不同电子受体及盐分输入对河口湿地土壤甲烷产生潜力的影响

对闽江河口芦苇(Phragmites australis)湿地土壤甲烷产生潜力及电子受体(硝酸盐,三价铁和硫酸盐)及盐分(氯化钠)输入对其的影响进行了厌氧培养实验及测定。结果表明,芦苇湿地土壤甲烷产生潜力范围是0.0202~0.0871 μg · g^-1 · d^-1,0~10 cm土壤甲烷产生潜力最大;电子受体及盐分的输入对土壤甲烷产生潜力具有抑制作用,3种电子受体对甲烷产生潜力抑制程度从大到小为硝酸盐>三价铁>硫酸盐,不同浓度硝酸盐与三价铁添加后甲烷产生潜力与对照土壤差异显著(P<0.05),而硫酸盐与盐分的添加抑制作用不显著,对于每一种电子受体及盐分其不同浓度处理对甲烷产生潜力的影响差异也不明显(P>0.05)。     

九龙江河口平原晚第四纪硅藻及海平面变化初探

将福建九龙江河口平原ＺＫ５孔剖面细分为４个硅藻段、２４个硅藻带,并结合其他钻孔的微体生物组合特权和年代测定结果等进行分析。研究表明,晚玉木冰期本区海面升降频繁,但大多处于河口港湾环境,这主要是构造沉降所造成的;其间出现３次低海面,均为河流沉积环境。全新世冰后期海水大规模入侵,鼎盛期本区相对海面高出现代海面达５－１０ｍ。     

Photobleaching of fluorescence and the organic carbon concentration in a coastal environment

In order to investigate the photobleaching potential of estuarine waters from different depths and redox conditions and with varying degree of biological activity, filtered, unfiltered and chloroform-poisoned water samples from the Baltic Sea were exposed to ambient sunlight. Fluorescence, at excitation 350 nm and emission 450 nm, was used as an indication of humic substance concentration. Fluorescence and organic carbon concentration were measured at regular time intervals during light exposure. We found that the decrease in humic substance fluorescence can be fitted to an exponential decay function. The fluorescence half-lives were within the range 0.4 – 4.6 days in different water masses, with fluorescence decreasing to between 20% and 60% of initial concentration, respectively. Results from the curve fitting procedure indicate a rest concentration of humic substance fluorescence, similar among the sampled sites, that is resistant to further photochemical degradation. The largest relative decreases in fluorescence were found in deep waters, but samples from deep waters also had a higher fluorescence rest concentration than samples from surface waters. Biological activity was reduced by filtering the samples through 0.2μm pore size filters or adding chloroform. No statistically significant differences were found after 3 days of irradiation between samples with and without treatment to reduce biological activity. The highest initial fluorescence values and the largest fluorescence decrease were found in the anoxic waters of the Gotland Deep. The organic carbon concentrations decreased 3–7% at all stations. The shortest half-life of humic substance, and the largest decrease in organic carbon concentrations, were found in samples from the northern basins of the Baltic Sea.     

