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1.
黄东海接受长江冲淡水和黑潮带来的大量营养盐和有机物质,其碳循环对陆架海碳源汇格局至关重要。浮游生物群落呼吸是影响碳循环的重要过程。为揭示黄东海浮游生物群落呼吸率(PCR)对碳平衡的贡献,于2011年四季使用黑白瓶培养法测定黄海南部及东海北部浮游群落呼吸率和初级生产力,并同步测定温度、盐度、营养盐、叶绿素和细菌丰度等环境因子。结果显示,浮游生物群落呼吸率的变化范围为1.61~834.84mgC/(m3·d),年均为(184.53±154.21)mgC/(m3·d),其中夏季最高,冬季最低。根据相关性分析,黄东海研究区域浮游生物群落呼吸率,尤其是在夏天,主要由浮游植物和浮游细菌贡献;浮游生物群落呼吸率与温度呈显著正相关,与盐度和硅酸盐呈显著负相关。通过比较群落呼吸率与初级生产力,得到研究海区水柱总体呈现异养状态;部分站位表层或10 m水层呈现出自养状态。海气CO2交换通量的研究显示,黄东海陆架主要表现为大气CO2的碳汇区域。研究提出,黄东海陆架碳平衡总体异养、却为碳汇的主要原因可能为:研究区域表层初级生产吸收CO2高于呼吸产生CO2,常表现为自养和碳汇;但表层沉积物的再悬浮和外源有机碳输入为次表层以下水体提供了丰富的有机碳,浮游生物群落呼吸产生的CO2高于初级生产吸收的CO2,呈现异养。当台风等物理外力破坏水层结构使水体混合时,次表层及以下的CO2将释放到大气中,表现为碳源。  相似文献   
2.
探究影响水产养殖动物体质量的关键生物学表型性状组合,进而揭示其体质量增长对策,对指导水产养殖动物的种质甄别与科学养殖具重要现实意义。随机选取象山西沪港海域板式网箱内养殖3个月的褐菖鲉幼鱼同生群个体60尾为研究对象,以全长(X1)、体长(X2)、体宽(X3)、体高(X4)、头宽(X5)、侧线长(X6)、尾柄高(X7)、体质量(BW)、净体质量(NW)、内脏质量(W1)、肠质量(W2)、肝质量(W3)、胃质量(W4)、鳃质量(W5)、心质量(W6)为生物学测定指标,采用多元分析方法定量研究了体尺性状和称量性状对体质量的影响效应。结果表明:(1)经统计,所涉称量性状测定值较体尺性状更显离散,两者变异系数的波动范围分别为38.27%~89.86%和13.86%~17.78%,排序分别为W4>W1>W6>W2>W5>W3>NW>BW和X3>X4>X6>X5>X2>X7>X1;经计算,消化脏器与内脏间的质量比呈W3>W4>W2 (P<0.05);(2)相关分析显示,所涉体尺性状和称量性状均与BW呈极显著相关(P<0.01),两者相关系数波动范围分别为0.414~0.990和0.899~0.961,排序分别为NW>W3>W1>W6>W5>W2>W4X1>X4>X2>X5>X6>X3>X7;(3)经通径分析,被保留的称量性状组合和体尺性状组合的直接作用排序分别为NW>W3>W2>W4>W6X4>X5>X6>X7;经决定程度分析和复相关分析,称量性状组合对BW的总决定系数和复相关指数均为0.989,体尺性状组合则均为0.961;(4)经偏回归分析,分别获得了基于称量性状组合和体尺性状组合的BW估算方程。研究结果可为褐菖鲉速生型种质遴选与科学养殖提供参考。  相似文献   
3.
该文主要对1978-2019年铜仁市雨凇的基本气候特征,主要对1978-2019年铜仁市冬季凝冻特征进行分析,划分出铜仁市强弱凝冻年,并建立近40a铜仁市冬季凝冻事件个例库,简要分析异常凝冻年的特征和成因。研究结果表明:1.近40a铜仁市雨凇日共出现1483d,万山站出现1088d(占铜仁市73.4%),除万山外雨凇均出现在12月、1月、2月;2.近40a铜仁市冬季共出现164次凝冻天气过程,冬季多出现4~5d的中级凝冻过程(占凝冻过程总数的47%);3.近40a铜仁市共有7a为异常凝冻年,异常凝冻年出现凝冻天气过程是凝冻过程总数的1/4,2008年是持续时间最长影响范围最大的特重级异常凝冻年;4.铜仁市冬季凝冻在空间上由西北向东南方向逐渐增加,时间上有不明显的递减趋势;5. 赤道太平洋Nino3.4区海温异常偏低,欧亚大陆500hPa高度场中高纬出现北高南低的异常环流,是铜仁市发生异常凝冻年的主要成因。  相似文献   
4.
