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441.
Performances of seven datasets in presenting the upper ocean heat content in the South China Sea 总被引:1,自引:0,他引:1
In this study, the upper ocean heat content (OHC) variations in the South China Sea (SCS) during 1993- 2006 were investigated by examining ocean temperatures in seven datasets, including World Ocean Atlas 2009 (WOA09) (climatology), Ishii datasets, Ocean General Circulation Model for the Earth Simulator (OFES), Simple Ocean Data Assimilation system (SODA), Global Ocean Data Assimilation System (GODAS), China Oceanic ReAnalysis system (CORA), and an ocean reanalysis dataset for the joining area of Asia and Indian-Pacific Ocean (AIPO1.0). Among these datasets, two were independent of any numerical model, four relied on data assimilation, and one was generated without any data assimilation. The annual cycles revealed by the seven datasets were similar, but the interannual variations were different. Vertical structures of temperatures along the 18°N, 12.75°N, and 120°E sections were compared with data collected during open cruises in 1998 and 2005-08. The results indicated that Ishii, OFES, CORA, and AIPO1.0 were more consistent with the observations. Through systematic comparisons, we found that each dataset had its own shortcomings and advantages in presenting the upper OHC in the SCS. 相似文献
442.
443.
基于弱非线性理论及再分析同化数据, 计算了苏禄—苏拉威西海冬季及夏季内孤立波动力参数, 包括内孤立波线性速度、一阶和二阶非线性参数及线性色散参数, 并研究了这些参数的时空变化特征。我们发现, 虽然苏拉威西海域受到更加显著的西北太平洋水入侵, 但苏禄海内孤立波动力参数的时空变化特征却比苏拉威西海更为显著。夏季苏禄海内孤立波线性速度总体上比冬季约大0.1m·s-1; 与此相反, 夏季苏拉威西海内孤立波线性速度却比冬季约小0.05m·s-1。无论是一阶或二阶非线性动力参数, 其在苏拉威西海的时空变化均比较微弱, 但在苏禄海则较为显著。苏禄海夏季一阶非线性动力参数比冬季高出约3×10-3s-1, 但是夏季二阶非线性动力参数却比1月份低约3×10-5m-1·s-1。此外, 相比冬季, 夏季苏禄海和苏拉威西海的色散动力参数均有所减弱, 但其在苏禄海减弱的幅度更大。综上, 苏禄—苏拉威西海环流引起的水体层化最大浮力频率所在深度的时空变化是造成上述内孤立波动力参数时空变化的根本原因。 相似文献
444.
本研究利用人工潮汐系统(每天淹水0、6、12和18h), 研究了红海榄幼苗根系呼吸代谢对水淹胁迫的响应。结果表明, 每天淹水6h对红海榄幼苗的生长影响不大, 但随着水淹时间的延长, 红海榄幼苗的生长显著受到抑制。水淹时间的延长同样明显抑制了红海榄幼苗根系的产能效率, 且根系三羧酸循环的有氧呼吸速率、三磷酸腺苷含量以及琥珀酸脱氢酶和苹果酸脱氢酶活性最小值均出现在每天水淹18h处理组中。相反, 水淹胁迫下红海榄幼苗根系乙醇脱氢酶、乳酸脱氢酶活性以及乙醇和乳酸含量都呈上升的趋势。综上, 尽管无氧呼吸可一定程度上缓解三羧酸循环受阻所导致的产能匮乏, 但是过度的水淹胁迫仍会扰乱红海榄幼苗正常的生长和代谢, 导致三磷酸腺苷产能效率的降低以及无氧发酵代谢产物的积累。 相似文献
445.
