厦门海湾型城市发展累积生态效应动态评价

港湾地区的快速城市化使港湾湿地生态系统及其生产功能和服务功能发生急剧改变并在时间和空间上产生累积效应。以具有典型意义的厦门港湾湿地为研究对象,采用系统动力学方法,定性分析系统因子因果反馈关系,筛选港湾湿地水动力环境、水质环境、生物生态环境、地形地貌、景观环境作为厦门海湾型城市发展的累积生态效应指示因子。通过调整模型的相关政策变量及组合,仿真模拟了不同发展策略下厦门港湾湿地的累积生态效应,并结合灰色评估模型对累积生态效应进行量化,得出不同发展策略的累积生态效应指数,并对模型进行了模型验证与敏感性分析。设计三大未来发展情景,即基准情景（BS）、发展规划情景（S1）、生态城市发展情景（S2）。模型模拟结果表明：基准情景下2020年厦门城市发展对港湾湿地的累积生态效应指数为0.61;发展规划情景下对港湾湿地的累积生态效应指数为0.37;生态城市发展情景下对港湾湿地的累积生态效应指数为0.30,相对基准情景下可减少累积生态效应50%,建议厦门市按照海湾型生态城市模式进行发展。     

滨海湿地植物种群Allee效应驱动机制研究进展

Allee效应是指生物个体适应度与种群规模或密度之间呈正向关联的现象,因与植物种群动态和种群灭绝密切相关而受到生态学家的普遍重视。阐释多重胁迫下滨海湿地植物种群响应机制,从保护生物多样性和维持生态系统稳定性层面发展系统性生态修复措施成为相关研究关注的重点。本研究分别从遗传过程、花粉扩散过程和生物互作关系不同层面,总结分析了植物种群Allee效应驱动机制的研究进展。一方面,植物因遗传过程中近交衰退、遗传变异丧失、有害突变累积等遗传结构改变造成繁殖失败而引发Allee效应;另一方面,植物花粉扩散过程和动植物互作关系影响下的花粉限制也通过影响植物种群繁殖力成为驱动Allee效应的关键因素。滨海湿地水盐梯度变异及格局破碎化影响下,植物种群遭受Allee效应的风险需引起关注,维持滨海湿地植物种群适宜分布格局和生物连通过程成为缓解Allee效应的重要手段。结合生理学与化学生态学研究手段和长时间尺度动态监测技术,有助于进一步阐释环境及生物等多重胁迫下Allee效应的非线性驱动机制。     

莱州湾南岸滨海湿地的景观格局变化及累积环境效应

在湿地景观类型分类基础上,利用遥感技术及GIS技术提取了1987和2002年莱州湾南岸滨海湿地Landsat 5、Landsat 7 卫星假彩色合成影像的空间属性数据,利用斑块动态度、斑块密度指数、景观多样性指数、斑块破碎化指数研究了湿地景观格局变化及其累积环境效应.结果表明,15年间莱州湾南岸滨海湿地景观总面积基本不变,但自然湿地总面积减少了49.1%,减少的自然湿地主要转化为养殖池、盐田等人工湿地.湿地景观格局的变化还表现为景观多样性指数下降、斑块破碎化指数升高.湿地景观格局变化引起自然湿地的总净初级生产量下降,环境净化功能、抗御自然灾害功能降低,陆地中生植物、旱生植物外来及有害植物侵入湿地,湿地生态系统服务价值下降等累积环境效应.     

