五里湖南岸生态示范工程对水下光场的改善效果研究

2004年7月20日在五里湖南岸生态示范工程区共布设9个采样点进行水下光场的测定,并采集水样分析悬浮物、叶绿素a、DOC浓度和各组分吸收系数。结果表明,3类主要光衰减物质总悬浮物、叶绿素a和DOC的浓度分别为5.1~38.7 mg/L、25.5~86.4μg/L和7.43~8.74 mg/L;生态示范工程能明显降低水体悬浮物和叶绿素a浓度,Ⅱ类区总悬浮物、叶绿素a浓度相对Ⅰ类区分别降低了53.4%、33.0%,而Ⅲ类区总悬浮物、叶绿素a浓度相对Ⅰ类区分别降低了77.4%、65.0%。光合有效辐射(PAR)衰减系数在1.81~4.93 m-1间变化,对应的真光层深度为0.93~2.54 m,Ⅱ、Ⅲ类区相对Ⅰ类区PAR衰减系数分别降低了42.2%、52.8%,对应的真光层深度则分别增加了73%、112%。a_g(440)、a_d(440)、a_ph(440)的变化范围分别为0.79~1.31 m-1、0.41~2.22 m-1、0.73~2.12 m-1。纯水对总吸收的贡献均在15%以下,有色可溶性有机物(CDOM)吸收对总吸收的贡献率在18.16%~40.28%间变化,非藻类颗粒物对总吸收的贡献率在14.40%~37.88%间变化,浮游藻类对总吸收系数的贡献率基本上是各组分贡献率中最高的,在31.05%~45.28%间变化。对PAR衰减系数、真光层深度、透明度等表观光学参数与主要水色因子进行相关分析发现,水体中浮游藻类和有机颗粒物对生态示范区内的水体光学性质影响最大,而围隔外围浮游藻类、非藻类颗粒物对光的衰减相当。     

三峡小江回水区真光层深度及其影响因素分析

为探讨三峡水库运行初期小江回水区水体的光学特性,2007年5月~2008年5月对回水区5个断面水下光合有效辐射(PAR)与常规水质指标进行监测,分析了真光层深度的时空特征及其影响因素.研究区域真光层深度空间差异不明显,但季节变化显著,冬季最高,夏季最低.回归分析表明光合有效辐射(PAR)衰减系数与透明度、总悬浮物浓度有显著的相关性(R2=0.861 9,R2=0.764),与叶绿素a相关性不明显(R2=0.011 3).进一步研究分析表明真光层深度、总悬浮物浓度、叶绿素a主要受小江河口流量、小江回水区水位的影响,复杂的水动力条件与独特的水文条件是影响三峡水库小江回水区真光层深度变化的主要因素.     

悬浮泥沙对藻类生长影响的实测与分析

通过对长江下游镇扬段的牛轭湖—内江的泥沙、水质、光强、藻类等进行现场监测和数据分析,探讨了内江悬浮泥沙对水下光强的衰减规律以及对藻类生长的影响。结果表明:内江水体中存在80%以上的粒径小于75μm的微细悬浮颗粒,其中不易沉降的粘土颗粒占到20%～50%左右,枯水期平均含量为40 mg/L,丰水期平均含量为70 mg/L,而藻细胞生物总量基本都在100万个/L以内,其中绿藻、硅藻为优势种。数据分析表明:泥沙对水下光强的衰减遵循指数函数衰减规律,光衰减系数与泥沙含量呈较好的线性相关性,内江的优势种绿藻、硅藻的生物量与泥沙含量呈显著的指数相关。认为,泥沙通过衰减光强间接地抑制藻类繁殖,这一抑制作用可以由泥沙含量和藻细胞密度之间的关系进行定量。     

控导浅层急流的潜没式三角翼体特性研究

宽浅陡槽水流试验研究表明,浅层急流的阻力大、稳定性差。当陡槽(B/h<40,h_k>1.04 m)末端水流呈"马鞍型"动量横向分布时,水流具有较强的稳定性;而当陡槽(B/h>40,hk<1.04 m)末端水流呈"椭圆型"动量横向分布时,就缺乏抗干扰能力,导致下游形成平面涡旋并挤压水跃。基于"介入式"方法,提出了采用潜没式三角翼体来调控浅层急流。利用三角翼对两翼底层水流产生的扰动产生两翼优势流,从而使水体能够抑制边界微小扰动的"多米诺骨牌"累加递增效应,提高了水流整体稳定性,改善了下游水流的衔接消能,效果良好。在此基础上,对三角翼体调控水流动量分布的机理进行了分析,探讨了三角翼体型设计原则及量纲一体型因子k的确定方法。     