海南岛典型河口表层沉积物重金属和多环芳烃的累积和生态风险评价

重金属和多环芳烃具有致畸性、致癌性和致突变性,是生态研究和环境保护领域的热点。海南岛是中国首个生态文明试验区,城市化进程的不断加快会增加河口地区环境保护的压力。昌化江、罗带河和三亚河是海南岛重要的入海河流。目前缺少对昌化江和罗带河沉积物中重金属和多环芳烃的报道,对三亚河的相关研究结果也存在差异。为了解这三条河流河口表层沉积物中重金属和多环芳烃(PAHs)累积特征和生态风险,本文采用电感耦合等离子体质谱/发射光谱法(ICP-MS/OES)、原子荧光光谱法(AFS)测定重金属元素(As、Cd、Cr、Cu、Hg、Ni、Pb和Zn)含量,气相色谱-质谱法(GC-MS)测定PAHs含量。根据污染物组成和相关性探讨其来源,并利用潜在生态风险指数和沉积物环境质量标准进行风险评估。结果表明：①昌化江沉积物中重金属As、Cd、Cr、Cu、Hg、Ni、Pb和Zn的平均值分别为3.24、0.03、7.03、5.33、0.007、3.06、16.9和14.1mg/kg;罗带河对应重金属平均值为4.81、0.02、7.69、4.56、0.010、3.29、18.3和14.7mg/kg;三亚河对应重金属平均值为5.83、0.05、15.3、8.28、0.021、4.91、21.4和29.8mg/kg。除As外,重金属均低于或接近海南岛土壤基准值。三个河口区沉积物中的As以及三亚河中的Cd、Cu具有较高的富集因子,表明受人为因素影响较大,可能与周边农业活动有关;其余重金属具有较低的富集因子和较高的相关性,表明受区域地质背景控制;②昌化江、罗带河、三亚河沉积物中PAHs含量分别为3.48~56.6μg/kg、8.72~56.8μg/kg、6.41~573.9μg/kg,均以中低环为主,表明生物质的低温燃烧是PAHs的主要来源;③生态风险评价结果显示,研究区沉积物没有受到重金属和PAHs污染,均以低生态风险为主。本研究结果可为河口区污染物生态风险防控提供参考。     

利用粗糙集理论进行遥感分类信息提取

以辽宁省双台子河口湿地为研究对象,以Landsat 8和HJ-1-A/HJ-1-B的多时相遥感影像为数据源,根据研究区现状,将研究区分为旱地、芦苇、水田、碱蓬、混合植被、水面、滩涂、居民点、养殖塘九个类型.利用时间序列的归一化植被指数提取植被与非植被的分类阈值,采用粗糙集理论和多时相遥感影像,对植被和非植被分别进行分类规则的获取,建立了研究区决策树分类模型.为了进行精度评价,利用相同的训练点又进行了同样基于像元的最大似然法分类.最后利用混淆矩阵对上述两种方法进行了精度评估,基于粗糙集的决策树分类法与最大似然法总体分类精度分别为93.70%和91.62%,Kappa系数分别为0.92和0.90,两项指标值基于粗糙集理论法均比最大似然法有所提高.这为构建决策树分类模型进行湿地地表分类信息提取提供了一条新的研究思路.     

长江口滨岸湿地沉积物对上覆水体中无机氮的净化能力估算

Estuarine wetlands serve as a natural barrier to remove the land-generated pollut-ants and attenuate the pollutant load from the land to the sea. As one of the most important estuarine wetlands, the Yangtze estuarine wetlands have attracted particular interests in the biogeochemical studies of nutrients. The objectives of this study were to characterize the seasonal and spatial distribution of dissolved inorganic nitrogen (DIN) fluxes across the sediment-water interface; to calculate the total DIN fluxes in a year and different seasons; and to evaluate the DIN removing capability of the sediment in the tidal wetlands of the Yangtze Estuary. The spatial distribution of DIN fluxes shows complicated seasonal variations and spatial differences. The annual DIN fluxes range from -22.22 mmol N m-2 h-1 to 19.54 mmolN m-2 h-1, with an average of -1.48±1.34 mmol N m-2 h-1. The tidal wetlands in the Yangtze Estuary behave as a source of water DIN in spring when DIN is released from sediment into overlying water, and the released amount of DIN is 1.33×104 tons of nitrogen (T N). In sum-mer, autumn and winter, the sediment absorbs the DIN from the overlying water, and the absorbed amounts of DIN are 4.36×104 T N, 6.81×104 T N and 2.24×104 T N, respectively. The average amount of DIN in overlying water of the Yangtze Estuary is 52.6×104 T N yr-1, and the perennial average amount of DIN absorbed from the overlying water by the sediment is 12.1×104 T N yr-1. The annual DIN elimination rate of the tidal wetlands was 23.0%.     