湿地植物间竞争和促进互作的研究进展

湿地植物间关系主要包括竞争(负效应)和促进(正效应),是湿地生态研究的核心内容之一,对植物分布、群落和生态系统组成具有重要的调节作用。本文阐述了竞争理论及影响湿地植物竞争能力的主要因素,介绍了促进作用及其在湿地生态系统中的形成机理,详细综述了植物间关系转变的主要理论以及影响湿地植物间关系转变的主要环境因子(水位、温度、盐度、生物因子)。随着环境胁迫强度的增加,植物间关系一般会从竞争转变为促进作用,即优越条件下以竞争为主,胁迫条件下以促进作用为主。针对当前湿地植物间关系的研究多集中于滨海盐生湿地,类型较单一的情况,认为将来需加强对淡水湿地、河口湿地等各类系统的研究。同时,加强湿地植物间关系转变的生物学机制、时间效应,对新研究方法的探索等方面的研究也有助于进一步理解湿地植物间竞争和促进作用的发生及转变机理。     

城市湖泊湿地温湿效应——以武汉市为例

选择武汉城市三环内主城区14块湖泊湿地为研究对象,采用小尺度定量测定的方法,研究城市湖泊湿地与温湿效应间的关系。结果表明:(1)城市湿地温度值与面积指数、距离指数呈显著负相关,与景观形状指数呈显著正相关(P0.05);湿度值与面积指数、距离指数、环境类型指数呈显著正相关,与景观形状指数呈显著负相关(P0.05)。其中面积指数的贡献值最大。(2)14块湖泊湿地的降温增湿效应排序为湖泊11—14湖泊6—10湖泊1—5。当湖泊湿地面积为9.2—12.2 hm2时,其降温增湿效应明显;当湖泊湿地面积为308.4hm2左右时,降温效应显著且趋于稳定,湖泊湿地面积为67.6hm2左右时,增湿效应显著且趋于稳定(P0.05)。当湖泊湿地面积达到临界值之后,多斑块离散型(Dispersive)湖泊湿地布局对整个城市环境的降温增湿效应更为显著。     

湿地氮素传输过程研究进展

综述了湿地氮素传输过程的研究进展。湿地氮素传输过程包括物理过程、化学过程和生物过程 ,与土壤、植物的发生、发育紧密联系在一起 ,并形成了空气 -水 -土 -生命系统中物质循环和能量流动的复杂网络。湿地硝态氮的淋失直接威胁着湿地地下水水质安全 ,N2 O源汇转变受土壤和水体等环境因子的制约 ,氨挥发则与水体 p H值密切相关排放。湿地氮素的化学转化过程是矿质养分供给和 N2 O产生的主要机制 ,受环境因子和人类活动干扰的影响 ;动力学模型可用于描述氮素的化学转化过程。湿地植物的吸收和累积以及微生物的分解过程是湿地氮素循环的重要环节。最后分析了当前国内外研究中存在的不足 ,并对未来研究的重点领域进行了展望     

北京典型城市湿地小气候效应时空变化特征

在北京市选择8个典型湿地为研究样本,对水平方向上温、湿度和负氧离子浓度的变化进行测定,研究湿地对城市温度、湿度和负氧离子浓度的影响。结果表明:湿地对城市局部环境具有明显的降温、增湿和增负氧离子浓度的作用,且距离水体越近小气候效应越强,其中温度与距离显著正相关(R2≥0.81,P0.01),而湿度和负氧离子浓度均与距离显著负相关(R2≥0.83,P0.01);与距离湿地5 km处观测值相比,湿地最高可以降温4.4℃,增湿12.8%,增加负氧离子浓度27.2%;湖泊湿地对局部环境的降温和增湿效果比河流湿地的降温增湿效应更加明显,两者分别相差大约1℃和5%左右;因此,从城市规划与建设的角度看,在增加湿地面积的同时,也要根据湿地用途相应地考虑不同的湿地类型,使湿地改善城市生态环境的效应得到充分发挥。     

