新村湾海黾草（Thalassia hemprichii）的生长策略研究

海草的种内差异是它在特定环境中形成生长策略的关键因素。本研究通过将现场实测数据和文献记录进行类比以探讨新村湾海黾草（Thalassia hemprichii）的生长策略。研究结果表明海黾草地下茎伸长速率的差异可以解释该海草生物量和生长的大部分种内差异;新村湾海黾草垂直地下茎和水平地下茎的伸长速率在夏季分别为2．38cm／yr和24．4cm／yr,在冬季分别为1．87cm／yr和29．2cm／yr。海黾草茎枝密度的变化范围是822shootsm^-2至941shoots m^-2,最大值出现在夏季而最小值出现在冬季,生物量的季节变化与此类似。新村湾海黾草通过交替调节垂直地下茎和水平地下茎的伸长速率以适应光照强度和温度的季节变化,从而导致茎枝密度和地上生物量的相应变化。通过这样的生长策略,海黾草可以把夏季干旱和冬季光照强度下降对其生长造成的消极影响降低到最小程度。     

利用jason-1资料验证区域海气耦合模式模拟台风浪的有效性

本文基于中尺度大气模式MM5、区域海洋模式POM及第三代海浪模式WW3建立了综合考虑海气间动力、热力相互作用的区域海气耦合模式系统.利用耦合模式模拟中国南海的两次典型的台风过程,并利用iasotl-1卫星高度计资料验证耦合模式模拟台风浪的有效性.结果表明:耦合模式能够较好地模拟南海台风的移动和强度,但模拟台风系统略偏弱,耦合模式对正常路径台风的模拟效果优干转向型台风;耦合模式能够模拟出南海台风过程中海浪场的演变特征,模拟结果与iason实测值相关性较好,相对误差在可接受范围;区域海气耦合模式为台风等强天气过程中海洋、气象要素演变特征及海-气界面相互作用过程的研究开辟了一条有效途径.     

对“海域使用分类体系”的几点思考

文章在分析海域使用分类体系制定背景与意义的基础上,指出海域使用分类体系遵循的基本原则,并探讨和分析了新的海域使用分类体系设置及调整的主要内容,对与其他相关管理工作的衔接关系进行了简要分析和总结.     

A coupled multi-category sea ice model and POM for Baffin Bay and the Labrador Sea

An overview of the seasonal variation of sea-ice cover in Baffin Bay and the Labrador Sea is given. A coupled ice-ocean model, CECOM, has been developed to study the seasonal variation and associated ice-ocean processes. The sea-ice component of the model is a multi-category ice model in which mean concentration and thickness are expressed in terms of a thickness distribution function. Ten categories of ice thickness are specified in the model. Sea ice is coupled dynamically and thermodynamically to the Princeton Ocean Model. Selected results from the model including the seasonal variation of sea ice in Baffin Bay, the North Water polynya and ice growth and melt over the Labrador Shelf are presented.     

Contribution of a pathway through the Arctic Ocean to the re cent reduction in the ice cover

The sea ice cover in the Arctic Ocean has been reducing and hit the low record in the summer of 2007. The anomaly was extremely large in the Pacific sector. The sea level height in the Bering Sea vs. the Greenland Sea has been analyzed and compared with the current meter data through the Bering Strait. A recent peak existed as a consequence of atmospheric circulation and is considered to contribute to inflow of the Pacific Water into the Arctic Basin. The timing of the Pacific Water inflow matched with the sea ice reduction in the Pacific sector and suggests a significant increase in heat flux. This component should be included in the model prediction for answering the question when the Arctic sea ice becomes a seasonal ice cover.     

A coupled ice-ocean ecosystem model for 1-D and 3-D applications in the Bering and Chukchi Seas

Primary production in the Bering and Chukchi Seas is strongly influenced by the annual cycle of sea ice. Here pelagic and sea ice algal ecosystems coexist and interact with each other. Ecosystem modeling of sea ice associated phytoplankton blooms has been understudied compared to open water ecosystem model applications. This study introduces a general coupled ice-ocean ecosystem model with equations and parameters for 1-D and 3-D applications that is based on 1-D coupled ice-ocean ecosystem model development in the landfast ice in the Chukchi Sea and marginal ice zone of Bering Sea. The biological model includes both pelagic and sea ice algal habitats with 10 compartments： three phytoplankton （pelagic diatom, flagellates and ice algae： D, F, and Ai） , three zooplankton （copepods, large zooplankton, and microzooplankton ： ZS, ZL, ZP） , three nutrients （ nitrate ＋ nitrite, ammonium, silicon ： NO3 , NH4, Si） and detritus （Det）. The coupling of the biological models with physical ocean models is straightforward with just the addition of the advection and diffusion terms to the ecosystem model. The coupling with a multi-category sea ice model requires the same calculation of the sea ice ecosystem model in each ice thickness category and the redistribution between categories caused by both dynamic and thermodynamic forcing as in the physical model. Phytoplankton and ice algal self-shading effect is the sole feedback from the ecosystem model to the physical model.     

