黄河三角洲滨海湿地健康条件评价概念模型

滨海湿地健康与生物学特征主要取决于区域上的水文与盐度体制以及景观尺度上的土地利用现状。然而,由于滨海湿地条件评价的指标和标准并不十分清楚,因此,对滨海湿地系统条件进行评价,目前仍是环境科学的难点。中国地质调查局（CGS）青岛海洋地质研究所与美国地质调查局湿地研究中心合作先后为美国密西西比河下游生态环境及中国黄河三角洲（YRD）滨海湿地评价建立了概念模型。本文将陈述YRD湿地评价的概念模型。此模型的建立在于确定滨海湿地当前的条件和随时间改善或退化的过程,以及确定优先管理的区域。CGS项目之所以选取YRD作为滨海湿地的研究对象主要是因为它具有重要的生态意义。由于上游来水减少或黄河断流,该区湿地生境十分脆弱。本文提出此概念模型可为今后湿地条件评价指标确定、调查研究活动和数据采集提供指导。通过该模型的构建,使环境变化可用具体指标来度量,从而服务于滨海湿地生态系统的保护与管理活动。     

华南西部滨海湿地调查及主要成果

通过遥感、单波束测量、地质取样、海水取样、钻探、地下水采集与监测等多种调查手段及工作方法,首次在我国华南西部开展1∶10万滨海湿地地质调查与生态环境评价工作,对滨海湿地类型及分布、滨海海域地形地貌、沉积物环境质量、海水环境质量、生态地质演化、地下水化学要素进行综合分析与研究。项目系统查明了该区滨海湿地类型、分布、生态环境现状及其主要影响因素,对湿地生态地质环境质量进行了综合评价,构建了华南西部滨海湿地地质调查技术方法体系和生态地质环境综合评价体系,提出了滨海湿地保护和恢复的建议,为后续我国南方滨海湿地调查提供了示范。     

黄河三角洲滨海湿地健康条件评价

以黄河三角洲滨海湿地系统为研究对象,基于描述滨海湿地健康条件的4项功能,充分考虑滨海湿地生态地质环境系统的特征及其健康响应因素,建立了黄河三角洲滨海湿地健康条件评价的概念模型和指标体系。以统计监测和遥感数据为基础,采用RS和GIS技术,通过栅格化实现分区评价及其结果的优化整合,探讨了黄河三角洲滨海湿地健康的时空分布规律。结果显示：黄河三角洲滨海湿地现状健康条件处于健康的占14.2%,亚健康的占61.9%,一般病态的占23.9%;近期（2010－2015年）,河口三角洲湿地生境质量会逐步改善,向健康方向发展,而北部和南部部分滩涂区及神仙沟流路等局部地区在自然和人为因素的共同作用下,环境质量会有一定的降低;影响黄河三角洲滨海湿地健康条件的主要因素是全球气候变化背景下的区域水循环关键过程及其时空变化、湿地开发等人类负面干扰和黄河下游生态调度。应继续加大黄河下游生态调度的力度、积极实施生态修复工程,以促进黄河三角洲滨海湿地持续健康发展。     

美国海岸带自然资源与生态损害评估及修复工作对中国的启示

海岸带是位于海陆结合部的复杂环境系统,是人类活动最集中的地区。中国大陆海岸线约18000km,涉及沿海11个省,由于经济社会高速发展,海岸带地区的人口、资源、环境矛盾日益突出,面临海岸带资源无序开发、水土污染、滨海湿地退化、海岸侵蚀、地面沉降等一系列生态环境与灾害地质问题,已成为影响生态文明建设的主要问题之一。因此中国持续加大海岸带生态环境保护力度,并提出实施重要生态系统保护和修复重大工程、强化湿地保护和修复等政策措施。美国国家海洋和大气管理局主导的海岸带损害评估及修复计划已实施了近30年,并取得了显著效果,其完善的法律制度体系、规范的损害评估和修复程序、数据集成管理和共享应用等成功经验值得学习借鉴。建议加快完善中国海岸带生态环境损害评估与修复的技术方法体系和制度体系、有序开展海岸带自然资源和生态环境调查、加强海岸带及滨海湿地等重要生态系统的演化和修复技术研究与示范,并构建统一的海岸带基础调查数据库、建立海岸带监测预警体系。     