湿地植物的丛枝菌根（AM）

随着对湿地重要性认识的增加,湿地植物的丛枝菌根（arbuscular mycorrhiza,AM）结构研究受到了关注。研究表明,AM结构在多种湿地类型和湿地植被类型中存在,但AM形成受植被生长地水文状况的影响;从湿地植物上的AM真菌种类看,球囊霉属（Glomus）是湿地环境的常有属。同陆生植物相比,有关湿地植物AM结构的研究尽管已取得了一些进展,但还有很大差距,尤其在我国还几乎处于空白状态。鉴此,从形成AM的湿地植被类型、湿地环境中的AM真菌种类、AM对湿地植物生长的影响,以及影响湿地植物AM形成的因素等方面进行了详细阐述,并对今后的研究方向做了展望,以期为我国开展湿地植物AM结构研究提供参考。     

湿地植物根系泌氧及其在自然基质中的扩散效应研究进展

湿地植物根系径向泌氧(ROL)是构造根际氧化-还原异质微生态系统的核心要素,其扩散层为好氧、厌氧微生物提供了良好生境并促进其代谢活动,使湿地植物根际成为有机物降解、物质循环及生命活动最为强烈的场所,已有成果证明湿地植物根系ROL的强弱与污染物的去除效果密切相关。因此,开展湿地植物根系ROL及其在自然基质中的扩散效应研究,对于了解湿地植物根系ROL机理及其根际氧环境特征,进而发挥湿地植物的污染去除功能具有十分重要的意义。基于此,首先归纳了湿地植物根系ROL特征及其受影响机制的研究现状,而后从种属差异、时空分布及对微生物的影响等方面对根系ROL在自然基质中的扩散效应国内外研究成果进行了总结,最终根据研究现状与不足对今后的研究方向进行了简要展望。创新之处在于:1)提出影响根系氧供给及氧输送释放通道的环境、生物等因素,阐述了其对根系ROL的影响机制;2)着重阐述了目前研究较少提及的根系ROL扩散效应测定方法。     

闽江河口芦苇与短叶茳芏空间扩展植物-土壤系统硫含量变化特征

2015年7月,选取闽江河口鳝鱼滩的芦苇湿地、短叶茳芏湿地以及二者交错带湿地为对象,研究了两种植被空间扩展过程中植物-土壤系统全硫(TS)含量的空间变化特征。结果表明,不同湿地表层土壤的TS含量表现为交错带湿地短叶茳芏湿地芦苇湿地,其差异主要与两种植被的空间扩展改变了交错带湿地土壤的质地及有机质等参数,进而对硫的迁移及转化过程产生重要影响有关;交错带不同植被的根系分布及其对土壤硫养分的竞争导致土壤TS含量的水平和垂直变异性均较芦苇或短叶茳芏纯群落发生较大改变,其土壤的TS含量受芦苇根系分布的影响更为明显,含量和储量均在深层土壤中较高。芦苇与短叶茳芏的空间扩展改变了两种植被的株高、密度及生物量分配格局,尽管二者在交错带中的地下生物量分配比均高于纯群落,但芦苇地下空间占据能力要高于短叶茳芏。研究发现,芦苇与短叶茳芏的空间扩展是双向过程,二者在空间扩展中通过不同的硫养分吸收、累积与分配策略适应竞争环境,即交错带湿地中的芦苇通过增加根部对硫养分的累积能力来保持其竞争力,而短叶茳芏则通过拓展地上空间及提高地上器官的硫养分累积能力来抗衡芦苇的空间扩展。     

Human impacts on hydrological health and the provision of ecosystemservices: a case study of the eMthonjeni–Fairview Spring Wetland,Grahamstown, South Africa

Wetland hydrological health and the provision of indirect ecosystem services in the eMthonjeni–Fairview Spring Wetland, Grahamstown, South Africa, were assessed in 2008, using the newly developed wetland assessment tools WET-Health and WET-EcoServices. Variation in health and ecosystem services were assessed over time, based on aerial photograph interpretation and the use of the score sheets in these assessment tools. Hydrological health and indirect ecosystem services of the wetland have been altered since 1949, due to human activities both in the catchment and the wetland. The most significant human intervention on the wetland's hydrological health was the result of road construction and invasion by alien plants. Water use by local residents had an unmeasurable effect on hydrological health. Wetland health is related to the provision of wetland ecosystem services, and cumulative impacts in the catchment and wetland have reduced the provision of many indirect wetland ecosystem services.     