楚科奇海和加拿大海盆表层沉积物中好气异养细菌的地理分布

本文用MPN法测定楚科奇海和加拿大海盆表层沉积物中好气异养细菌(GAB)的含量,并对其地理学分布进行分析。结果表明,研究区GAB的检出率高达100%。4℃时GAB的含量范围、平均含量为4.00×102-2.40×106个.g-1、1.71×106个.g-1。25℃时GAB的含量范围、平均含量为2.40×105-2.40×107个.g-1、1.10×107个.g-1。无论是含量范围,还是平均含量,均是25℃时的培养结果大于4℃时的培养结果。GAB含量的地理分布趋势是随纬度增高,含量呈降低趋势。在经度变化上则为由东向西,含量呈降低趋势。对沉积物所处水深的分析,表明其在4℃培养得出来的GAB含量随水深增加有下降的趋势,25℃培养出来的GAB含量受环境影响较小,与水深变化关系不明显。     

海三棱藨草(Scirpus mariqueter)根系低分子量有机酸对根际沉积物重金属生物有效性的影响

应用等离子光谱仪(ICP)与高效液相色谱仪(HPLC)分别对海三棱藨草根际沉积物中重金属(Cu、Pb、Zn和Cd)不同化学形态含量和植物根系分泌物中常见低分子量有机酸进行了季节跟踪测定,分析了有机酸(柠檬酸、草酸、酒石酸、苹果酸、甲酸和乳酸)含量与重金属化学形态(可交换态、碳酸盐结合态、铁锰氧化物结合态、有机结合态和残渣态)的季节相关性。结果表明,柠檬酸、草酸和苹果酸含量与Cu和Pb的除残渣态外的其它4种形态含量呈正相关性,表明其能提高Cu和Pb生物有效性,与Zn的所有形态含量呈负相关性,降低了生物有效性;酒石酸、甲酸和乳酸含量与Cu和Pb的可交换态含量呈负相关性,而与其它形态含量相关性不明显,降低了生物有效性。与Zn的除残渣态外的其它4种形态含量呈正相关性,提高其生物有效性。而上述所有有机酸与Cd的各种化学形态相关性不明显。表明其对Cd的生物有效性影响不大。     

海黍子乙酸乙酯相提取物的抑菌和体外免疫活性的研究

研究7 种海黍子(Sargassum kjellmanianum)乙酸乙酯相提取物的抗菌活性和对小鼠免疫细胞功能的影响, 筛选出抗菌和体外免疫活性较强的提取物。考察7 种提取物的抗菌活性, 以及对小鼠腹腔巨噬细胞RAW264.7 增殖、脾淋巴细胞增殖、释放NO、吞噬中性红能力的影响。抑菌实验结果表明, 7 种提取物对真菌无明显的抑制作用, 而针对不同的细菌表现出不同的程度的抑制活性; 免疫实验结果表明, 乙酸乙酯相的7 个样品都具有一定的体外免疫活性, 不但可以促进小鼠巨噬细胞RAW264.7 增殖和体外刺激淋巴细胞增殖, 还可以促进小鼠腹腔巨噬细胞产生NO和吞噬中性红。     

三次黑潮大弯曲形成机制的分析

通过对HYbrid Coordinate Ocean Model(HYCOM)高分辨率海洋环流模式(1/12°)数值模拟结果的分析发现,该模式对1993—2003年的模拟结果出现了3次显著的黑潮大弯曲现象。研究表明,日本以南这3次黑潮大弯曲路径的形成与2种机制有关:沿30°N西传的海洋Rossby波将太平洋145°E附近海面高度正异常信号传到九州岛东南海域是第二次黑潮大弯曲的主要形成机制;而冲绳海槽北部海水的位势涡度负异常则有利于九州岛东南反气旋再循环流海域海面高度正异常,有助于第一次和第三次黑潮大弯曲路径的形成。