生态水文学研究的奠基之作--<生态水文学>

生态水文学是 90年代以来兴起的一门新兴边缘学科 ,是描述生态格局和生态过程的水文学机制的一门科学 ,是生态学的水文方面 ,是研究植物如何影响水文过程及水文过程如何影响植物分布和生长的水文学和生态学之间的交叉学科。所研究的对象不仅仅局限于湿地生态系统 ,还应该包括其他生态系统 ,如干旱地区的生态系统、森林和疏林生态系统、江河生态系统、湖泊生态系统和水生生态系统等。近 2 0年来 ,水文过程在生态系统中的重要性和植物对水文过程的影响变得越来越明显。任何生态系统格局和生态过程的变化都与水文过程相关联。正确的管理水资源…     

中国主要陆地生态系统服务功能与生态安全

生态系统服务是国际生态学研究的前沿和热点,表现出向生态系统服务机理和区域集成方法两大方向发展的趋势.开展陆地生态系统服务研究,是生态系统恢复、生态功能区划和建立生态补偿机制、保障国家生态安全的重大战略需求.面向国家重大需求和生态系统服务研究的国际前沿,以主要陆地生态系统为对象,"中国主要陆地生态系统服务功能与生态安全"项目拟解决3个科学问题:①生态系统结构-过程-服务功能的相互作用机理;②生态系统服务功能的尺度特征与多尺度关联;③生态系统服务功能评估的指标与模型.通过上述研究,发展生态系统服务研究的理论与方法,为国家的生态建设和环境保护提供科学支撑.     

生态地球化学:从调查实践到应用理论的系统工程

生态地球化学是以多目标区域地球化学调查为基础,以生态地球化学评价、生态地球化学评估、生态地球化学预警和生态地球化学修复为主体的系统工程。文章系统地介绍了我国近年来生态地球化学研究成果,对长江流域河流生态系统、山西农田生态系统,北京城市生态系统,鄱阳湖、洞庭湖、太湖等湖泊湿地生态系统的区域生态地球化学评价进展进行了归纳总结。文章从区域尺度上综述了土壤碳库,土壤元素基准值和土壤背景值,土壤污染等级划分等基础研究方面的进展。面向未来,指出了生态地球化学发展趋势,提出生态地球化学研究需要进一步延伸和发展的领域。     

生态需水的理论内涵探讨

从生态系统水分循环的角度,较系统地探讨了生态需水的理论内涵,对生态系统水资源配置中相关且容易混淆的概念加以辨析,并分析了它们之间的相互关系.研究认为:生态缺水是生态系统水资源配置最直接的依据,而生态需水、生态储水的计算评价则是确定生态缺水的基础.通常,生态系统的水资源配置,必须在区域生态调查的基础上,结合社会经济发展状况,提出生态目标,然后进行生态需水估算、生态储水评价、生态缺水评估,并通过生态用水的可行性分析,最终确定生态保护和建设的水资源配置方案.     