空间约束背景下海岸带湿地保护边界研究

湿地保护边界划定是维护湿地可持续发展的基础前提,也是协调湿地保护与农地利用、城镇发展土地配置与空间布局的必经途径。研究从湿地保护边界的"源-汇"生态景观互动视角着眼,明晰了湿地保护源及保护优先等级,建构了空间约束评价与生态断界来刻画汇景观空间层次分异,借助最小累积阻力模型测度与划分了湿地保护边界及其类型。研究发现:(1)基于多重因素的空间约束评价与湿地生态断界的划分,通过最小阻力模型有效地刻画外部因子集成对湿地保护的限制及差异,以量化方式描绘湿地保护所处阻力最小地带,为湿地保护边界划分提供了新的思路。(2)杭州湾南岸生态断界与中高约束的区域占据研究区52.69%比例,无约束地域仅为12.79%,奠定了综合因素空间约束强势的基本格局。加之低度约束区域占据34.53%,显示杭州湾南岸区域多介于高低空间约束性势转换或过渡阶段,压缩了湿地保护的空间。(3)研究划分湿地保护边界范围与缓冲区带为49.11、24.07km~2,面积总和仅占据杭州湾南岸5.47%,湿地保护拓展和弹性调整空间极为有限。除生态断界提供湿地保护的天然边界外,湿地保护界限表现为保育林区、农地延伸型和水源保护型三类。     

Demonstration of an integrated watershed assessment using a three-tiered assessment framework

Watersheds are useful templates for wetland protection and land use planning because they integrate cumulative effects that better inform site-specific management decisions. The goal of this study was to demonstrate application of a three-tiered assessment paradigm in the San Gabriel watershed (Los Angeles County, California) that incorporates monitoring at varying spatial scales and intensities. Data on wetland extent and distribution, habitat condition using rapid assessment, and intensive site monitoring were used to show how different levels of assessment can be used together to provide a deeper contextual understanding of overall wetland condition. Wetland sites in the less developed portions of the watershed were of higher overall condition compared to sites located in the more urbanized portions of the watershed. GIS analysis revealed that percent impervious surface is a useful landscape-scale indicator of riverine wetland condition. Furthermore, rapid assessment metrics were significantly correlated with stressors found at sites. Significant correlations also existed between riverine habitat condition, water chemistry, and benthic macroinvertebrate communities across streams in this watershed. This study highlights the following key concepts: (1) application of a multiple indicator approach at different spatial scales and sampling intensities promotes a better understanding of the causal relationships between land use, wetland condition, and anthropogenic stress, (2) a multi-tiered monitoring approach can provide a cost-effective means of integrating wetland status and trends assessments into routine watershed monitoring programs, and (3) a three tiered approach to monitoring provides wetland managers with an effective organizational tool that can be used to prioritize management activities.     

Changes in mycorrhizal colonization and overall fungal communities across upland and wetland <Emphasis Type="Italic">Acer</Emphasis> forests of the Virginia Coastal Plain

Arbuscular mycorrhiza (AM) are common in the roots of most plants and provide benefits such as enhanced uptake of soil nutrients and water when the environment limits these resources. Two primary factors proposed in the literature as limiting the extent of mycorrhizal colonization of wetland plants are: (1) the low oxygen environment; and (2) the level of available phosphorus. The present study evaluated AM colonization of maple (Acer) roots and the fungal community structure in paired upland/wetland locations in the Virginia Coastal Plain to determine if wetland conditions affected the root fungal community. The range of observed AM colonization, based on 60 samples collected on 11 dates covering 3 years, was from 4 to 55%. Overall, soil redox potential and available phosphorus concentration were not significant in explaining the difference in AM colonization of Acer roots. In fact, the site with the greatest percent colonization in this study was a wetland site. A comparison of fungal diversity between the pooled wetland site communities and the pooled upland site communities was conducted and the difference was significant (p = 0.003), but the upland sites exhibited the lower diversity. Communities from all sites were dissimilar. Geographic location exerted a greater effect over community structure than did upland versus wetland status. This study concludes that the forested wetland environments studied here neither limited AM colonization nor reduced the overall fungal community and in fact may present a more favorable environment for fungal diversity.     

