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1.
长江口潮滩先锋植物藨草腐烂分解过程研究 总被引:6,自引:0,他引:6
以长江口崇明东滩湿地为研究区域,采集了先锋植物藨草(Scirpus triqueter)的地上茎和地下根部分,分别埋藏于高潮滩和堤内两处不同地点,研究了植物不同部位组织在腐烂分解过程中质量及其碳、氮元素含量的变化,分析了影响植物分解的主要因素。结果表明,藨草残体在为期391 d的分解过程中质量损失了46%~66%,其中藨草茎分解速率大于藨草根的,高潮滩的大于堤内的;碳含量呈持续降低趋势,而氮含量则显著升高。植物体中初始营养盐水平和C/N比值的高低可能是导致藨草根、茎残体的分解速率存在差异的最主要因素。环境因素(如温度、湿度等)对藨草残体的腐烂分解有着十分重要的影响,温度升高、湿度增大,则加速微生物对植物碎屑的分解。由于受潮汐作用影响,高潮滩的植物埋藏环境比堤内的更潮湿,从而使得藨草在高潮滩的分解速率以及碳、氮元素含量的变化速率都明显高于堤内。 相似文献
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海滩排水管建设对海滩环境影响较大。以厦门会展中心连岛沙坝式排水管头工程影响海滩演变为例,研究连岛沙坝式海滩排水管头对海滩地形稳定性和沉积的影响。1)通过对研究区连岛沙坝式管头附近海滩10条剖面进行分析,研究管头附近海滩滩肩宽度、滩面坡度和单宽留存沙量等剖面形态变化特征。测量数据分析表明,无管头保护滩面高程降低,滩面坡度总体变陡,滩肩蚀退严重;受管头保护滩面高程上升,坡度变缓,滩肩宽度略有减小,剖面单宽沙量留存比例大于1。2)2012-2016年多期岸线及管头边界线变化结果表明,工程施工后,排水管身始终被沙体覆盖,一年后部分管头被沙体覆盖,最终管头被覆盖率稳定在70%以上。3)会展管头附近海滩潮上带和高潮带沉积物自北向南运移,低潮带则相反;潮上带和中潮带上部沉积物从管头所在"连岛沙坝"向两侧海滩输移,而低潮带和中潮带下部输移方向相反。沉积物粒径由岸向海逐渐变粗,越靠近管头,沉积物粒径呈变细趋势。最后讨论了引起管头局部海滩地形地貌变化的主要因素。 相似文献
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根据2008年8月至2009年5月4个季度月(夏、秋、冬、春季),对位于石岛大鱼岛村潮间带的高潮区(SD1站)、中潮区(SD2站)和低潮区(SD3站)所设的3个站进行的大型底栖动物生态调查并分析所获得的资料,采用Shannon-Wiener指数(H’)、物种丰富度指数(D)和物种均匀度指数(J)分析该潮间带不同潮区大型底栖动物的物种多样性。结果表明,石岛大鱼岛村潮间带大型底栖动物的总平均栖息密度、总平均生物量和总种数分别为397.7个/m2,99.874 g/m2和68种。3个潮带的平均密度(D)、平均生物量(B)和种数(S)的季节变化分别为:D冬季>D夏季>D秋季>D春季,B夏季>B冬季>B秋季>B春季,S冬季>S夏季>S秋季>S春季。多样性指数H’值大小顺序为低潮区>高潮区>中潮区,D值大小顺序为低潮区>中潮区>高潮区,J值大小顺序为高潮区>低潮区>中潮区;大鱼岛村潮间带物种多样性指数季节性变化不明显。 相似文献
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于2015年和2016年对大连金沙滩砂质潮间带进行了季节性的调查,对小型底栖生物及其所处的沉积环境进行了研究,探讨了小型底栖的丰度、生物量和群落的时空变化及其与环境变量的关系。结果表明,金沙滩砂质潮间带沉积物主要成分为极粗砂和粗砂,年平均叶绿素a (Chl-a)质量比为0.99μg/g±1.44μg/g,年平均有机碳质量分数为0.38%±0.56%;共鉴定小型底栖生物类群15个,优势类群为海洋线虫类与底栖桡足类(二者占总丰度72.82%);小型底栖生物年平均丰度为42.52个/cm~2±42.91个/cm~2,呈现明显的季节变化和潮区差异,季节变化趋势为3月10月7月12月,潮区变化趋势为高潮带中潮带低潮带;年平均生物量为87.00μg/cm2±85.32μg/cm~2,季节变化趋势为10月7月3月12月,潮区间也存在显著差异。小型底栖生物的类群组成在季节间具有极显著差异。BIOENV分析表明,间隙水盐度、极粗砂质量比和有机碳质量分数的组合能最好地解释金沙滩小型底栖生物群落的时空分布。研究结果可为砂质滩小型底栖生物的研究提供基础数据,也可为全球气候变化背景下砂质潮间带的保护、开发和利用提供科学依据。 相似文献