河岸带生态系统综合评价指标体系研究

河岸带是水陆交错带,其生态状况对河流生态系统有着很大的影响。河岸带生态系统综合评价包括:结构稳定性评价、景观适宜性评价、生态健康评价、生态安全性评价等。建立合理有效的河岸带生态系统综合评价指标体系是河岸带生态系统综合评价的基础。河岸带生态系统综合评价指标体系分为4个层次:总目标层、子目标层、准则层和指标层。     

北京延庆世界地质公园生态系统服务价值评价和生态地质调查工作建议

保护区域生态环境是世界地质公园主要功能之一。建立世界地质公园有利于促进区域生态环境保护,促进人与自然和谐共生。研究世界地质公园的生态系统服务价值可为提升世界地质公园的生态功能提供技术支撑。基于Costanza等的全球生态系统服务价值单价模型,建立了中国生态系统服务价值单价,并以延庆世界地质公园为例,运用GlobeLand30数据和ArcGIS软件对2000—2020年间延庆世界地质公园及邻区的生态系统服务价值进行评估。近20年间延庆世界地质公园的生态系统服务总价值基本保持稳定,2000年、2010年和2020年延庆世界地质公园园区生态系统服务价值分别为3040百万元人民币、3103百万元人民币和3086百万元人民币;在园区各类生态系统服务价值中以森林、草原和农田生态系统服务价值为主,占生态系统服务总价值的96%以上。针对园区生态系统特点,提出生态地质调查和生态保护建议：一是加强园区林分组成、林分结构、林分质量和林地土壤调查,提高森林生态系统质量;二是开展湿地地下水和水土流失监测,防止湿地进一步萎缩;三是连通妫水河流域和官厅水库水系,维护河流生态流量;四是基于系统观开展园区生态地质调查,...     

Causes and Consequences of Ecosystem Service Regionalization in a Coastal Suburban Watershed

The demand for ecosystem services and the ability of natural ecosystems to provide those services evolve over time as population, land use, and management practices change. Regionalization of ecosystem service activity, or the expansion of the area providing ecosystem services to a population, is a common response in densely populated coastal regions, with important consequences for watershed water and nitrogen (N) fluxes to the coastal zone. We link biophysical and historical information to explore the causes and consequences of change in ecosystem service activity—focusing on water provisioning and N regulation—from 1850 to 2010 in a coastal suburban watershed, the Ipswich River watershed in northeastern Massachusetts, USA. Net interbasin water transfers started in the late 1800s due to regionalization of water supply for use by larger populations living outside the Ipswich watershed boundaries, reaching a peak in the mid-1980s. Over much of the twentieth century, about 20 % of river runoff was diverted from reaching the estuary, with greater proportions during drought years. Ongoing regionalization of water supply has contributed to recent declines in diversions, influenced by socioecological feedbacks resulting from the river drying and fish kills. Similarly, the N budget has been greatly perturbed since the suburban era began in the 1950s due to food and lawn fertilizer imports and human waste release. However, natural ecosystems are able to remove most of this anthropogenic N, mitigating impacts on the coastal zone. We propose a conceptual model whereby the amount and type of ecosystem services provided by coastal watersheds in urban regions expand and contract over time as regional population expands and ecosystem services are regionalized. We hypothesize that suburban watersheds can be hotspots of ecosystem service sources because they retain sufficient ecosystem function to still produce services that meet increasing demand from the local population and nearby urban centers. Historical reconstruction of ecosystem service activity provides a perspective that may help to better understand coupled human–natural system processes and lead to more sustainable management of coastal ecosystems.     

海岸带陆海相互作用(LOICZ)研究及我们的策略

介绍了全球变化研究中关于“海岸带”的定义，海岸带在地球系统研究中的重要地位及其生态系统的脆弱性。我国海岸带地跨三大气候带，海岸类型多种多样，不但有黄河、长江等大河入海，每年有巨大的向海物质通量（包括从大气中的粉尘输入），有宽阔的陆架，有陆架区和近洋之间强烈的物质和能量交换，而且沿海人口密集，大河流域经济活动频繁，人类活动和自然因素冲突集中。近年来海岸带环境和生态系统已经发生了巨大变化。今后，在全球变化条件下为使我国的海岸带环境和生态系统进入良性循环和制定科学的长期管理政策，亟待通过陆海相互作用研究提高对其未来变化的预测能力。文中根据国际ＬＯＩＣＺ运行计划和我国的特点，提出开展我国ＬＯＩＣＺ研究的策略和主要科学问题。     

