基于管理目标的黄河三角洲湿地生态需水量

独特的地理位置和气候特征 ,使黄河三角洲湿地自然保护区孕育了丰富的自然资源和生物多样性。然而近些年来由于黄河上、中游开发不断 ,砍伐、引水工程等引发了下游特别是河口三角洲一系列的生态问题。表现在水资源紧缺、水体污染以及生物多样性减少等。根据黄河三角洲湿地自然保护区的现实问题以及 Ram sar公约要求 ,确定了黄河三角洲湿地自然保护区管理目标即保护新生湿地和鸟类资源 ,栖息地恢复与保护 ,生态系统功能与过程的维持等 3个层次的目标。通过分析湿地生物和水量的相关性 ,计算了不同层次管理目标的黄河三角洲湿地生态需水量 ,即在不考虑输沙用水的情况下 ,黄河三角洲湿地最小生态需水量、适宜需水量和理想需水量分别为 4 0 .95× 10 8m3、5 2 .4 5× 10 8m3和 6 7.93× 10 8m3;在考虑输沙用水的情况下 ,湿地最小生态需水量、适宜需水量和理想需水量分别为 190 .95× 10 8m3、2 0 2 .4 5× 10 8m3和 2 17.93× 10 8m3。     

人工调水对额济纳胡杨荒漠河岸林繁殖的影响

研究了围封禁牧条件下人工调控黑河水文过程对额济纳胡杨荒漠河岸林繁殖的影响。结果表明:在分水实施的3a中,胡杨主要靠根蘖繁殖更新,种子繁殖几乎不存在。在没有放牧干扰的条件下,不同年份之间林窗内胡杨的根蘖繁殖差异明显,胡杨幼苗个体密度平均为(213.9±112.5)株/100m2,其中1龄为(27.5±18.8)株/100m2,2龄为(113.8±67.7)株/100m2,3龄为(71.0±73.9)株/100m2。胡杨幼苗的丛密度平均为(108.3±56.0)丛/100m2,其中1龄为(19.2±13.9)丛/100m2,2龄为(59.0±37.8)丛/100m2,3龄为(29.8±22.8)丛/100m2。这种差异与当年的生态水文条件有关。划分的整体、大林窗、小林窗3种类型中,大林窗内2龄胡杨幼苗的根蘖繁殖更新受到了距样方最近和最远母树距离的影响。在生态水文条件较好的年份(2龄苗对应于2002年),在距母树较远的地方根蘖繁殖最容易发生。在其它林窗中,胡杨根蘖繁殖主要受林窗生境如环样方母树株数(Tn)、距样方最近母树距离(Nd)、距样方最远母树距离(Fd)和林窗面积(Ga)等因子的综合影响,任何一个因子的单独影响都不显著。总之,本研究的初步结论是黑河分水工程实施对胡杨的繁殖更新无疑是有利的,但前提是消除放牧等干扰因素的影响。     

An Integrated Case Study for Evaluating the Impacts of an Oil Refinery Effluent on Aquatic Biota in the Delaware River: Introduction,Study Approach,and Objectives

This is the first in a series of article presenting results from a case study designed to assess the impacts of an oil refinery effluent [primarily polynuclear aromatic hydrocarbons (PAHs)] on aquatic biota in the Delaware River. During the course of the study, the oil refinery was owned by Motiva Enterprises LLC. This article provides background information on the study area, the study approach and objectives. The specific objectives of this multiyear study were to: (1) measure water column concentrations of PAHs and other contaminants (i.e., metals) in Motiva's effluent and intake canal and selected Delaware River sites; (2) assess fate and transport issues associated with the Refinery effluent; (3) characterize sediment PAHs, total organic carbon (TOC), and grain size distributions in the discharge canal, near-field, mid-field and far-field areas of the Refinery to aid in the selection of Triad sample sites (including reference areas); (4) conduct Triad studies (chemical characterizations, sediment toxicity assessments, and benthic community characterizations) at selected study sites during the spring and summer of 2001 and 2002; (5) perform fingerprinting of PAHs in Motiva's effluent to differentiate Motiva-related PAHs in sediment and biota from other sources; (6) assess bioavailability of PAHs, PCBs, and metals by using resident bivalve studies; (7) conduct long-term coring to determine potential impact of past non-complying discharges; and (8) integrate and analyze all study components to address the research goals. The results from objectives 1, 2, and 3 are briefly summarized in this series of articles whereas the other five objectives are the subject of the various papers presented in this volume.     