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极端高能事件影响下的海滩动力地貌过程直接关乎岸滩稳定及海堤安全。本文基于2020年16号台风“浪卡”前后北海银滩顺直岸段的剖面高程及表层沉积物等资料, 探究了中等潮差的顺直响应台风作用的地貌变化机制。结果表明: 1) 台风后海滩地貌表现为冲流带的大型沙坝消失, 后滨沙丘-滩槽体系被削平, 滩面坡度趋于平缓。2) 银滩沉积物均以中砂、细砂和极细砂为主, 三者占比超过95%; 台风后, 高潮位带沉积物变细, 低潮位带沉积物变粗, 沙坝附近则出现粗细交错式变化; 银滩中高潮位带滩面响应台风过程的特征与强潮型海滩相似, 呈现消散型海滩的特征, 而低潮位带滩面则因大型沙坝的作用而呈现弱潮型海滩特征。3) 台风期间波浪是影响海滩的主要动力因素, 海滩地形影响了近岸水动力的表现形式, 从而改变了沉积物的粒径分布。 相似文献
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崇明岛东滩潮沟体系及其沉积动力学 总被引:3,自引:0,他引:3
崇明岛东滩潮沟系在盐沼带内特别发育,其形成与潮滩围垦工程和盐沼带的宽度密切相关。泥滩上潮沟的发育和演化与盐沼带潮盆大小、潮时(大小潮)和降雨量等相关,潮沟体系规模小,涨潮流不受其控制,退潮时潮沟成为主要泄水通道,未沉降的细悬浮颗粒和浮泥层在重力作用下向潮沟汇集,使潮沟内沉积物比滩面细。崇明岛东滩潮沟体系形成、演化及沉积物分布,完全不同于目前研究非常详细的欧美河口湾/港湾型潮道-潮沟体系,后者潮道以涨潮流占优势,沉积物明显比滩面粗。崇明岛东滩潮沟体系是发育在快速淤长的三角洲类型海岸上,通过与其他类型的对比研究,可以更全面地认识潮道-潮沟体系对泥滩和盐沼发育、演化所起的作用。 相似文献
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通过对一波控中等潮差海湾切线段 16个月海滩剖面数据,采用 EOF 分析提取了占数据总方差 91. 32 % 的前 3个空
间特征函数研究海滩剖面空间变化。结果发现第一空间特征函数指示了滩肩顶至碎波带海滩剖面变动逐渐增强的特征,是海
滩剖面变化的主要模式;第二空间特征函数指示了滩肩形成与消亡;第三空间特征函数指示了大潮高潮位的巨型滩角的存
在。通过对 EOF 分析得到的时间特征函数作连续功率谱分析,反映该海滩剖面波能在大小潮汐约半月潮周期、近塑望月潮
频率周期和大小潮汐约 2个月潮周期内对这些空间过程的控制,体现了这一波控中等潮差海岸近岸区,叠加在周期性潮汐之
上的波浪是海滩演变的主要动力因素,这在以前的研究中所忽略。 相似文献
10.
干出对潮间带不同垂直位置海藻的生长及光合作用速率的影响 总被引:3,自引:0,他引:3
研究了青岛潮间带地区的4种海藻:叉枝藻(Gymnogongrus flabelliformis Harvey,高潮带)、孔石莼(Ulva pertusa kjellm,中潮带)、缘管浒苔(Enteromorpha linza(L.)J.Agar-dh,中潮带)和扁江蓠(Gracilaria textorii(Suring)De Toni,低潮带)在干出状态下的脱水率及每天干出0、0.5、1、2、4和6h下的生长和光合作用。结果表明:干出状态下缘管浒苔的脱水率最小,因为它具中空管状构造;其余3种海藻的脱水率依次为扁江蓠>孔石莼>叉枝藻,但三者差异不大。与水中对照(0h)相比,高潮带的叉枝藻在不同干出处理下的生长和光合作用速率下降(P<0.05)。中潮带的孔石莼在一定干出时间内促进其生长和光合作用(P<0.05),缘管浒苔则未见显著的促进作用。低潮带的扁江蓠在干出处理下几乎不能生长和存活。 相似文献
11.
