排序方式: 共有2条查询结果,搜索用时 0 毫秒
1
1.
Supercooled water with temperatures below freezing point,was identified from hydrographic data obtained by Chinese and Australian expeditions to Prydz Bay,Antarctica,during the austral summer.The study shows that most supercooled waters occurred at depths of 63-271 m in the region north of the Amery Ice Shelf(AIS) front.The maximum supercooling was 0.16°C below the in-situ freezing point.In temperature and salinity ranges of-2.14--1.96°C and 34.39-34.46,respectively,the water was colder and fresher than peripheral shelf water.The supercooled water had less variability in the vertical profiles compared to shelf water.Based on analysis of their thermohaline features and spatial distribution,as well as the circulation pattern in Prydz Bay,we conclude that these supercooled waters originated from a cavity beneath the AIS and resulted from upwelling just outside of the AIS front.Water emerging from the ice shelf cools to an extremely low temperature(about-2.0°C) by additional cooling from the ice shelf,and becomes buoyant with the addition of melt water from the ice shelf base.When this water flows out of the ice shelf front,its upper boundary is removed,and thus it rises abruptly.Once the temperature of this water reaches below the freezing point,supercooling takes place.In summer,the seasonal pycnocline at-100 m water depth acts as a barrier to upwelling and supercooling.The upwelling of ice shelf outflow water illuminates a unique mid-depth convection of the polar ocean. 相似文献
2.
南极麦肯齐湾冰间湖的时空变化及主要影响因素分析 总被引:1,自引:0,他引:1
利用2003—2009年AMSR-E日平均海冰密集度数据,对南极普里兹湾埃默里冰架前缘中西部的麦肯齐湾冰间湖进行了分析。针对冰架前缘冰间湖的特点,本文在阈值法和连通域法的基础上,提出了生长点法作为识别此类冰间湖的方法。研究发现,该冰间湖的开始时间为每年的3月中下旬,结束时间为每年的10月末到11月初,平均出现天数为226d。冰间湖的面积每天都发生变化,表现出天气尺度的变化特征。全年累计的冰间湖面积平均为(8.33±1.55)×105 km2。冰间湖最大面积为1.69×104 km2,出现在2004年。结合NCEP再分析数据中的日平均风速资料的分析发现,在6~8月,冰间湖的天气尺度变化主要是受风场的影响,冰间湖面积与离岸风速有很好的相关性。 相似文献
1