浮游植物是海洋生态系统食物链的基础组成, 并通过光合作用影响着海表二氧化碳通量变化。文章基于高叶绿素a浓度水域面积指标构建南海浮游植物生物量的估算体系。利用遥感数据, 采用经验正交函数分解插值方法, 重构长时间序列的南海叶绿素a浓度场, 并研究了南海高叶绿素a浓度水域面积特征的时空分布。结果发现: 高叶绿素a浓度水域面积变化有着显著季节特征, 在冬季面积达到最大值, 在夏季达到最小值, 但是该水域对应的叶绿素a浓度却在冬季达到最小值, 在夏季达到最大值, 这一特征可能是由于风驱动的海表动力过程使得海表叶绿素重新分布; 空间分布上, 高叶绿素a浓度水域常年存在于海岸附近, 特别是在中国沿海、越南沿岸、泰国湾以及婆罗洲岛附近。在巽他陆架与湄公河口东部中央海盆, 高叶绿素a浓度区域面积呈年际变化。受厄尔尼诺调控的南海季风, 导致不同年份湄公河口东南沿海存在不同程度的北部冷水侵入, 北部冷水入侵可能是引起局地浮游植物生物量增减的原因。 相似文献
446.
珊瑚中的δ18O含量可以高精度地记录热带海洋中的气候变率及气候变化信息, 从而弥补器测观测时间长度有限的缺陷, 为反演过去长期的气候状况提供了可能。热带印度洋的气候模态通过海气相互作用影响周边区域甚至全球的气候, 具有重要的研究意义。本文对比分析了1880—1999年间热带印度洋4个站点(肯尼亚、坦桑尼亚、塞舌尔、明打威)的珊瑚δ18O数据, 研究了其对热带印度洋气候的反演情况。结果显示, 珊瑚δ18O对海表温度(sea surface temperature, SST)的长期变化趋势反演良好, 珊瑚δ18O与局地SST在季节循环中保持一致, 且在低温季节对SST的变化更为敏感。此外, 4个站点的珊瑚δ18O对印度洋海盆模态(Indian Ocean Basin Mode, IOBM)和印度洋偶极子模态(Indian Ocean Dipple Mode, IODM)有一定的表征能力, 并且δ18O记录的热带印度洋年际变率受年代际变率调制。本文的研究结果表明, 珊瑚δ18O数据对于了解古气候时期热带印度洋气候变率具有重要的指示意义, 但同时也需要综合考虑不同站点的信息来完整地反映印度洋在历史时期的气候变化情况。 相似文献
447.
《Deep Sea Research Part I: Oceanographic Research Papers》2003,50(7):917-926
Time-longitude diagrams of monthly anomalies of TOPEX/Poseidon sea surface height (SSH), Levitus steric height, COADS wind stress curl, as well as meridional surface wind averaged over the northern South China Sea (SCS) from 18° to 22°N, exhibit a coherent westward phase propagation, with a westward propagation speed of about 5 cm s−1. The consistency between oceanic and atmospheric variables indicates that there is a forced Rossby wave in the northern SCS. The horizontal patterns of monthly SSH anomalies from observations and model sensitivity experiments show that the forced Rossby wave, originating to the northwest off Luzon Island, actually propagates west-northwestward towards the Guangdong coast because of zonal migration of the meridional surface wind. The winter Luzon Cold Eddy (LCE), which has been found from field observations, can be identified as a forced Rossby wave with a negative SSH anomaly in winter. It corresponds to strong upwelling and a negative temperature anomaly. Sensitivity experiments show that the wind forcing controls the generation of the LCE, while the Kuroshio is of minor importance. 相似文献
448.