Marta Lobo Lopes Patrícia Martins Fernando Ricardo Ana Maria Rodrigues Victor Quintino 《Estuarine, Coastal and Shelf Science》2011,92(4):497-580
The decomposition rates of Phragmites australis and Fucus vesiculosus were experimentally determined in an estuarine system using the leaf-bag technique. The study was conducted in fifteen sites arranged in five areas, extending from freshwater, outside the tidal range, to the marine environment, near the mouth of the estuary. The leaf-bags (5 mm mesh), were set up with 3.0 g of dried substrate, submerged in the experimental sites at day 0 and collected at days 3, 7, 15, 30 and 60, to follow biomass loss. The biomass loss through the leaching phase (day 3) was about 16% for Phragmites australis and 33% for Fucus vesiculosus and was independent of salinity for both substrates. The difference in the remaining biomass between the two species increased with time and the decomposition rates differed along the salinity gradient. For F. vesiculosus, the decomposition rate was highest near the mouth of the estuary, corresponding to the preferential distribution area of the algae, and decreased towards freshwater. For Phragmites australis, the fastest decay was observed in the mid estuary, where Phragmites australis occurs naturally, confirming previous studies. The decomposition rates measured at different time intervals (0–15, 0–30 and 0–60 days) were always higher for the algae and decreased with time for both species. These results indicate that the use of decomposition rates as a measure of ecosystem integrity or quality status in transitional waters will not be straightforward and must take into account, among others, the test species, the study area positioning along the estuarine gradient, and the time interval for the calculation of the decomposition rate. 相似文献
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Minoru Fujii Shinichiro Murashige Yuka Ohnishi Atushi Yuzawa Hitoshi Miyasaka Yoshimi Suzuki Hiroshi Komiyama 《Journal of Oceanography》2002,58(3):438-443
Decomposition experiments were conducted on cultured phytoplankton (Skeletonema costatum) in seawater containing decomposer and consumer of size less than 500 μm. We determined the decomposition rates of bulk particulate
organic matter (POM), the ratio of labile to semi-refractory fractions in the POM, and the POM carbon/ nitrogen (C/N) ratio
during decomposition. To identify the kinetic mechanisms involved in the reactions of different order (e.g., first- and second-order),
we studied the sensitivity of reaction rates to the initial concentration of POM, ranging from 2.4 to 71 mg-C L−1. The results showed that decomposition consists of two first-order reactions: decomposition of labile and of semi-refractory
particulate organic carbon (POC). The decomposition rate constants found for labile (0.13 day−1 at 20°C), and semi-refractory POC (0.008 day−1 at 20°C), and the carbon weight ratio of semi-refractory POC (13% at 20°C), were insensitive to the initial organic matter
concentration. The time-dependence of the C/N ratio was also independent of this initial concentration. The decomposition
rate constants and the content of semi-refractory POC did not change, regardless of the absence or presence of 25–500 μm organisms
in natural seawater.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
13.
Bottom water formation changes the characteristics of water masses entering the southern part of the Weddell Sea through atmosphere-ice-ocean interaction in which both sea and shelf ice play an important role. Modified water, in particular Weddell Sea Bottom Water, recirculates in the west. By comparing the in- and outflowing water masses we have estimated transformation rates on the basis of a data set obtained during the Winter Weddell Gyre Study from September to October 1989. This consisted of a salinity-temperature-depth (CTD) section carried out by R/V “Polarstern” from the northern tip of the Antarctic Peninsula to Kapp Norvegia and data from three current meter moorings maintained from 1989 to 1990 in the eastern boundary current off Kapp Norvegia. Because of the lack of sufficient direct current measurements in the interior and the western boundary current, it was necessary to derive mass transports on the basis of available data combined with physical and geometrical arguments. At the mooring site barotropic currents were measured. They were extrapolated to the interior under the assumption that wind-driven, baroclinic and barotropic current fields are of similar shape. The location of the gyre centre was determined from drifting buoy tracks and geopoten-tial anomaly. A linear current profile from the eastern boundary current to the centre of the gyre was assumed, and the western outflow was determined according to mass conservation. Different assumptions on the transition from the boundary current to the interior and the location of the centre result in a wide range of transports with most likely values between 20 and 56 Sv. The total mass transport was split into individual water masses. Differences between inflow and outflow result in a transformation rate of 3–4 Sv from Winter and Warm Deep Water to Antarctic and Weddell Sea Bottom Water. The net heat and salt transport across the transect implies heat fluxes from the ocean to the atmosphere of 3–10 W m−2 and ice formation rates of 0.2–0.35 m year−1. 相似文献