基于生态工程的海岸带全球变化适应性防护策略

在全球变化导致的海平面上升和灾害性气候等压力下,我国海岸带风暴潮、海岸侵蚀、地面沉降等灾害发生频率和强度正在增加,对海岸防护体系的需求日益提高。传统海岸防护工程维护成本高,更新困难,而且可能造成地面沉降、水质恶化、生态退化、渔业资源衰退等后果。基于生态工程的海岸防护提供了抵御海岸带灾害的新理念。修复和重建沙滩、红树林、沼泽湿地、珊瑚礁等海岸带生态系统,可以起到消浪、蓄积泥沙、抬升地面的作用,有效应对全球变化引发的灾害风险,形成更可持续的海岸防护体系。通过分析不同海岸防护技术的优势和限制,认为以生态工程为核心理念构建和管理我国海岸防护体系,才能起到保障社会经济发展和维持生态健康的最佳效果。     

Modeling of thermal pollution in coastal area and its economical and environmental assessment

The Persian Gulf is one of the aquatic ecosystems which has recently faced with different pollutions. Cooling water discharges due to various industries such as power plants can cause important disorders on present ecosystem balance because of its high temperature. Obviously, due to thermal pollution, a great number of aquatic creatures face with a new situation that they can not tolerate. Thermal pollution leads to their migration, creates a potential for new coming species which in turn can thoroughly change the marine ecosystem feature. The other impacts of this phenomenon are: disorders in reproduction, nourishment and other biological habits. In this research, thermal pollution due to Bandar Abbas Thermal Power Plant (BATP) development plan was modeled using MIKE21 software. In order to avoid a decrease on the power plant efficiency in development plan, the distance between inlet and outlet was determined by comparing the results of different scenarios and economical aspects. After determining the distance between inlet and outlet, the water temperature in the coastal area was compared with standards of Iranian Department of the Environment (DOE). The model results represent that the water temperature, in Bandar Abbas coastal area, exceeds than the permissible limit (3 °C) in a distance equal to 200 m. far from the discharging location, and in order to reduce its harmful impacts, some suggestions are made to reduce the associated thermal pollution.     

Impacts of Coastal Land Use and Shoreline Armoring on Estuarine Ecosystems: an Introduction to a Special Issue

The nearshore land-water interface is an important ecological zone that faces anthropogenic pressure from development in coastal regions throughout the world. Coastal waters and estuaries like Chesapeake Bay receive and process land discharges loaded with anthropogenic nutrients and other pollutants that cause eutrophication, hypoxia, and other damage to shallow-water ecosystems. In addition, shorelines are increasingly armored with bulkhead (seawall), riprap, and other structures to protect human infrastructure against the threats of sea-level rise, storm surge, and erosion. Armoring can further influence estuarine and nearshore marine ecosystem functions by degrading water quality, spreading invasive species, and destroying ecologically valuable habitat. These detrimental effects on ecosystem function have ramifications for ecologically and economically important flora and fauna. This special issue of Estuaries and Coasts explores the interacting effects of coastal land use and shoreline armoring on estuarine and coastal marine ecosystems. The majority of papers focus on the Chesapeake Bay region, USA, where 50 major tributaries and an extensive watershed (~ 167,000 km²), provide an ideal model to examine the impacts of human activities at scales ranging from the local shoreline to the entire watershed. The papers consider the influence of watershed land use and natural versus armored shorelines on ecosystem properties and processes as well as on key natural resources.     

