The annual cycle of primary production in the Sargasso Sea off Bermuda

D.W. Menzel, J.H. Ryther
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引用次数: 314

Abstract

Gross and net primary production have been measured at bi-weekly intervals for 18 months in the North-western Sargasso Sea 15 miles SE. of Bermuda in 1500 fm of water. Ancillary data include temperature, salinity, phosphate, nitrite, nitrate, disolved oxygen, plant pigments, light penetration and incident radiation.

A seasonal cycle of production was observed with high levels in the winter and early spring, low levels in the later spring, summer and early fall. Gross production ranged from 0·13 to 2·00, averaging 0·44 g carbon assimilated/m2/day or 160 g C/m2/year. Net production ranged from 0·05 to 0·83 and averaged 0·20 g C/m2/day or 72 g C/m2/year.

Production was closely dependent upon vertical mixing, high levels occuring when the water was isothermal and mixed to or near the depth of the permanent thermocline (400 m), low levels being associated with the presence of a seasonal thermocline in the upper 100 m. Nutrient concentrations were extremely low (maxima of 1·8 μgAN/L and 0·16 μg AP/L as inorganic compounds in the upper 100 m) and showed little seasonal variability. Mixing and enrichment from the permanent thermocline is negligible, production being largely dependent upon the rapid re-cycling of nutrients within the upper 400 m.

The environmental factors controlling production which make this region differ from temperate or boreal waters, and which permit high production throughout the winter are: (1) low nutrient concentrations, (2) clear water, (3) relatively high incident radiation in winter, (4) a shallow winter mixed layer and (5) a rapid re-cycling of nutrients, possibly due to higher temperatures.

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百慕大马尾藻海初级生产的年周期
在西北马尾藻海东南15英里处,每隔两周测量一次总产量和净初级产量,持续了18个月。在1500米深的海面上辅助数据包括温度、盐度、磷酸盐、亚硝酸盐、硝酸盐、溶解氧、植物色素、光穿透和入射辐射。冬春初春产量高,春末夏秋初秋产量低,呈季节性循环。总产量在0.13 ~ 2.00之间,平均吸收0.44 g碳/m2/天或160 g碳/m2/年。净产量范围为0.05 ~ 0.83,平均产量为0.20 g C/m2/天或72 g C/m2/年。生产密切依赖于垂直混合,当水是等温的并且混合到或接近永久温跃层的深度(400米)时,高水平发生,低水平与100米以上的季节性温跃层的存在有关。营养物浓度极低(100 m以上无机化合物最高为1.8 μgAN/L和0.16 μ AP/L),季节性变化不大。来自永久温跃层的混合和富集是可以忽略不计的,生产在很大程度上取决于上层400米内营养物质的快速再循环。控制生产的环境因素使该地区与温带或北方水域不同,并使整个冬季产量高,这些环境因素是:(1)营养物质浓度低,(2)水清,(3)冬季入射辐射相对较高,(4)冬季混合层浅,(5)营养物质的快速再循环,可能是由于较高的温度。
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