关键区

  • 网络key area;Key-K;critical section
关键区关键区
  1. 结果表明,东南太平洋是研究南极绕极波动(ACW)的关键区,并由此定义东南太平洋ACW活动指数(EPAI)。

    The results show that the southeast Pacific is a key area for researching ACW . Then the activity index of ACWs over the southeast Pacific ( EPAI ) is defined .

  2. 根据相似预报的基本原理,以气象要素场的时空分布和500hPa、100hPa距平场的关键区作为主要的相似因子,设计相似预报的客观化方案。

    On the basis of essential principle of similar forecast , using element distribution in time and space , key area over 500hPa 、 100hPa anomaly as the main similar factor , design objective scheme about similar forecast .

  3. 与南区梅雨期降水耦合正相关的南海和赤道东太平洋关键区海温异常分布实际上属于同一种海温分布型,但两个海温Key区所影响到的南区的范围是不相同的。

    In fact , the two SST distributions mentioned above belong to the same SST distribution pattern , but the regions influenced by the two SST distribution are different from each other .

  4. 影响江南汛期降水的海温异常关键区位于9~1°S,121~129°E,关键影响时段为前一年的5~7月。

    Waters bounded by 9-1 ° S , 121-129 ° E are the key zones of SST anomalies that affect the precipitation in these regions over May - July in preceding years .

  5. 在年代际时间尺度上,夏季关键区极冰与当年冬季AO具有很强的负相关性。

    The artic sea-ice in key region in summer has significant , negative interdecadal relationship with winter AO in the same year .

  6. 通过SVD分析,发现西北地区春季和夏季降水与相对海温关键区有较好的耦合正相关。

    There is a positive couple correlation between spring and summer precipitation in northwest China and SSTA by SVD analysis .

  7. 在唐氏综合征关键区上的基因数量的增加从而引起其产物的过度表达被认为是引起DS临床表现的原因。

    In DS critical region , the increase of genes causing overexpression of its product is considered to be the reason causing clinical manifestations of DS .

  8. 结果表明,热带西南太平洋不仅是年代际信号的显著区,同时也有可能是影响ENSO循环十年际变化的关键区。

    The western tropical South Pacific , where there is an evident decadal variability , is the key region of the ENSO decadal variability .

  9. 两关键区SSTA周期特征反映辽宁汛期降水异常的不同长度周期特征,且有很好的互补关系。

    The periodic variation of SSTA of the two Key regions combine reflect vary length periodic variation of flood season precipitation anomalies in Liaoning areas .

  10. 结果发现:影响大连地区冬季气温的海温异常关键区位于5°S~5°N、60°~75°E,关键影响时段为当年的4~7月;

    It is found that waters within 5 ° S-5 ° N , 60 ° - 75 ° E are the key areas of sea surface temperature anomaly ( SSTA ) that affect the winter temperature of these regions from April to July .

  11. 遥相关结构分析表明,冬夏季节OLR场分别有8个遥相关关键区,它们之间存在着较强的同时性遥相关联系。

    Analyses of teleconnection structure show that there are8 key regions in winter and summer OLR fields , which are highly teleconnected in a simultaneous manner among them .

  12. 关键区(143°E-160°E,27°N-39°N)10-11月海温与次年江淮南区梅雨期气温日较差存在较好的反相关关系。

    There is a apparent negative correlation between the temperature daily range in south area of Changjiang-huaihe valley over Meiyu period and SSTA in the Key region ( 143 ° E 160 ° E , 27 ° N 39 ° N ) from November to December in former year .

  13. 各月份北极涡对太平洋海温的响应一般滞后2-8个月。影响极涡的海温关键区一般位于Nino区。(6)CAM可以用来对极涡进行模拟研究。

    The response of polar vortex to the key region SST lag 2 to 8 months , and the key region usually locate in the area of Nino . ( 6 ) The CAM is able to used in simulating polar vortex .

  14. 还以表格形式给出了CA141型汽车车头典型零件关键区位置的5种方案的计算应力值。

    A table which explained calculation stress data and critical area of typical parts for five versions is provided .

  15. 中纬度西风漂流区以及热带中东太平洋SSTA与北半球大气环流存在显著的相关,是太平洋最主要的两个关键区。

    Various statistical research reveals that there is significant correlation between North Hemisphere Circulation and SSTA in West Wind Drift region , as well as in tropical eastern Pacific , which are the two key regions in Pacific .

  16. 上述基因的过量可能解释了其中的一些变化,但唐氏综合征关键区(DSOR)上的其他未被认识的基因也可能涉及了DS的疾病过程。

    Excess of the above genes may explain some of the changes , while the other unrecognized genes in Down syndrome critical region ( DSOR ) may be involved in the disease process of DS .

  17. 夏季OLR遥相关关键区主要分布在孟加拉湾至赤道西太平洋、东太平洋与低纬度大西洋和中纬度东亚沿海与北美大陆,构成低纬度和中纬度两类纬向正遥相关型。

    The key teleconnection for summer is made up of two positive zonal patterns , which locate from the Bay of Bengal to the equatorial West Pacific and East Pacific , and over low latitude Atlantic , middle latitude East Asia coastal areas and North America continent .

  18. 影响中国东部夏季降水的前期海温关键区

    SST Key area to east China summer rainfall

  19. 还给出了在任意形状关键区中自动识别是否存在冷涡的方法。

    A method of recognizing automatically Northeast cold vortex in any shape is given .

  20. 随着关键区海温的改变,即赤道中东太平洋和印度洋冷海温异常减弱,大气环流随之调整。

    Along with the change of sst anomaly in the both ocean , the atmospheric circulation adjusted .

  21. 热带东太平洋关键区海温与中国东北地区气温的关系

    Relationship between the key region SST of the tropical eastern Pacific and air temperature of Northeast China

  22. 后期海、气关键区变化与第二耦合场相符。

    The later period ocean-atmosphere variation conforms to the second coupling field of the sea temperature and atmosphere .

  23. 厄尔尼诺/南方涛动的海气相互作用关键区及对外强迫响应的研究

    A Study of Key Region of Ocean-Atmosphere Interaction for ENSO and the Response of ENSO to External Forcing

  24. 影响中国东北降水的关键区是中纬西北太平洋与低纬中东太平洋的反向耦合结构。

    And middle northwest Pacific-low latitude mid-east Pacific are key areas infecting precipitation in North China more obviously .

  25. 提出北美-格陵兰中高纬是环流演变的关键区。

    The middle-high latitude area in North America-Greenland can be treated as a key area of circulation evolution .

  26. 基于关键区海温的华南香蕉寒害长期预报模型探讨

    Study on Seasonal Forecast of Banana Chilling Injury in South China Based on Sea Surface Temperature of Key Areas

  27. 甘肃省年有效降水次数异常区域大致分为4个关键区;

    According to the spatial distribution of effective precipitation frequency , the province can be divided into 4 main regions ;

  28. 医护人员周围的粒子浓度高于相近换气次数下的垂直流送风方式。手术关键区上的沉降粒子数明显低于垂直送风方式,相近的换气次数下,粒子减少率约为65%。

    Under same air change rate , the particle deposition in horizontal air supply is 65 % less than that in vertical supply model .

  29. 夏季,南海中部海盆地带仍是影响同期华南降水的关键区。

    In summer , the " key region " still exists over the middle SCS and has influence on precipitation in the corresponding period .

  30. 北太平洋是年代际尺度上全球气候变化的关键区,对北半球气候有重要的影响。

    The North Pacific has important impacts on climate in the Northern Hemisphere . It is a key area of global climate change on decadal scales .