An Integrated Case Study for Evaluating the Impacts of an Oil Refinery Effluent on Aquatic Biota in the Delaware River: Advanced Chemical Fingerprinting of PAHs

More than one thousand samples were collected and analyzed to evaluate the potential impact of Motiva's oil refinery effluent on the receiving water, sediment, and biota of the Delaware River. The data collected from these samples were used with advanced chemical fingerprinting of polycyclic aromatic hydrocarbons (PAHs) in Motiva's oil refinery effluent to differentiate Motiva-related PAHs in sediment and biota from other sources. The PAHs released from the refinery between 1999 and 2002 were dominated by petrogenic 4-ring PAHs. Specifically, the refinery signature exhibited relatively high levels of fluoranthenes/pyrenes with two (FP2) and three (FP3) alkyl groups and benz(a)anthracene/chrysenes with two (BC2), three (BC3), and four (BC4) alkyl groups. This PAH signature, attributed to accelerated degradation of low molecular weight PAHs in the Motiva wastewater treatment plant, exhibited little variability over time relative to the background patterns in the Delaware River. This distinctive feature of the Motiva effluent allowed the identification of this source in other samples. Water and sediment samples identified a range of PAH characteristics associated with the Delaware River urban background signature. These characteristics included varying levels of 2- to 3-ring PAHs (likely from weathered automotive fuel, marine fuel, or bilge tank discharges), pyrogenic 4- to 6-ring PAHs (from partially combusted organic material like soot), and perylene (diagenetic product of terrestrial plant decomposition). The Motiva hydrocarbon signature was only evident at moderate to low levels in selected near-field sampling stations for sediment, bivalves, and effluent/nearfield water. PAHs in the river sediments beyond the near-field area were consistently associated with samples containing the Delaware River urban background signature, and exhibited little to no effect from the Refinery.     

An Integrated Case Study for Evaluating the Impacts of an Oil Refinery Effluent on Aquatic Biota in the Delaware River: Integration and Analysis of Study Components

A series of statistical and graphical techniques incorporating a “weight of evidence” approach were used to interpret results from an integrated Triad case study designed to determine potential environmental impacts to aquatic biota in the Delaware River that may be linked to PAHs found in Motiva's oil refinery effluent. Sediment concentrations of various metals, PCBs and LMW PAHs exceeding both ERL and ERM sediment quality guidelines (SQGs) were reported in the study area. However, most chemical contaminants did not exceed their respective SQGs. Results from a long-term sediment coring study indicated that there was no evidence of significant historical PAH contamination of sediments related to Motiva's exceedences. PAHs comprising the Motiva “fingerprint” were found in the surficial sediments at four near-field sites but non-Motiva PAH concentrations (background) were shown to be significantly higher at other far-field sites (non-Motiva influence). Chronic sediment toxicity appears to have significant relationships to the patterns of most PAH isomers, certain PCB isomers, and certain metals. However, sediment toxicity does not appear to be related to the PAH isomers that are characteristic of Motiva's effluent nor to the near-field sites. Impacted benthic communities were reported in the study area, primarily at one near-field and two far-field sites. However, there were no apparent relationships between benthic community health and sediment contaminants. The status of benthic communities does not appear to be related to PAHs derived from the Motiva effluent. The “weight of evidence” analysis developed from a systematic and comprehensive series of statistical and graphical assessments indicates that, although the study area displayed some degree of sediment contamination, chronic sediment toxicity, and benthic health impacts, these environmental effects generally could not be related to Motiva's exceedences.     

Range expansion of quagga mussels Dreissena rostriformis bugensis in the Volga River and Caspian Sea basin

In 1992, we discovered populations of the nonindigenous quagga mussel Dreissena rostriformis bugensis in the middle reaches of the Volga River. The same species was found in samples collected between 1994 and 1997 in the Volga delta and in shallow areas of the Northern Caspian Sea. D. r. bugensis always co-occurred with its more widespread congener, the zebra mussel D. polymorpha (Pallas 1771). The quagga mussel's contribution to total Dreissena abundance increased over time in the middle Volga reservoirs and Volga River delta. D. r. bugensis was common in the Volga portion of Rybinsk Reservoir during 1997 and, by 2000, it was in Uglich, Rybinsk and Gorky Reservoirs on the Upper Volga River. D. r. bugensis was neither found in Ivankov Reservoir, nor in terminal sections of the Volga-Baltic corridor including the eastern Gulf of Finland. Presently, all but the northern-most regions of the Volga River have been colonized by D. r. bugensis. We hypothesize that its introduction into the Volga River and Caspian basin occurred no later than the late 1980s via commercial shipping that utilized the Volga-Don waterway to navigate between the source Black-Azov Sea region and recipient areas on the Volga River. Larval drift likely contributed to establishment of populations at downstream sites, while human-mediated vectors may be responsible for introductions to upstream locations on the Volga River. We anticipate continued northward dispersal in conjunction with shipping activities.     