湖泊光学研究动态及其应用

简述了湖泊光学研究几十年来所取得的成果,如湖水的光学特性;水下辐射能的观测、传输和计算。论述了湖泊光学研究的重点,包括黄色物质吸收系数S的确定;UV B辐射对湖泊生态系统的影响;光的生态效应;光化学过程(Photochemical Processes)、生物 光学模式(Bio-Optical Model)估算湖泊初级生产力以及湖泊富营养化限制因子分析及防治。总结了湖泊光学研究的主要应用领域,包括估算湖泊初级生产力、叶绿素a的浓度、悬浮物的估算以及水色遥感研究等。阐述了湖泊光学未来研究方向,当前研究工作中国内与国外的差距及国内需要开展的工作。     

太湖疏浚前后波浪扰动下的底泥再悬浮特征

在室内波浪水槽中,研究不同底泥容重、不同波浪动力条件下底泥的再悬浮特征.结果表明:静止状态下,水体垂向悬浮物浓度差别不大,小波作用时底泥未普遍起动,各层悬浮物浓度增加不明显.随着大波浪的作用,底部切应力远大于底泥起动临界切应力,水体悬浮物浓度急剧增加,10 min内悬浮物浓度增加10 ～ 15倍,60 min内再悬浮量...     

江汉平原地下水化学特征及水流系统分析

江汉平原水质性缺水问题日益突出,识别江汉平原地下水流系统分布模式,对地下水资源的合理利用与保护具有重要意义。选取江汉平原典型区域,综合水文地质条件、水动力场及水化学同位素指标深入分析地下水补给过程、水岩作用及滞留时间。得出由于碳酸盐岩的溶解,研究区的地下水化学类型属于HCO_3-Ca·(Mg)型。地下水中典型离子随深度增加逐渐降低,同位素随深度增加逐渐偏负,表现出地下水流系统呈局部与区域水流系统的特点,系统深度界限在10～20 m。独立而复杂的局部水流系统在平枯水期地下水向河渠地表水排泄。根据~3H的含量,局部水流为现代水,水循环交替迅速。受地形控制,中深层地下水总体由西和西北向东和东南径流,汇入汉江和长江,为区域水流系统。由于补给源的高程效应,区域水流的~(18)O值存在明显分区,指示不同的补给来源与水流路径。山前丘陵区基本为现代水,向平原腹地纵深至汉江和长江排泄区,地下水年龄在几百年至6 000 a不等,水循环交替缓慢。研究发现江汉平原低洼排泄区存在区域水流的顶托补给,可为原生劣质水的分布与聚集研究提供依据。     

LGM热带西太平洋硅藻席古生产力定量评估

巨型"树荫种"硅藻在成层化大洋中通过"秋季倾泻"勃发模式向深部大洋输出的有机碳通量等于甚至超过"春季勃发"硅藻, 其在第四纪全球气候转型、大洋碳储库演变中的重要地位最近才予以重视.作为大洋碳循环系统的重要参数, 生产力无疑成为探索这一作用的有效窗口.以东菲律宾海的Ethmodiscus rex硅藻席(LDM, laminated diatom mats)岩心WPD-03为材料, 以opal、TOC、bio-Ba等生源组分数据为基础, 运用前人建立的各种生产力经验公式, 试图估算LGM(last glacial maximum)热带西太平洋LDM的古生产力状况.结果显示, LDM沉积期初级生产力、有机碳雨率和埋藏生产力估算合理, 平均分别为248.42 g·m-2·a-1、61.93 g·m-2·a-1和5.27 g·m-2·a-1.估计的初级生产力与代表高生产力的世界大洋各上涌海区可比, 纠正了成层化大洋生产力低下的传统观点, 支持巨型"树荫种"硅藻对大洋有机碳生产与输出的充分贡献.然而, 估算的输出生产力明显不合理, 表明利用基于真光层建立的生产力模型评估次表层水中的巨型"树荫种"硅藻时应格外谨慎, 加强了区别对待"深部"生产力和"表层"生产力的重要性.LGM热带西太平洋LDM的高生产力状况与风尘硅输入的E. rex勃发条件以及还原的沉积环境相一致.      