MORTALITY AND DISPERSAL OF RINGED CATTLE EGRETS

Gichuki, CM. 2000. Community participation in the protection of Kenya's wetlands. Ostrich 71 (1 &; 2): 122–125.

In Africa today, many natural ecosystems are threatened with destruction, primarily because of unsustainable exploitation and negative impacts of development activities. Wetlands are prime targets of exploitation because they contain the basic resources, such as water, land, plants and animals, which are commonly used to fuel economic development. In Kenya wetlands support rural economy and up to seven million people depend on them for their livelihood. In addition there is considerable inter-institutional competition for wetland resources, particularly water. While a wetland policy is being developed by the government, widespread damage to wetland ecosystems continues at village level. Community participation in the protection of their own environment and in the conservation of wetland resources has therefore become a crucial strategy for stemming the loss of biological diversity and minimizing damage to the environment.

This paper describes wetland conservation initiatives of several community groups in Kenya during the period 1990 to 1996. The paper outlines some of the projects which the community groups have been undertaking in order to generate income, create job opportunities for the youth and to protect their own environment. The wetland conservation activities and the author's experience while working with these community groups can serve as a suitable model for application in many African countries south of the Sahara.     

Automatization and evaluation of a remote sensing-based indicator for wetland health assessment in East Africa on national and local scales

To avoid wetland degradation and promote sustainable wetlands use, decision-makers and managing institutions need quantified and spatially explicit information on wetland ecosystem condition for policy development and wetland management. Remote sensing holds a significant potential for wetland mapping, inventorying, and monitoring. The Wetland Use Intensity (WUI) indicator, which is not specific to a particular crop and which requires little ancillary data, is based on the Mean Absolute Spectral Dynamics (MASD), which is a cumulative measure of reflectance change across a time series of optical satellite images. It is sensitive to the compound effects of land cover changes caused by different agricultural practices, flooding or burning. The more frequent and intrusive management practices are on the land cover, the stronger the WUI signal. WUI thus serves as a surrogate indicator to measure pressure on wetland ecosystems.We developed a new and automated approach for WUI calculation that is implemented in the Google Earth Engine (GEE) cloud computing environment. Its automatic calculation, use of regular Sentinel-2 derived time series, and automatic cloud and cloud shadow masking renders WUI applicable for wetland management and produces high quality results with minimal user requirements, even under cloudy conditions. For the first time, we quantitatively tested the capacity of WUI to contribute to wetland health assessment in Rwanda on the national and local scale. On the national scale, we analyzed the discriminative power of WUI between different wetland management categories. On the local scale, we evaluated the possible contribution of WUI to a wetland ecosystem health scoring system. The results suggest that the adapted WUI indicator is informative, does not overlap with existing indicators, and is applicable for wetland management. The possibility to measure use intensity reliably and consistently over time with satellite data is useful to stakeholders in wetland management and wetland health monitoring, and can complement established field-based wetland health assessment frameworks.     

