inlet to the outlet of the wetland system. The results indicated that DI, HI, and total number species of protozoa could be used as biological indicators indicating the improvement of water quality.

Roles of substrate microorganisms and urease activities in wastewater purification in a constructed wetland system

A vertical/reverse-vertical flow constructed wetland system was set up in Wuhan, China, to study its treatment efficiency of polluted lake water. The numbers of substrate microorganisms and urease activities in the substrate of the constructed wetland were determined by plate counts and colorimetric analysis, respectively. The removal efficiencies of biochemical oxygen demands (BOD5). chemical oxygen demands (COD), total phosphorus (TP), total Kjeldahl nitrogen (TKN), and total suspended solids (TSS) were measured by EPA approved methodology. The results showed there were significant positive correlations (P < 0.05) between numbers of microorganism in the substrate and removal rates of TKN and CODCr. Meanwhile, there was significant positive correlation (P < 0.05) between urease activities and removal efficiencies of TKN and negative correlation between urease activities and removal efficiencies of BOD5. Substrate microorganisms and urease activities played key factors during purification processes and they could be utilized as indicator of wastewater treatment performances in the constructed wetland system. (C) 2004 Elsevier B.V. All rights reserved.

The role of plants in channel-dyke and field irrigation systems for domestic wastewater treatment in an integrated eco-engineering system

Eight kinds of plants were tested in channel-dyke and field irrigation systems. The removal rates of TP, phosphate, TN, ammonia, CODcr and BOD, in the channel-dyke system with napiergrass (Pennisetum purpurem Schumach, x Pennisetum alopecuroides (L.) Spreng American) were 83.2, 82.3, 76.3, 96.2, 73.5 and 85.8%, respectively. The field irrigation systems with rice I-yuanyou No.1(88-132) (Oryza sativa L.) and rice II- suakoko8 (Oryza glaberrima) had high efficiency for N removal; the removal rate were 84.7 and 84.3%, respectively. The mass balance data revealed that napiergrass, rice I and II were the most important nutrient sinks, assimilating more than 50% of TP and TN. Plant uptake of N and P as percentage of total removal from wastewater correlated with biomass yield of and planting mode. (C) 2000 Elsevier Science B.V. All rights reserved.