珠江网河水沙分配变化及其对伶仃洋水沙场的影响

采用二维ECOMSED模型对径流来水来沙变化前后的1978年和1999年伶仃洋洪水期水动力场和悬沙场进行模拟,结果表明:伶仃洋水动力场整体增强,但不同地貌单元水动力变化具有明显差异.分流比变化后洪水期伶仃洋西槽、东槽和中滩水动力增强,涨潮和落潮流速普遍增大0.1m/s;西部各口门区和西滩涨潮流势减弱,径流优势更加明显,但西滩三个口门水道及滩面潮沟落潮流速增大约0.1 m/s;东滩水动力特征变化不大.悬沙浓度亦整体升高,平均增加了0.02~0.05 kg/m3,悬沙高值区范围扩大,0.10 kg/m3等值线由西槽西侧明显向东推进到沿东槽南北向分布,径流来沙的影响范围东扩.     

立井冻土爆破的理论与实践

结合冻土爆破破坏特征,从理论上分析探讨了立井冻土掘进掏槽爆破和光面爆破机理及参数设计,再在实验室中进行模型试验研究,然后将试验结果应用于工程实践去验证和完善. 结果表明:立井冻土掘进爆破以浅眼多循环为宜,眼深Lb =1.2～1.4m;直眼掏槽、周边光爆,较为合理的掏槽参数为:槽眼布置圈径%D%=1.0～1.2 m,眼距a=500～700 mm,单位耗药量q=2.2～2.8 kg*m-3;较为合理的光爆参数为:周边眼距E=500～600 mm,光爆层厚度W＝500～700 mm ,炮眼密集系数m＝0.8～1.2,炮眼装药集中度%q%L=120～160 g*m+-1,空气垫层或空气间隙不偶合装药结构.     

高寒湿地生态系统土壤有机物质补给及地-气CO2交换特征

海北高寒湿地植物地上、地下生物现存量较高,2004年海北高寒湿地植物净初级生产力为1799.7 gC·m^-2.由于家畜对湿地植物采食量低,每年将有大量的枯黄植物残留于地表,表现出地上、地下生物量以及苔鲜均成为土壤有机物质的补给源.由于区域温度低,积水严重,对植物残体分解缓慢,导致湿地土壤有机质含量很高,形成了厚达2 m左右的泥炭层.观测结果表明,海北高寒湿地净生态系统CO₂交换量具有明显的季节变化,年内4月和10月存在两个CO₂释放高峰期,夏季的7~8月为一个强吸收期,全年来看为一个巨大的碳源.2004年净生态系统年碳交换量为76.7 gC·m^-2.计算结果表明,植被的呼吸消耗量每年为1199.8 gC·m^-2,其植物总固碳量为2999.5 gC·m^-2,而土壤呼吸为1876.4 gC·m^-2.     

Temporal and Spatial Distribution Characteristics of Colored Dissolved Organic Matter in Coastal Waters of Jiangsu Province

Colored Dissolved Organic Matter (CDOM) is one of important ocean color factors. In the background of “Jiangsu Coastal Development”, it is important to monitor the water quality and pollution status of coastal waters by analyzing its spatial and temporal distribution characteristics with remote sensing data. This paper was based on the high temporal resolution of Geostationary Ocean Color Imager (GOCI) image downloaded from Korea Ocean Satellite Center. The temporal-spatial distribution of CDOM in Jiangsu coastal waters was analyzed on daily, weekly and monthly time scales from April, 2011 to May, 2016. CDOM in Jiangsu coastal waters are mainly terrigenous, and higher inshore than that of offshore. The monthly average concentration of CDOM in the western coast of the South Yellow Sea was 0.167~0.201 m^-1, and those of central and southern regions were 0.086~0.187m^-1. The maximum values were outside the maximum turbidity zone of the Yangtze River Estuary, which was 0.180~0.206 m^-1 (absorption coefficient at 440 nm). The diurnal variation of CDOM in near shore waters was found to coincide with the change of tide, which decreased at first and then increased in the sea area. By fitting the monthly mean using cosine function, significantly cyclical variation of mean CDOM was found in the South Yellow Sea. The central region of the South Yellow Sea waters fitting coefficient was 0.823. Affected by the Yellow Sea cold water mass, the sub-regions of the South Yellow Sea changed seasonally, whose CDOM concentration in winter and spring was higher than that in summer and autumn. Because of Changjiang Diluted Water and other water masses, seasonal variation of the Yangtze River Estuary was contrary to that of the South Yellow Sea. On monthly scale, CDOM concentration was positively correlated with total suspended matter, with correlation coefficient r being 0.72. The trend of the central and southern region was more significant.     