The landscape setting of estuaries varies widely and is an important aspect of determining how they evolve. This paper focusses on alluvial estuaries in river valleys and how they respond to sea level rise. We examine the implications of marine transgression, as a response to sea level rise, where the estuary moves upwards and landwards to maintain its position in the tidal frame (so-called stratigraphic rollover). Here we encapsulate such kinematic movement of the estuary morphology using a ‘morphokinematic’ model, to assess the potential response to sea level rise and sediment supply. The model of the estuary form includes a single convergent channel, intertidal and surrounding floodplains (the valley) and allows the relative importance of the space available for deposition of sediments, the accommodation space, to be investigated as a function of rates of sea level rise and sediment supply. The transgression of the system is determined using a sediment mass balance, taking account of any supply from the river and marine environment. Model results confirm that the transgression distance, measured as the distance the entity moves landward, varies in proportion to the change in accommodation space, which mainly depends on the floodplain area. As the size of the floodplain reduces, the transgression distance is less and the system becomes much more sensitive to changes in the rate of sea level rise or changes in sediment supply. The greater demand for sediment when a floodplain is present results in greater cannibalization of the estuary form (i.e. greater landward movement) to meet the sediment demand. When the floodplain is disconnected from the estuary, the synergistic relationship is lost and the accommodation space increases. The capacity for restoration will depend on the availability of sediment and the prevailing rate of sea level rise.  相似文献   
5.
The Ganges-Brahmaputra-Meghna (GBM) delta plain within Bangladesh is one of the most vulnerable to relative sea level rise (RSLR) in the world especially under current anthropogenically modified (i.e., embanked) conditions. Tidal river management (TRM) as practiced in coastal regions of Bangladesh may provide an opportunity to combat RSLR by raising the land level through controlled sedimentation inside beels (depression within embanked polders) with re-opening of polders. To date, TRM has been applied to tide-dominated coastal regions, but the potential applicability of TRM for the beels within the polders of river-dominated and mixed flow (MF) regimes remains to be assessed. We apply a calibrated 2D numerical hydromorphodynamic model to quantify sediment deposition in a beel flooded through breaching of the polder dike under conditions of river-dominated, tide-dominated and MF regimes for different seasons and applying different regulation schemes for the flow into the beel. Simulation results show considerable seasonality in sediment deposition with largest deposition during the monsoon season. The potential of controlled flooding is highest in the tide-dominated region, where sediment accumulation can be up to 28 times higher than in the river-dominated region. Regulating flow into a beel increases trapping efficiency, but results in slightly lower total deposition than without regulation. We conclude that re-establishing flooding of the beel within the polder without regulating the flow into the beel through breaching of the polder dike is a promising strategy for the mixed and tide-dominated flow regions in the delta as the sediment accumulation can raise the land surface at a higher rate than RSLR and effective SLR (ESLR). In the more upstream river-dominated section of the delta, accumulation rates would be much lower, but the pressure of sea level rise on these areas is lower as well. Owing to the abundant availability of sediment, application of controlled flooding like TRM therefore provides an opportunity to counteract the impact of RSLR and ESLR by means of land raising, particularly along the tidal river reaches in the GBM delta.  相似文献   
6.
Based on a coupled ocean-sea ice model, this study investigates how changes in the mean state of the atmosphere in different CO_2 emission scenarios(RCP 8.5, 6.0, 4.5 and 2.6) may affect the sea ice in the Bohai Sea, China,especially in the Liaodong Bay, the largest bay in the Bohai Sea. In the RCP 8.5 scenario, an abrupt change of the atmospheric state happens around 2070. Due to the abrupt change, wintertime sea ice of the Liaodong Bay can be divided into 3 periods: a mild decreasing period(2021–2060), in which the sea ice severity weakens at a nearconstant rate; a rapid decreasing period(2061–2080), in which the sea ice severity drops dramatically; and a stabilized period(2081–2100). During 2021–2060, the dates of first ice are approximately unchanged, suggesting that the onset of sea ice is probably determined by a cold-air event and is not sensitive to the mean state of the atmosphere. The mean and maximum sea ice thickness in the Liaodong Bay is relatively stable before 2060, and then drops rapidly in the following decade. Different from the RCP 8.5 scenario, atmospheric state changes smoothly in the RCP 6.0, 4.5 and 2.6 scenarios. In the RCP 6.0 scenario, the sea ice severity in the Bohai Sea weakens with time to the end of the twenty-first century. In the RCP 4.5 scenario, the sea ice severity weakens with time until reaching a stable state around the 2070 s. In the RCP 2.6 scenario, the sea ice severity weakens until the2040 s, stabilizes from then, and starts intensifying after the 2080 s. The sea ice condition in the other bays of the Bohai Sea is also discussed under the four CO_2 emissions scenarios. Among atmospheric factors, air temperature is the leading one for the decline of the sea ice extent. Specific humidity also plays an important role in the four scenarios. The surface downward shortwave/longwave radiation and meridional wind only matter in certain scenarios, while effects from the zonal wind and precipitation are negligible.  相似文献   
7.