胶州湾表层沉积物中甲藻孢囊的分布 总被引:3,自引:0,他引:3
为了解胶州湾表层沉积物中甲藻孢囊的分布特征,于2015年7月采集胶州湾12个站位的表层沉积物进行甲藻孢囊分析,共鉴定甲藻孢囊37种(分属5个类群)和2种未定种,包括自养型20种和异养型17种,优势种为膝沟藻。其Shannon-Wiener多样性指数[H′(log2)]介于2.84—3.91,平均值为3.42;均匀度指数介于0.75—0.98,平均值为0.88,总体值较高。胶州湾海域各站位的甲藻孢囊丰度介于96—969cyst/g DW(干重),平均丰度为401cyst/g DW,呈现出临近湾口处丰度较高,而湾内较低的空间分布差异特征。尤其值得注意的是,有两种产虾夷扇贝毒素(Yessotoxin,YTX)甲藻[具刺膝沟藻(Gonyaulax spinifera)和多边舌甲藻(Lingulodinium polyedrum)]的孢囊和3种产麻痹性贝类毒素(PSP)甲藻[塔玛/链状亚历山大藻(Alexandrium catenella/tamarense)、微小/相似亚历山大藻(A.minutum/affine)和链状裸甲藻(Gymnodinium catenatum)]的孢囊在胶州湾海域大多数站位均有分布,尽管其数量不高,但其广泛的分布范围仍需引起我们的重视。 相似文献
449.
《Deep Sea Research Part II: Topical Studies in Oceanography》1999,46(11-12):2735-2760
An extended time series of particle fluxes at 3800 m was recorded using automated sediment traps moored at Ocean Station Papa (OSP, 50°N, 145°W) in the northeast Pacific Ocean for more than a decade (1982–1993). Time-series observations at 200 and 1000 m, and short-term measurements using surface-tethered free-drifting sediment traps also were made intermittently. We present data for fluxes of total mass (dry weight), particulate organic carbon (POC), particulate organic nitrogen (PON), biogenic Si (BSi), and particulate inorganic carbon (PIC) in calcium carbonate. Mean monthly fluxes at 3800 m showed distinct seasonality with an annual minimum during winter months (December–March), and maximum during summer and fall (April–November). Fluxes of total mass, POC, PIC and BSi showed 4-, 10-, 7- and 5-fold increases between extreme months, respectively. Mean monthly fluxes of PIC often showed two plateaus, one in May–August dominated by <63 μm particles and one in October–November, which was mainly >63 μm particles. Dominant components of the mass flux throughout the year were CaCO3 and opal in equal amounts. The mean annual fluxes at 3800 m were 32±9 g dry weight g m−2 yr−1, 1.1±0.5 g POC m−2 yr−1, 0.15±0.07 g PON m−2 yr−1, 5.9±2.0 g BSi m−2 yr−1 and 1.7±0.6 g PIC m−2 yr−1. These biogenic fluxes clearly decreased with depth, and increased during “warm” years (1983 and 1987) of the El Niño, Southern Oscillation cycle (ENSO). Enhancement of annual mass flux rates to 3800 m was 49% in 1983 and 36% in 1987 above the decadal average, and was especially rich in biogenic Si. Biological events allowed estimates of sinking rates of detritus that range from 175 to 300 m d−1, and demonstrate that, during periods of high productivity, particles sink quickly to deep ocean with less loss of organic components. Average POC flux into the deep ocean approximated the “canonical” 1% of the surface primary production. 相似文献
450.
采用WRF中尺度天气预报模式,针对海南岛多云天气条件下的一次典型海风个例,对局地海风环流结构进行数值模拟,分析海风环流的演变特征,并通过设计改变海南岛地形的敏感性试验,探究地形对海南岛局地海风环流结构以及云水分布的影响。结果表明:海岛西部陡峭的山区造成海风强迫抬升,偏南背景风使得海岛北部高空回流明显,海岛西部、北部的海风结构较为完整;地形高度越高,海岛南部山区的阻挡作用越强,西部地区的海风高空回流特征越显著,西部、西北部云水混合比的位置也越深入内陆;受南海季风的影响,与晴空天气相比,多云天气下海风强盛期全岛的最大风速稍大,海风在垂直方向上达到的高度更高;移平地形后,多云天气下全岛风速平均仅减少2~3 m·s^-1,而晴空天气下全岛风速则大大减弱,即多云天气下海风环流水平结构受地形的影响比晴空天气下弱。 相似文献