摘要:
本文利用简单海洋模式同化再分析产品等资料,阐述了阿拉伯海与赤道西印度洋,阿拉伯海与阿曼湾之间淡水输运量的季节变化特征,揭示了阿拉伯海淡水输运量的基本平衡和季节变化特征.结果表明,阿拉伯海得到的淡水输运量(包括来自赤道西印度洋、河流)和失去的淡水输运量(包括降水量减蒸发量、向阿曼湾输运)基本相当.阿拉伯海通过海气交换失去的淡水(降水量减蒸发量)主要由来自赤道西印度洋(包括孟加拉湾)的淡水输运来补偿,赤道西印度洋向阿拉伯海的淡水输运对维持阿拉伯海的盐度基本平衡起到至关重要的作用.阿拉伯海的淡水输运量在1?6月和12月为负值,失去淡水;7?11月为正值,9月最大,得到淡水.阿拉伯海的净淡水输运量的季节变化特征表现为单峰现象.阿拉伯海与赤道西印度洋(9°N断面)的淡水输运量主要出现在表层至约200 m层,多年平均约为0.1×106 m3/s,向阿拉伯海输运.从10月至翌年3月,来自孟加拉湾的低盐水向阿拉伯海输运,该输运主要出现在印度半岛西南端近海约60 m层以浅区域.夏季和秋季,出现在索马里半岛东部海域的涡旋(大回旋)引起的输运(涡旋的西部低盐水向北输运,东部高盐水向南输运),不仅输运量是一年当中最大的,而且影响的深度可达约300 m.该输运从6月开始形成,8?9月最强,11月迅速减弱.阿拉伯海与阿曼湾的淡水输运量较小,其垂直分布呈现3层结构,表层至10 m层,高盐水向阿拉伯海输运;15~170 m层,低盐水向阿曼湾输运;175~400 m层,高盐水向阿拉伯海输运.阿曼湾湾口断面多年平均淡水输运量约为0.39×104 m3/s,向阿曼湾输运.%Simple Ocean Data Assimilation reanalysis and other data were used to explore seasonal variation char-acteristics of freshwater transport between the Arabian Sea (AS) and the Equatorial Western Indian Ocean (EWIO), and the Gulf of Oman (GOO). Freshwater budget in the AS is characterized by a basic balance and its seasonal vari-ation is also present. Our results indicate that the amount of input freshwater from the EWIO and river discharge is roughly equal to the amount of freshwater output to GOO and lost caused by the evaporation overwhelming the pre-cipitation (P–E). The lost freshwater via air-sea exchange (i.e. P–E) is compensated by freshwater flux from the EWIO and the Bay of Bengal (BOB), which plays a key role in maintaining the basic balance of salinity over the AS. Net freshwater flux in the AS is negative (i.e. lost freshwater) from January to June together with December, and positive (i.e. receive freshwater) during July and November with a maximum positive value in September. The seasonal variation characteristics of net freshwater flux in the AS shows a single remarkable peak. Along the 9°N section, freshwater exchange between the EWIO and the AS primarily occurs from the surface to 200 m depth, with a multi-year averaged net flux into the AS of about 0.1×106 m3/s. From October to next March, the BOB low-salin-ity water extends into the AS at above 60 m depth through the southwest of the Indian peninsula. In summer and au-tumn, the transport associated with the Great Whirl located at the east of Somali Peninsula, is characterized by low (high) salinity water in the west (east) of the whirl transported northward (southward) into the AS (equatorial Indi-an Ocean). This transport during these two seasons is largest in a year with its influence can extend downward to about 300 m depth, which forms in June, then peaks in August and September, and finally decays rapidly in Novem-ber. Water exchange between the AS and the GOO is relatively weak, and has a sandwich-like three-layer structure in vertical direction: high salinity water intrudes from GOO into the AS in the upper 10 m layer and in the bottom layer between 175 m and 400 m depth; whereas in the middle layer (i.e. 15 m to 170 m depth) low salinity water is transported from the AS to the GOO. On multi-year average, a net freshwater transport of about 0.39×104 m3/s is further estimated into the GOO from the AS across the section along the GOO mouth.