Longitudinal Spatial Patterns of Bacterial Production and Respiration in a Large River–Estuary: Implications for Ecosystem Carbon Consumption

Rivers and estuaries transport organic carbon (C) from terrestrial and freshwater ecosystems to the marine environment. During this transit, bacteria actively utilize and transform organic C, but few studies have measured detailed spatial variation in rates of bacterial respiration (BR) and production (BP). We measured BP at 39 stations and BR at 12 stations at monthly intervals along a 200-km reach of the tidal Hudson River. We observed strong repeatable spatial patterns for both BP and BR, with rates declining in the downstream direction. Bacterial Production had much greater dynamic range of spatial variation than BR. We used the detailed seasonal and spatial data on BP and BR to measure the total C demand of bacteria at several scales. We calculated volumetric and areal rates for 12 sections of the Hudson, as well as the total C utilization. Volumetric BR averaged 20 g-C-m^–3 y^–1, but it was highest in the most upstream section at 30 g C m^–3 y^–1. Areal rates averaged over the entire river were 174 g C m^–2 y^–1, but they were 318 g C m^–2 y^–1 in the deepest section of the river, indicating the importance of morphometric variation. Total bacterial C demand increased downriver with increasing total volume. Overall, bacteria in the freshwater section of the river consumed approximately 18–25.5 × 10⁹ g C y^–1, about 20% of the total organic C load.     

珠江口超微型浮游植物时空分布及其与环境因子的关系

对珠江口及近海区域进行了夏季和冬季超微型浮游植物(0.2-3μm)调查,分析了其时空分布及其与环境因子的关系.夏季,珠江口浮游植物密度与磷酸盐成显著正相关,且N/P远远高于30,表明浮游植物受到P限制.夏季超微型藻数量比冬季高一个数量级,其丰度与盐度成显著正相关而和营养盐(溶解性无机氮(DIN),PO4-P,SiO4-Si)显著负相关,表明珠江口超微型藻受到径流的负面影响,表现出其数量在虎门附近海域低,随着咸淡水混合程度的加剧逐渐增大的分布特征;超微型浮游植物叶绿素a在总叶绿素a中的比例也表现为河口上游低,到万山群岛附近海域达到最大,推测近海高光照、低营养盐更适宜超微型藻的生长,同时也说明超微型浮游植物适应贫营养环境的生态特点.     

基于综合气象干旱指数的石羊河流域近50年气象干旱特征分析

借助数理统计理论和GIS空间分析技术,利用综合气象干旱指数(composite index,CI),根据石羊河流域5个气象站1961-2010年实测气象资料,对石羊河流域近50a的干旱在时空上的变化特征进行分析.首先计算了各站历年逐日的CI指数,统计近50 a各站点出现的干旱过程、各时段的干旱事件,在此基础上分析了石羊河流域干旱发生的频率、覆盖范围和强度和不同等级干旱发生的多年平均日数.分析结果表明:(1)石羊河流域四季干旱发生频率均呈现北高南低的空间分布规律;在四季中,夏季干旱发生频率最高,冬季频率最低;极小值都在乌鞘岭,极大值略有不同:春、夏、冬季干旱发生频率极大值在民勤,秋季极大值在武威.(2)石羊河流域有大范围干旱发生的年份夏季和秋季较多分别有22 a、11a,冬季最少只有4a.(3)石羊河流域不同等级干旱日数总体上呈现夏季多冬季少、北部多南部少的规律,和降水量的空间分布有较好的负相关性.(4)干旱发生成因除了主要受东亚季风和西南季风的影响外,还应考虑到径流的影响.研究结果与实际情况相符,可为相关部门根据本地区干旱特征制定相应抗旱对策提供理论依据.     

互花米草与短叶茳芏枯落物分解过程中碳氮磷化学计量学特征

为了揭示植物枯落物分解过程中元素生态化学计量学特征,对闽江河口湿地互花米草和短叶茳芏枯落物分解过程进行了测定.结果表明:整个分解期间内(2007年1-10月),在近潮沟生境和远潮沟生境,互花米草枯落物分解速率、氮磷养分含量低于短叶茳芏枯落物,但热值高于短叶茳芏枯落物;近潮沟生境,互花米草和短叶茳芏枯落物分解过程中平均C/N、C/P和N/P分别为70.5和34.7,2285.8和1210.7,32.8和35.4;远潮沟生境互花米草和短叶茳芏枯落物分解过程中平均C/N、C/P和N/P分别为72.7和33.2,2519.2和1167.0,34.0和35.9,两种生境下均表现为互花米草具有较高的C/N、C/P和较低的N/P;互花米草枯落物分解过程中具有较高的C/N和C/P,其分解速率较低.