Tidal regime shift in Lingdingyang Bay,the Pearl River Delta: An identification and assessment of driving factors

Both natural changes (e.g., tidal forcing from the ocean and global sea level rise) and human-induced changes (e.g., dredging for navigation, sand excavation, and land reclamation) exert considerable influences on the long-term evolution of tidal regimes in estuaries. Evaluating the impacts of these factors on tidal-regime shifts is particularly important for the protection and management of estuarine environments. In this study, an analytical approach is developed to investigate the impacts of estuarine morphological alterations (mean water depth and width convergence length) on tidal hydrodynamics in Lingdingyang Bay, Southeast China. Based on the observed tidal levels from two tidal gauging stations along the channel, tidal wave celerity and tidal damping/amplification rate of different tidal constituents are computed using tidal amplitude and phase of tidal constituents extracted from a standard harmonic analysis. We show that the minimum mean water depth for the whole estuary occurred in 2006, whereas a shift in tidal wave celerity for the M₂ tide component occurred in 2009. As such, the study period (1990–2016) could be separated into pre-human (1990–2009) and post-human (2010–2016) phases. Our results show that the damping/amplification rate and celerity of the M₂ tide have increased by 31% (from 7 to 9.2 m⁻¹) and 28% (from 7 to 9 m·s⁻¹) respectively, as a consequence of the substantial impacts of human interventions. The proposed analytical method is subsequently applied to analyse the historical development of tidal hydrodynamics and regime shifts induced by human interventions, thus linking the evolution of estuarine morphology to the dominant tidal hydrodynamics along the channel. The observed tidal regime shift is primarily caused by channel deepening, which substantially enlarged the estuary and reduced effective bottom friction resulting in faster celerity and stronger wave amplification. Our proposed method for quantifying the impacts of human interventions on tidal regime shifts can inform evidence-based guidelines for evaluating hydraulic responses to future engineering activities.     

磨刀门河口近期演变及其排洪效应

通过分析珠江磨刀门分流河口水动力结构及拦门沙的走向变化,解析磨刀门河口近期演变,并从河口的结构和功能的角度,分析磨刀门河口的排洪功能和行为。结论认为:(1)磨刀门河口正由径流优势型向河流—波浪型转变,波浪成为改造和修饰口门地形的重要动力;(2)磨刀门河口的动力、地貌变化,使得河口对淡水的防御性增强而渗透性减弱,其排洪潜力有限;(3)强径流河口发育支汊是河口延伸中的基本规律,在今后磨刀门的治理开发过程(尤其是排洪)中应注意支汊的保护利用。     

Seasonal changes of energy fluxes in an estuarine wetland of Shanghai,China

The energy budget and regulating factors were investigated over an estuarine wetland during one year of continuous measurement in 2006.The results show that the seasonal changes of the energy fluxes and Bowen ratio(β) were greatly affected by incoming shortwave radiation and canopy growth.During the non-growing season and early-growing season, sensible heat(H) dominated the energy flux, and β could reach a maximum of 2.5, while during most of the growing season, latent heat dominated the energy flux and β fluctuated from 0.4 to 1.0.The energy budget ratio in growing season was about 0.76, and the value would be higher if heat exchange during tidal flooding was in-cluded.During tidal flooding days, β was slightly higher than that at exposure days in most cases.Vegetation cover seems exert little effect on energy partitioning except in March when the standing dead grass intercepted the incoming radiation that might reach the soil surface and reduce the turbulence between soil and atmosphere, thus suppressing the evaporation from the soil though the soil mositure was high at that time.     

河口最大浑浊带形成的动力模式和数值试验

应用改进的ECOM模式,耦合泥沙输运模型,研究理想河口最大浑浊带形成的动力机制。河口最大浑浊带位于滞流点处,上下游余流均向该处输运泥沙,造成该处泥沙汇合,而由流场辐合产生的上升流又使该处的泥沙不易落淤。南岸(河口东向)的泥沙浓度比北岸高,最大浑浊带位于南岸,这是由于盐水入侵带来的高盐水位于北岸的底层,其斜压效应使底层的环流由北向南流动,把底层高浓度的泥沙向南岸平流,聚集于南岸底层。除上游河流泥沙来源外,强大的涨落潮流冲刷床面,使沉降于床面的泥沙再次悬浮,成为余流输运泥沙的来源之一。