Coupling winds to ocean surface currents over the global ocean

A Wind stress–Current Coupled System (WCCS) consisting of the HYbrid Coordinate Ocean Model (HYCOM) and an improved wind stress algorithm based on Donelan et al. [Donelan, W.M., Drennan, Katsaros, K.B., 1997. The air–sea momentum flux in mixed wind sea and swell conditions. J. Phys. Oceanogr. 27, 2087–2099] is developed by using the Earth System Modeling Framework (ESMF). The WCCS is applied to the global ocean to study the interactions between the wind stress and the ocean surface currents. In this study, the ocean surface current velocity is taken into consideration in the wind stress calculation and air–sea heat flux calculation. The wind stress that contains the effect of ocean surface current velocity will be used to force the HYCOM. The results indicate that the ocean surface velocity exerts an important influence on the wind stress, which, in turn, significantly affects the global ocean surface currents, air–sea heat fluxes, and the thickness of ocean surface boundary layer. Comparison with the TOGA TAO buoy data, the sea surface temperature from the wind–current coupled simulation showed noticeable improvement over the stand-alone HYCOM simulation.     

一种新方法——低渗诱导虾夷扇贝三倍体的研究

研究开发了1种多倍体诱导的新方法,采用低渗抑制受精卵第2极体(PB2)的释放诱导虾夷扇贝(Patinopecten yessoensis)三倍体.结果表明:以低渗盐度S=12,在第一个PB2出现时开始处理,持续处理20 min,诱导率可高达(84.74±3.82)%;三倍体处理组的幼虫比对照组具有明显的生长优势,但是幼虫存活率低于二倍体对照组.     

Numerical study of baroclinic tides in Luzon Strait

The spatial and temporal variations of baroclinic tides in the Luzon Strait (LS) are investigated using a three-dimensional tide model driven by four principal constituents, O₁, K₁, M₂ and S₂, individually or together with seasonal mean summer or winter stratifications as the initial field. Barotropic tides propagate predominantly westward from the Pacific Ocean, impinge on two prominent north-south running submarine ridges in LS, and generate strong baroclinic tides propagating into both the South China Sea (SCS) and the Pacific Ocean. Strong baroclinic tides, ∼19 GW for diurnal tides and ∼11 GW for semidiurnal tides, are excited on both the east ridge (70%) and the west ridge (30%). The barotropic to baroclinic energy conversion rate reaches 30% for diurnal tides and ∼20% for semidiurnal tides. Diurnal (O₁ and K₁) and semidiurnal (M₂) baroclinic tides have a comparable depth-integrated energy flux 10–20 kW m⁻¹ emanating from the LS into the SCS and the Pacific basin. The spring-neap averaged, meridionally integrated baroclinic tidal energy flux is ∼7 GW into the SCS and ∼6 GW into the Pacific Ocean, representing one of the strongest baroclinic tidal energy flux regimes in the World Ocean. About 18 GW of baroclinic tidal energy, ∼50% of that generated in the LS, is lost locally, which is more than five times that estimated in the vicinity of the Hawaiian ridge. The strong westward-propagating semidiurnal baroclinic tidal energy flux is likely the energy source for the large-amplitude nonlinear internal waves found in the SCS. The baroclinic tidal energy generation, energy fluxes, and energy dissipation rates in the spring tide are about five times those in the neap tide; while there is no significant seasonal variation of energetics, but the propagation speed of baroclinic tide is about 10% faster in summer than in winter. Within the LS, the average turbulence kinetic energy dissipation rate is O(10⁻⁷) W kg^{− 1} and the turbulence diffusivity is O(10⁻³) m²s⁻¹, a factor of 100 greater than those in the typical open ocean. This strong turbulence mixing induced by the baroclinic tidal energy dissipation exists in the main path of the Kuroshio and is important in mixing the Pacific Ocean, Kuroshio, and the SCS waters.     

Effects of wind waves of the Pacific westerly on the eastern Pacific wave transport

There exists a tongueshaped swelldominance pool known as Swell Pool (SP) in the Eastern Pacific region. The monthlymean wave transports (WT) for each month of 2000 is computed using the wave products of ECMWF reanalysis data. By comparing the 2000 monthlymean WT and monthlymean wind field from QUICKSCAT, large differences are found between the wave transport direction and the wind direction over the Eastern Pacific. This may serve as an evidence for the existence of the SP in this region. The work done in this study indicates that the sources of swell in the Tropical Eastern Pacific (TEP) are in the westerly regions of the Southern and Northern Pacific.     