喜马拉雅珠峰地区冬季大气气溶胶化学组分及光学特征

为了研究喜马拉雅山北坡冬季大气气溶胶化学组分、光学特征及来源,2017年11—12月在珠穆朗玛峰站(QOMS)共采集22个PM2.5样品.结果显示:PM2.5中包括水溶性离子(WSIs)、有机质(OM)、元素碳(EC)在内的所有检测成分,总质量浓度为(3.36±1.06)μg·m-3;有机碳(OC)、元素碳(EC)和水...     

Vertical diffuse attenuation coefficient (Kd) based optical classification of IRS-P3 MOS-B satellite ocean colour data

The optical classification of the different water types provides vital input for studies related to primary productivity, water clarity and determination of euphotic depth. Image data of the IRSP3 MOS-B, for Path 90 of 27th February, 1998 was used for deriving vertical diffuse attenuation coefficient (K_d) and an optical classification based onK _d values was performed. An atmospheric correction scheme was used for retrieving water leaving radiances in blue and green channels of 412, 443, 490 and 550 nm. The upwelling radiances from 443 nm and 550 nm spectral channels were used for computation of vertical diffuse attenuation coefficientK _d at 490 nm. The waters off the Gujarat coast were classified into different water types based on Jerlov classification scheme. The oceanic water type IA (K _d range 0.035-0.040m^-1), type IB (0.042-0.065 m^-1), type II (0.07-0.1m^-1) and type III (0.115-0.14m^-1) were identified. For the coastal waters along Gujarat coast and Gulf of Kachchh, K_d(490) values ranged between 0.15 m^-1 and 0.35 m^-1. The depth of 1% of surface light for water type IA, IB, II and III corresponds to 88, 68, 58 and 34 meters respectively. Classification of oceanic and coastal waters based onK _d is useful in understanding the light transmission characteristics for sub-marine navigation and under-water imaging.     

Light attenuation and submersed macrophyte distribution in the tidal Potomac River and estuary

Changing light availability may be responsible for the discontinuous distribution of submersed aquatic macrophytes in the freshwater tidal Potomac River. During the 1985–1986 growing seasons, light attenuation and chlorophylla and suspended particulate material concentrations were measured in an unvegetated reach (B) and in two adjacent vegetated reaches (A and C). Light attenuation in reach B (the lower, fresh to oligohaline tidal river) was greater than that in reach A (the recently revegetated, upper, freshwater tidal river) in both years. Reach B light attenuation was greater than that in reach C (the vegetated, oligohaline to mesohaline transition zone of the Potomac Estuary) in 1985 and similar to that in reach C in 1986. In reach B, 5% of total below-surface light penetrated only an average of 1.3 m in 1985 and 1.0m in 1986, compared with 1.9 m and 1.4 m in reach A in 1985 and 1986, respectively. Water column chlorophylla concentration controlled light availability in reaches A and B in 1985, whereas both chlorophylla and suspended particulate material concentrations were highly correlated with attenuation in both reaches in 1986. Reach C light attenuation was correlated with suspended particulate material in 1986. The relationship between attenuation coefficient and Secchi depth was K_PAR=1.38/Secchi depth. The spectral distribution of light at 1 m was shifted toward the red portion of the visible spectrum compared to surface light. Blue light was virtually absent at 1.0 m in reach B during July and August 1986. Tidal range is probably an important factor in determining light availability for submersed macrophyte propagule survival at the sediment-water interface in this shallow turbid system.     