The effects of biological heating on the upper-ocean temperature of the global ocean are investigated using two ocean-only experiments forced by prescribed atmospheric fields during 1990–2007, on with fixed constant chlorophyll concentration, and the other with seasonally varying chlorophyll concentration. Although the existence of high chlorophyll concentrations can trap solar radiation in the upper layer and warm the surface, cooling sea surface temperature (SST) can be seen in some regions and seasons. Seventeen regions are selected and classified according to their dynamic processes, and the cooling mechanisms are investigated through heat budget analysis. The chlorophyll-induced SST variation is dependent on the variation in chlorophyll concentration and net surface heat flux and on such dynamic ocean processes as mixing, upwelling and advection. The mixed layer depth is also an important factor determining the effect. The chlorophyll-induced SST warming appears in most regions during the local spring to autumn when the mixed layer is shallow, e.g., low latitudes without upwelling and the mid-latitudes. Chlorophyll-induced SST cooling appears in regions experiencing strong upwelling, e.g., the western Arabian Sea, west coast of North Africa, South Africa and South America, the eastern tropical Pacific Ocean and the Atlantic Ocean, and strong mixing (with deep mixed layer depth), e.g., the mid-latitudes in winter.  相似文献   
8.
The sea ice conditions in the Kara Sea have important impacts on Arctic shipping, oil and gas production, and marine environmental changes. In this study, sea ice coverage (CR) less than 30% is considered as open water, its onset and end dates are defined as Topen and Tclose, respectively. The sea ice melt onset (Tmelt) is defined as the date when ice-sea freshwater flux initially changes from ice into the ocean. Satellite-based sea ice concentration (SIC) from 1989 to 2019 shows a negative correlation between Topen and Tclose (r = –0.77, p < 0.01) in the Kara Sea. This phenomenon is also obtained through analyzing the hindcast simulation from 1994 to 2015 by a coupled ocean and sea-ice model (NAPA1/4). The model results reveal that thermodynamics dominate the sea ice variations, and ice basal melt is greater than the ice surface melt. Heat budget estimation suggests that the heat flux is significant correlated with Topen (r = –0.95, p < 0.01) during the melt period (the duration of multi-year averaged Tmelt to Topen) influenced by the sea ice conditions. Additionally, this heat flux is also suggested to dominate the interannual variation of the heat input during the whole heat absorption process (r = 0.81, p < 0.01). The more heat input during this process leads to later Tclose (r = 0.77, p < 0.01). This is the physical basis of the negative correlation between Topen and Tclose. Therefore, the duration of open water can be predicted by Topen and thence support earlier planning of marine activities.  相似文献   
9.
1 Jiangsu Provincial Key Laboratory of Geographic Information Science and Technology/Key Laboratory for Land Satellite Remote Sensing Applications of Ministry of Natural Resources, School of Geography and Ocean Science, Nanjing University, Nanjing 210023, China; 2 Collaborative Innovation Center of Novel Software Technology and Industrialization, Nanjing 210023, China; 3 Collaborative Innovation Center of South China Sea Studies, Nanjing 210023, China  相似文献   
10.
陈莹  赵辉 《海洋学研究》2021,39(3):84-94
本文使用2003年1月—2019年12月MODIS遥感数据,结合海表温度、风速分析南海中西部叶绿素质量浓度分布特征和影响因素。结果显示南海中西部叶绿素质量浓度分布存在时空变化。EOF分解表明,EOF1可能反映台风等极端天气对叶绿素的影响;而EOF2 和EOF3均反映了夏季沿岸上升流对叶绿素分布的影响。相关分析表明南海中西部叶绿素质量浓度与海面风场呈正相关(r=0.87,p<0.01),与海表温度呈负相关(r=-0.59,p<0.05)。夏季在西南季风影响下越南东南沿海形成上升流,导致该区浮游植物旺发、叶绿素质量浓度升高;冬季受强东北季风影响,研究区海洋上层混合作用强烈,营养盐供应增加,促进了浮游植物生长,叶绿素质量浓度高于其他季节。  相似文献   
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