The effect of current and wave on whitecap coverage via relative speed： the Atlantic Ocean case

Whitecapping plays an important role in many air-sea exchange and upper ocean processes. Traditionally, whitecap coverage is parameterized as a function of wind speed only. At present, the relative speed of ocean current to wind is considered to be important in the air-sea exchange parameterization which is the function of wind speed only. In this paper, the effects of ocean surface velocity (current velocity and wave induced velocity) and the wave parameters on whitecap coverage through relative speeds are investigated, by applying a 2-parameter whitecap coverage model to the Atlantic Ocean. It is found that the impacts of both current and wave on whitecap coverage are considerable in the most part of the Atlantic Ocean. It is interesting that the effect of wave is more significant than that of current.     

基于遥感技术对黄河口水色与岸线季相变化特征研究

使用Landsat-5 TM 2004年11月24日与2005年5月13日黄河口遥感影像,配合准同期外业实测资料,进行黄河口水体水色物质叶绿素a与悬浮泥沙的动态反演与河口岸线解译.研究表明由于秋末与春初黄河上游来水物质含量的差异,上述悬浮指标值存在显著的季相差异.根据样值与光谱特征建立的反演模型得出的反演值与实测值有平均在0.85以上的相关关系,具有很好的反演效果.岸线解译成果表明,黄河口岸线演变迅速,在河流平枯水量时期仍然具有较强的变化,岸线推进尤以新河口附近显著.这表明,使用遥感手段是进行河口生态环境质量监测的有效手段,是进行岸线动态变化研究的一种基本技术支撑手段.     

GPS测量技术在海阳市城区控制中的应用研究

通过海阳市城区D级GPS控制网的布设,探讨了GPS控制网的布网方法和要求,阐述了GPS外业观测的质量控制措施,基线处理方法及其精度检验,讨论了已知控制点的选用方法,以及平差中应注意的问题等。     

基于卫星遥感的南海海域POC浓度时空变化特征研究

海水中颗粒有机碳(POC)是海洋碳循环的基本变量,在海洋碳循环研究中起着关键作用。根据2003—2020年南海区域遥感数据反演的POC数据集,分析了南海海域POC浓度时空变化规律。研究结果表明:在整个研究区POC的年平均浓度变化范围为76.98~83.91 mg/m^(3);POC浓度分布呈现出近岸高、远海低,主要原因为南海近岸浅水海域POC浓度主要受陆源输入和沿岸流影响,远海区域内POC浓度主要受南海环流和水团控制。在季度上,第1—4季度POC浓度平均值为89.62,72.90,79.22,84.86 mg/m^(3);总体上POC浓度呈现出夏季低、冬季高的趋势,主要原因为南海受到冬季的东北季风和夏季的西南季风影响,影响到南海海水混合层的结构变化,浮游植物在冬季比夏季更为繁盛。在月尺度上,1月POC浓度平均值达到最高值;2—4月POC浓度平均值快速下降,5月POC浓度平均值达到最低值;6—12月POC浓度平均值开始缓慢上升。以上研究结论可为南海碳循环、政府碳达峰、碳中和及应对气候变化等提供决策依据。     

气候变化和生态建设对秦岭—淮河南北植被动态的影响

论文基于2000-2019年秦岭—淮河南北MODIS-NDVI植被覆盖数据,对中国南北过渡带植被时空变化进行分析,并探讨植被动态变化驱动因素.结果 表明:①在趋势变化上,2000-2019年秦岭—淮河南北植被显著恢复.其中,秦巴山区植被恢复面积占比最高,其次是巫山山区和关中平原;植被退化区面积占比仅为6.4％,主要分布...     

一次“双谷”型ENSO冷事件的成功预测

2011年春季利用基于Morlet小波分析的余弦函数叠加法对中东太平洋的ENSO冷事件(La Nina)未来发展进行预测,结果成功地预测出了一次呈现"双谷"型的ENSO冷事件发展过程。此方法拟合的1980年1月—2011年2月的Nino3.4指数序列与原序列的相关系数为0.68;对2000—2011年间7次ENSO事件预测结果检验,发现提前3、6、9和12个月时Nino3.4指数的平均预报相关系数(R)分别为0.79,0.81,0.83和0.64,平均预报技巧得分(SS)分别为0.87,0.80,0.80和0.27。此方法具有计算简便,易于运行,预报时效稳定的特点,特别在提前6—9个月时对ENSO的预测仍有较好效果。