Impact of storm runoff from tropical watersheds on coastal water quality and productivity

Storm runoff in the steep watersheds in Hawaii leads to sediment and freshwater pulses to coastal waters that quickly affect nearshore water quality. This is particularly true in semi-enclosed embayments, such as Kaneohe Bay, Oahu, where water has a relatively long residence time compared to more open coastal areas of the islands. In this paper the authors discuss water quality and productivity in Kaneohe Bay after back-to-back rain events in late November and early December 2003, following a particularly dry summer. The short-term biogeochemical response of coastal waters and the ecosystem to runoff and physical forcing was evaluated through a combination of continuous in situ measurements and adaptive synoptic sampling carried out on a variety of temporal and spatial scales.     

Resource degradation and livelihood in the coastal region of Bangladesh

A study was conducted in four selected upazilas under four coastal districts through participatory rural appraisal (PRA), household survey and monitoring, sampling, focal group discussions, personal interview, onfarm field visits, institutional consultations, and secondary information. The investigation revealed that the valuable natural resources of the whole region are at the verge of serious degradation. Various causes have been identified, which are responsible for degradation of both resources and production environments. These causes include human population growth, coastal embankment, upstream withdrawal of Ganges water, brackish water shrimp farming, salt production, use of agro-chemicals, industrial activities, commercial activities, over-exploitation, etc. The study also showed that the degradation of natural resources is the reason behind the squeezing of historically dominant livelihood opportunities of the coastal communities. The current scenarios of the coastal ecosystem urge necessary steps to be taken for sustainable management of valuable resources and to create alternative livelihood opportunities for the coastal communities.     

Tidal effects on groundwater dynamics in shallow coastal aquifers—southeast coast of Tamilnadu,India

Tides play a significant role in the coastal environment; the mangroves, back waters, creeks, and the coastal groundwater interface. Tidal range has been calculated by using TIDECAL software. This study attempts to find the relation between water table condition and tides in the shallow coastal aquifers. The study was conducted by selecting 12 open wells along the coast of the southern part of Cuddalore to the northern part of Nagapattinam district of Tamilnadu. Observations were made in situ for water table fluctuation, dissolved oxygen (DO), and electrical conductivity (EC) for 24 h during full moon (FM) and new moon (NM) of every 2 h. The present study shows the relationship between tidal variations with respect to water table fluctuations and helps to understand the behavior of DO and EC. An interpolation technique, inverse distance weighted (IDW) method was used to obtain the spatial distribution map. The temporal and the spatial relationships between water table fluctuation, EC, and DO were also used in order to understand the coastal ecosystem in the natural environment.     

A revised dynamic model for suspended particulate matter (SPM) in coastal areas

This paper presents a general, process-based model for suspended particulate matter (SPM) in defined coastal areas (the ecosystem scale). The model is based on ordinary differential equations and the calculation time (dt) is 1 month to reflect seasonal variations. The model has been tested using data from 17 Baltic coastal areas of different character and shown to predict mean monthly SPM-concentrations in water and Secchi depth (a measure of water clarity) very well (generally within the uncertainty bands given by the empirical data). The model is based on processes regulating inflow, outflow and internal fluxes. The separation between the surface-water layer and the deep-water layer is not done in the traditional manner from water temperature data but from sedimentological criteria (from the wave base which regulates where wind/wave-induced resuspension occurs). The model calculates the primary production of SPM (within the coastal areas), resuspension, sedimentation, mixing, mineralization and retention of SPM. The SPM-model is simple to apply in practice since all driving variables may be readily accessed from maps or regular monitoring programs. The model has also been extensively tested by means of sensitivity and uncertainty tests and the most important factor regulating model predictions of SPM-concentrations in coastal water is generally the value used for the SPM-concentration in the sea outside the given coastal area. The obligatory driving variables include four morphometric parameters (coastal area, section area, mean and maximum depth), latitude (to predict surface water and deep water temperatures, stratification and mixing), salinity, chlorophyll and the Secchi depth or SPM-concentration in the sea outside the given coastal area. Many of the structures in the model are general and could potentially be used for coastal areas other than those included in this study, e.g., for open coasts, estuaries or areas influenced by tidal variations.