Response of underwater light transmittance in the Rhode River estuary to changes in water-quality parameters

A year-long study of incident and underwater light transmittance (400–800 nm) in the Rhode River, Maryland, a tidal tributary to Chesapeake Bay, indicated that light transmittance responded in both intensity and spectral quality to changes in the amount and type of dissolved and suspended materials in the water. At times of relatively clear water, transmittance was similar to that previously reported in the literature for coastal waters. With high concentrations of suspended and dissolved materials in the water, attenuation of irradiance was high in the upper part of the water column and different for the various wave bands, depending on the type of material present. At such times, attenuation was higher in the upper part of the water column under sunny, clear skies than on cloudy days. We believe this to be due to higher concentrations of pigments and suspended particles in the water on sunny days, increasing the scattering and adsorption. A second factor was a lower average cosine on cloudy days, decreasing the effect of scattering on the average path length per meter of depth. High attenuation coefficients in the middle of the spectrum are attributed to accessory pigments. Regression of the diffuse attenuation coefficient on eight water-quality parameters explained up to 93% of the variance in the attenuation coefficient. Chlorophylls a and c and mineral suspensates were the three most important variables for data taken under clear skies. In contrast, under cloudy skies, the three most important variables were different for different wavelengths. Models of irradiance attenuation in turbid estuarine waters require the use of more variables than models for open ocean waters.     

融冰期北极楚科奇海陆架中心区硅限制与来源补充

相对氮亏损(N:P约为7,小于16)的太平洋入流水携带的营养盐是支撑北冰洋上层生态系统的重要物质基础。海冰消退,光限制消失,楚科奇海陆架存在强烈的营养盐消耗与利用,广泛认为其表现为氮限制,因此该区域重点关注氮元素循环,对于硅元素的相关研究较少。本文基于2016年中国第七次北极科学考察和中国-俄罗斯首次联合北极科学考察两个同步进行的航次调查结果,全面展示了融冰期整个楚科奇海陆架区的营养盐分布格局。结果显示,硝酸盐和亚硝酸盐表层基本耗尽;硅酸盐表现为中心低,周围高,陆架中心区是强烈的硅限制区域,受到硅和氮的共同限制。沿着太平洋入流方向,S01、R01、LV77-01站位30 m以深硅酸盐浓度高于太平洋入流水端员,说明沉积物孔隙水向底层水释放硅酸盐,因此在浅水陆架区孔隙水可作为上层海洋硅酸盐的潜在来源。本研究结合文献数据计算得到楚科奇海陆架沉积物-水界面硅酸盐年通量为630.78 mmol·m^-2·a^-1,总量为3.75×10¹¹ mol·a^-1,是太平洋入流水所携带硅酸盐年通量的一半(6.59×10¹¹ mol·a^-1),表明沉积物孔隙水也是楚科奇海陆架硅酸盐的重要来源。     

Suspended Matter,Chl-a,CDOM, Grain Sizes,and Optical Properties in the Arctic Fjord-Type Estuary,Kangerlussuaq, West Greenland During Summer

Optical constituents as suspended particulate matter (SPM), chlorophyll (Chl-a), colored dissolved organic matter (CDOM), and grain sizes were obtained on a transect in the arctic fjord-type estuary Kangerlussuaq (66°) in August 2007 along with optical properties. These comprised diffuse attenuation coefficient of downwelling PAR (K _d(PAR)), upwelling PAR (K _u(PAR)), particle beam attenuation coefficient (c _p), and irradiance reflectance R(−0, PAR). PAR is white light between 400 and 700 nm. The estuary receives melt water from the Greenland Inland Ice and stations covered a transect from the very high turbid melt water outlet to clear marine waters. Results showed a strong spatial variation with high values as for suspended matter concentrations, CDOM, diffuse attenuation coefficient K _d(PAR), particle beam attenuation coefficients (c _p), and reflectance R(−0, PAR) at the melt water outlet. Values of optical constituents and properties decreased with distance from the melt water outlet to a more or less constant level in central and outer part of the estuary. There was a strong correlation between inorganic suspended matter (SPMI) and diffuse attenuation coefficient K _d(PAR) (r ² = 0.92) and also for particle beam attenuation coefficient (c _p; r ² = 0.93). The obtained SPMI specific attenuation—K _d^*(PAR) = 0.13 m² g⁻¹ SPMI—and the SPMI specific particle beam attenuation—c _p^* = 0.72 m² g⁻¹—coefficients were about two times higher than average literature values. Irradiance reflectance R(−0, PAR) was comparatively high (0.09−0.20) and showed a high (r ² = 0.80) correlation with K _u(PAR). Scattering dominated relative to absorption—b(PAR)/a(PAR) = 12.3. Results strongly indicated that the high values in the optical properties were related to the very fine particle sizes (mean = 2–6 μm) of the suspended sediment. Data and results are discussed and compared to similar studies from both temperate and tropical estuaries.