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Mark Huxham Joseph Langat Fredrick Tamooh Hilary Kennedy Maurizio Mencuccini Martin W. Skov James Kairo 《Estuarine, Coastal and Shelf Science》2010
Mangrove trees may allocate >50% of their biomass to roots. Dead roots often form peat, which can make mangroves significant carbon sinks and allow them to raise the soil surface and thus survive rising sea levels. Understanding mangrove root production and decomposition is hence of theoretical and applied importance. The current work explored the effects of species, site, and root size and root nutrients on decomposition. Decomposition of fine (≤3 mm diameter) and coarse (>3 mm diameter, up to a maximum of ∼9 mm) roots from three mangrove species, Avicennia marina, Bruguiera gymnorrhiza and Ceriops tagal was measured over 12 months at 6 sites along a tidal gradient in Gazi Bay, Kenya. C:N and P:N ratios in fresh and decomposed roots were measured, and the effects on decomposition of root size and age, of mixing roots from A. marina and C. tagal, of enriching B. gymnorrhiza roots with N and P and of artefacts caused by bagging roots were recorded. There were significant differences between species, with 76, 47 and 44 % mean dry weight lost after one year for A. marina, B. gymnorrhiza and C. tagal respectively, and between sites, with generally slower decomposition at dryer, high tidal areas. N enriched B. gymnorrhiza roots decomposed significantly faster than un-enriched controls; there was no effect of P enrichment. Mixing A. marina and C. tagal roots caused significantly enhanced decomposition in C. tagal. These results suggest that N availability was an important determinant of decomposition, since differences between species reflected the initial C: N ratios. The relatively slow decomposition rates recorded concur with other studies, and may overestimate natural rates, since larger (10–20 mm diameter), more mature and un-bagged roots all showed significantly slower rates. 相似文献
15.
Margarita Menndez 《Estuarine, Coastal and Shelf Science》2009,82(4):608-614
The response of early Ruppia cirrhosa Petagna (Grande) litter decomposition to external nitrogen and phosphorus availability in La Tancada (Ebro River, NE Spain), a coastal lagoon that receives agricultural freshwater runoff from rice fields has been examined. Recently abscised dead R. cirrhosa stems were collected and 25 g of fresh weight was placed in litter bags with a mesh size of 100 μm and 1 mm. These bags were fertilised by adding nitrogen (N), a mixture of nitrogen plus phosphorus (N + P), or phosphorus (P), or were left untreated (CT). Macroinvertebrates were retrieved from the bags and the ash-free dry weight, and carbon, and N and P content of the remaining plant material were measured after 0, 3, 7, 14, 22 and 32 days. Litter decomposition rates, k (day−1), were estimated using a simple exponential model. Litter decay was clearly accelerated by the addition of P in the fine (100 μm) litter bags (0.042), but when N was added alone (0.0099) the decomposition rate was lower than in the CT treatments (0.022). No significant difference was observed between the N (0.0099–0.018) and N + P (0.0091–0.015) treatments in either the fine or the coarse (1 mm) litter bags. These results could be attributed to the relatively high availability of external (environmental) and internal (detritus contents) N. No significant effect of macro invertebrates was observed in the CT treatment or under N or P or N + P addition. The ratio between the decomposition rates in coarse and fine litter bags (kc/kf) was lower in disturbed Tancada lagoon (0.82) than in Cesine lagoon (2.11), a similar Mediterranean coastal water body with almost pristine conditions. These results indicate that, in addition to data on macroinvertebrate community structure, decomposition rates could also be used to assess water quality in coastal lagoons. 相似文献
16.
-The detritus from the decomposition of dead plant materials of Spartina with great biomass provides abundant food for the heterotrophs in estuarine and nearshore coastal waters. It is for this reason that the decomposition rates of S. anglica and S. alterniflora near the estuary of obsolete Huanghe River were studied. The changes in nutritive components during decomposition are also studied.Results showed that the decomposition rate of dead leaves of S. anglica on ultra-low marsh was about 90% for the first year. In the eighth month, it was 80% and 76 % respectively for S. anglica and S. alterniflora on low marsh. Protein content of the two species of Spartina increased in the course of decomposition, with a maximum increment of 100% or more. The energy value also increased, whereas cellulose content decreased markedly. The percentage content of ash and lipid varied significantly with zonal differences. 相似文献
17.
