基于根轨迹法的海洋生态模型稳定性分析

本文对一类非线性海洋生态模型进行了稳定性分析,并通过广义根轨迹的分析得出,初始时刻营养盐的不同输入对系统稳定性的影响,并用相轨迹图加以验证。通过稳定性分析可知,当浮游植物的生长率和初始时刻营养盐的输入均大于浮游植物的死亡率和营养盐的流失时,系统存在稳定状态。若浮游植物的生长率和初始时刻营养盐的输入增大时,系统的动态性能减少,即系统会更快的趋于稳定状态。     

土地利用变化对吴江市水田土壤有机碳储量的影响分析

 农业表层土壤碳库容易受人为强烈干扰,而又可以在较短的时间尺度上进行调节,当今我国经济发达地区土地利用变化必然会对土壤固碳产生重要影响。本研究以江苏省吴江市水稻土为例,利用新一代中分辨率成像光谱仪(MODIS)和TM/ETM影像提取了1984年稻田面积,以及这部分稻田在2000-2005年的土地利用变化状况。研究中以最大似然法对TM/ETM、MODIS影像应用归一化植被指数(NDVI)、增强型植被指数(EVI)和陆地水分指数(LSWI)掩膜的方法作了识别提取;同时,结合第二次全国土壤普查、2003年耕地地力调查点和吴江市农林局土肥指导站长期定位点的土壤有机碳数据估算了1984年和2000-2005年土壤碳库变化情况。结果表明:近20多年来尽管吴江市水稻土水耕熟化过程中有机碳总体呈增加的趋势,但由于大量稻田被非农用地所取代,导致土壤固碳能力大幅度下降,尤其从2001年开始从"碳汇"变成"碳源"。因此,在我国经济发达区应密切关注耕地转换成非农用地而导致的土壤有机碳的损失。     

Using the Lund-Potsdam-Jena Model to Understand the Different Responses of Three Woody Plants to Land Use in China

In this study, the approach of conditional nonlinear optimal perturbation related to initial perturbation (CNOP-I) was employed to investigate the maximum variations in plant amount for three main woody plants (a temperate broadleaved evergreen, a temperate broadleaved summergreen, and a boreal needleleaved evergreen) in China. The investigation was conducted within a certain range of land use intensity using a state-of-the-art Lund-Potsdam-Jena dynamic global vegetation model (LPJ DGVM). CNOP-I represents a class of deforestation and can be considered a type of land use with respect to the initial perturbation. When deforestation denoted by the CNOP-I has the same intensity for all three plants, the variation in plant amount of the boreal needleleaved evergreen in northern China is greater than the variation in plant amount of both the temperate broadleaved evergreen and temperate broadleaved summergreen in southern China. As deforestation intensity increases, the plant amount variation in the three woody plant functional types carbon changes, in a nonlinear fashion. The impact of land use on plant functional types is minor because the interaction between climate condition and land use is not considered in the LPJ model. Finally, the different impacts of deforestation on net primary production of the three plant functional types were analyzed by modeling gross primary production and autotrophic respiration. Our results suggest that the CNOP-I approach is a useful tool for exploring the nonlinear and different responses of terrestrial ecosystems to land use.     

中亚热带红壤丘陵区松林生态系统表层土壤活性有机碳空间分异规律

土壤活性有机碳在指示土壤碳库平衡、表征土壤肥力与质量、衡量土壤微生物生长等方面具有重要意义。本文对中亚热带红壤丘陵区松林生态系统93个表层（0～20cm）土壤样品的活性有机碳空间分布特征及其与地形、植被和土壤特性的关系进行了深入分析。结果表明：表层土壤活性有机碳的平均值为1.92g/kg,占土壤有机碳的29.18%,变...     

茶园生态系统氟的生物地球化学循环

根据近年作者及相关研究成果,提出一般茶园（非F污染区,非高F地质背景区）生态系统F的生物地球化学循环模型,估算茶园生态系统各子系统F的库容和库之间的F流量,分析茶园生态系统F的生物地球化学特征．结果表明：1）茶园生态系统F的惰性库：调节库：活动库为239：4：1,活动库占总库容的比例高达0．41％,其比例是非常高的;2）该生态系统F的外循环是一个正平衡循环,F的收入与支出比为2：1,同时地表径流的F支出大于地下径流的F支出;3）由于茶树具有很强的从土壤摄取F的能力,摄取的F绝大部分（98％）汇集于叶上,特别是老叶上,且部分易被雨水淋出,因而通过透冠流和枯枝落叶形成很大的F流量,分别达10．5k·hm^-2·a^-1和8．5kg·hm^-2·a^-1,内循环流量达19．95kg·hm^-2·a^-1,为活动库库容的3．6倍,使活动库具有很高的更新速率;4）茶园生态系统F的生物地球化学循环伴随着系统中F的活化、有机化和生物积累过程．     