Elevated Atmospheric CO<Subscript>2</Subscript> Increases Root Exudation of Carbon in Wetlands: Results from the First Free-Air CO<Subscript>2</Subscript> Enrichment Facility (FACE) in a Marshland

Experiments employing free-air CO₂ enrichment (FACE) facilities have indicated that elevated atmospheric carbon dioxide (eCO₂) stimulates growth in diverse terrestrial ecosystems. Studies of the effects of eCO₂ on wetland plants have indicated a similar response, but these studies were mostly performed in growth chambers. We conducted a 2-year FACE experiment [CO₂ ≈ 582 µmol mol^?1] in a marsh in Spain to test whether the common reed (Phragmites australis) responds to carbon enrichment, as previously reported in other macrophytes. More specifically, we tested the effect of eCO₂ on P. australis growth, photosynthesis, transpiration, and biomass, its effect on modifying plant and soil ratios of carbon, nitrogen, and phosphorus, and whether the strong environmental variability of this wetland modulates these responses. Our findings show that effects of eCO₂ in this wetland environment are more complex than previously believed, probably due to hydrological effects. The effects of eCO₂ on reed plants were cumulative and manifested at the end of the growing season as increased 38–44% instantaneous transpiration efficiency (ratio of net photosynthesis to transpiration), which was dependent on plant age. However, this increase did not result in a significant increase in biomass, because of excessive root exudation of carbon. These observations contrast with previous observations of wetland plants to increased atmospheric CO₂ in growth chambers and shed new light on the role of wetland plants as a carbon sink in the face of global climate change. The combined effects of water stress, eCO₂, and soil carbon processes must be considered when assessing the function of wetlands as a carbon sink under global change scenarios.     

Spatial patterns in small wetland systems: identifying and prioritising wetlands most at risk from environmental and anthropogenic impacts

This study establishes whether analysing the distribution patterns of wetlands could identify key systems that would focus conservation and management decisions, without site-specific data which requires significant logistical and financial resources. In the proposed approach, key wetlands at-risk were identified based on their position in the landscape, through the use of probability modelling and least-cost analyses. The research was based in a semi-arid part of the Eastern Cape, South Africa. The study area has aseasonal rainfall, different land-use zones and an existing spatial dataset, providing an ideal setting to test this method. Wetlands were highly clustered, with higher densities recorded in the south and along larger rivers. Areas that have more-suitable environmental conditions for wetlands were mapped—showing similar patterns to known dense wetland areas. In total, 89 systems were identified as very high-risk, and 414 wetlands were high-risk, to environmental and anthropogenic changes. Seven focal zones were selected by incorporating wetland clusters/hotspots. These zones should be the focus for further research and management that would assess the surrounding environment and the potential effects of land-use or climate changes, and policy adaptation. In summary, this study successfully illustrated the importance of adapting different spatial analytical methods in wetland research, and that desktop studies can be used to focus conservation and management efforts over larger areas.     

Does flooding affect spatiotemporal variation of fish assemblages in temperate floodplain wetlands?

1. Floodplain wetlands are productive components of lowland rivers and are thought to be important habitat and nurseries for many fish species. Fish assemblages inhabiting floodplain wetlands vary considerably through space and time and are largely shaped by wetting/drying cycles, although there is little understanding how many aspects of flooding (e.g. magnitude, timing, duration, frequency) influence the fish assemblages. As a consequence, decisions on flooding of wetlands by managers aimed at restoring native fish assemblages are often based on limited knowledge. 2. This study examined the importance of total duration of flooding on the temporal and spatial dynamics of wetland fish assemblages in the Murray River, in south‐eastern Australia. The study examined: (i) how the abundance of 0+ and 1+ fish varied with wetland, season and the duration of wetland filling; (ii) how environmental parameters, including food production changed in relation to the duration of wetland filling; (iii) changes in condition indices for the most abundant species and (iv) changes in species richness and total abundance over time. 3. The 0+ fish assemblage varied more through space and time than the 1+ assemblage. Longer cumulative river–wetland filling was associated with greater total abundances of newly recruited (0+) fish; this was particularly true for common carp (Cyprinus carpio, alien) and carp gudgeon (Hypseleotris spp., native). The body condition of carp gudgeon also increased with the duration of filling, even though static measures of food production declined. The small flooding events that occurred as part of this study did not translate into measurable improvements in the fish assemblage over the longer term (3 years), but did prevent wetlands from drying and thus maintained these habitats as refuges.