The first experience the transportation of deep-water methane hydrates in a container 总被引:1,自引:0,他引:1
Deep-water experiments on the transportation of collected samples of methane hydrates from a lake’s bottom to a support container
were carried out as part of the MIRY na Baikale (2008–2009) expedition run by the Russian Academy of Sciences. High pressures
and low temperatures are necessary for gas hydrates stability. As a sample of the hydrate is lifted to the water’s surface,
it intensively decomposes into water and methane gas. To reduce the decomposition, we used a container in which the hydrate’s
sample occurs in a gas medium rather than in water, which results in a substantial reduction in the rate of the heat exchange.
At that, the gas for the container’s filling was supplied by the hydrate itself due to its partial decomposition. To estimate
the method’s efficiency, we observed the hydrate’s decomposition during lifting from a depth of 1400 m using different transportation
techniques such as gas- or water-filled containers or fixing the sample in the manipulator’s arm of the submersible. The sample
in the gaseous medium was the only one that was safely delivered on board the support container, while the two others completely
decomposed during the transportation. It is remarkable that all the samples started to decompose simultaneously at a depth
of 380 m but their decomposition occurred at different rates. 相似文献
18.
《Marine Chemistry》2005,93(2-4):159-177
Sediment core samples were collected from two sites in the lower Mississippi River, an oxic shelf site and a hypoxic shelf site (in September 1998 and July 1999), and from a cross-shelf transect (in April 2000), to examine the differential effects of redox and sedimentation rate on carbon decay dynamics in a river-dominated margin. Downcore distribution of pigments, bulk organic carbon and nitrogen, and radioactive isotopes (210Pb, 7Be) were used to evaluate the decomposition and preservation of pigments and bulk organic carbon. The distinctly different sedimentary regimes and dynamic nature of the LA shelf limit the application of diagenetic models. Sedimentation processes in the lower Mississippi River and oxic shelf sites were significantly impacted by the river discharge. In areas with low sedimentation, the depth of the surface mixed layer fluctuated with seasonal variation of weather forcing. It was observed that pigment decay rate constants in the mixed layer (7.52 year−1 for chlorophyll-a) were greater than those in the accumulation layer (0.14–0.22 year−1 for chlorophyll-a) by 1–2 orders of magnitude. This suggests that enhanced decomposition of reactive organic carbon occurred in the mixed layer at locations with low sedimentation rates—due to higher decay rates. Conversely, at locations with high sedimentation rates (>10 cm year−1), the reactive carbon pool was rapidly buried below the mixed layer. The surface mixed layer likely worked as a biogeochemical reactor receiving high inputs of phytodetritus, supported by an active microbial community. We propose that despite the frequency of occurrence of bottom water hypoxia on the Louisiana shelf, sedimentation rate and lability of organic matter are more important in controlling the preservation of organic carbon. 相似文献
19.
The photochemical instability of several related pteridines in seawater was investigated by aseptic incubation of solutions at 20–22°C under illumination from cool-white light of intensity 6 kerg cm−2 sec−1, and the chemical changes were spectrophotometrically monitored. All the pteridines showed markedly accelerated degradation from this illumination relative to their behaviour in total darkness.Pterin and lumazine were degraded very slowly with zero-order reaction kinetics, while the other pteridines photolysed rapidly (according to first-order kinetics) with decomposition rates increasing in the order dioxylumazine (2,4,6,7-tetrahydroxypteridine) < leucopterin < isoxanthopterin < xanthopterin < oxylumazine (2,4,6-trihydroxypteridine). Excepting leucopterin and dioxylumazine, the photolysis rates were attributable to the pH of seawater and not its salt content; this was also the case with oxylumazine which required the salt content of seawater for decomposition in darkness. Leucopterin and dioxylumazine (both 6,7-dihydroxylated pteridines) gave evidence of complexation with the major divalent cations (Ca2+, Mg2+) of seawater, by virtue of which their photolytic degradation rates were enhanced to magnitudes obtained in pH-10 buffer without seawater. It is proposed that such complexation produces structural forms of these pteridines analogous to their normal ionic forms at pH 10–12.The photolysis of the 6-hydroxylated pteridines (xanthopterin, oxylumazine) proceeded via intermediate formation of their corresponding 7-hydroxylated derivatives (leucopterin, dioxylumazine). 相似文献