Effects of grazing and climate change on sandy grassland ecosystems in Inner Mongolia

To understand the effects of grazing activities and climate change on sandy grassland ecosystems in northern China, a livestock field grazing and enclosure experiment was conducted from 1992 to 2006 in Horqin Sand Land, Inner Mongolia. The results showed that sustained heavy grazing resulted in serious degradation of the vegetation; moderate grazing can maintain vegetation stabilization; and light grazing can promote rapid restoration of degraded vegetation. The livestock productivity was the highest in the moderate grazing grassland, and sustained heavy grazing resulted in rapid decrease of the livestock productivity. Heavy grazing can cause a retrogressive succession of grassland vegetation, whereas moderate and light grazing may promote progressive succession of plant species. The effects of changing climate on succession processes were not significant in the short term; a warm-humid climate is favorable to restoration of degraded vegetation, whereas a sustained warm-drought climate may result in degradation of grassland vegetation. Heavy livestock grazing should be stopped for the sustainable use of grassland; the proper grazing intensity for sandy grassland is two to three sheep or sheep equivalents per hectare in Inner Mongolia.     

The teleconnection between marine silicon supply and desertification in China

Desertification has been notably expanding in China in the recent decade, especially in North China where dust/sand storm (DSS) frequently assaulted local communities. Analyses in marine ecology found that the earth ecosystem could be able to complement nutrient silicon for keeping sustain- able development of marine ecosystem, and decreasing CO2 concentration in the atmosphere; as a result, the area of desertification would be enlarged. Modern human being activities have resulted in constant changes in the amount of silicon transport from land into sea, leading to oversupply of nitrogen and phosphorus but silicon in seawater. The proportion of nitrogen, phosphorus and silicon was seriously im- balanced and the limitation of silicon for phytoplankton growth has become more serious. The silicon de- ficiency has damaged the marine ecosystem in coastal regions and slowed down the carbon sedimentation in the atmosphere of the world. The authors believe that the continual discharge of CO2 into the atmos- phere is the cause for the global warming including marine water temperature rise. Consequently, the earth ecosystem would have to trigger its complementary action to resume to the silicon balance by algae bloom in seawater for reducing air and water temperatures. In order to complement nutrient silicon into the sea, the ecosystem would transport silicon via the atmosphere; therefore, the desertification in the in- ner land is a natural reaction. As marine phytoplankton booming can reduce the CO2 concentration in the atmosphere and further ease the green-house effect, during this process, a large amount of silicon are de- manded by the ecosystem, which human being are unable to stop desertification from happening but slow down the progress and ease the risk. Therefore, as an important role in earth ecosystem, people should reduce the CO2 discharge into the atmosphere first; then, the normal function of river transporting silicon must be restored. In this way, the CO2 in the atmosphere can be kept in balance, the global warming slowed down, marine ecosystem development sustained, the drought in inner land eased, and the desert gradually under-controlled.     

Research Agenda for Understanding Transboundary Ecosystem Changes and Eco-security in Southwestern China

Introduction One of the foremost challenges facing the world in the 21st century is maintaining global ecosystem diversity. This requires thorough understanding of ecosystem vulnerability and resilience. Economic globalization has forced nations to consid…     

Potential benefits of increased application of water to paddy fields in Taiwan

The potential benefits of increased application of water to paddy fields in Taiwan are investigated in this paper. A conceptual model is used to represent the hydrological system of the paddy field. A technique is presented to estimate the parameters of the model. Field experiments also are performed for parameter estimation and model verification. The simulated results are in good agreement with the observed during model verification. With parameters estimated from the field data, the model is used to simulate the effects of applying water beyond current practice. The simulation results show that the downward percolation increases when the irrigation water increases. However, the percolation reaches a capacity rate no matter how large the amount of water applied. This phenomenon results from the existence of a hard layer below the paddy field. The effects of raising the height of levees around paddy fields are also studied. Copyright © 2001 John Wiley & Sons, Ltd.     

川藏铁路西藏昌都段生态保护重要性评价

生态系统服务功能与生态系统敏感性是衡量生态系统质量及实现高质量生态文明建设的重要依据。川藏铁路沿途跨越多个自然地理单元,生态环境保护是铁路规划、建设及运行过程中面临的关键问题。以川藏铁路西藏昌都段为研究对象,采取资料分析与野外调查结合的手段,运用生态评价模型对研究区的生态系统服务和生态脆弱性进行分析,并基于研究结果对铁路途经区域的生态保护重要性进行评价。结果表明,当前昌都境内川藏铁路涉及的生态保护极重要区、重要区和一般重要区占比分别为42.19%、52.69% 和5.12%。评价结果有助于在铁路规划、建设及运营过程中对工程活动进行合理布局,有针对性地降低对生态系统的负面影响,达到社会经济效益和生态效益双赢的目的。