Interrelated influence of iron, light and cell size on marine phytoplankton growth

被引:643
作者
Sunda, WG
Huntsman, SA
机构
[1] National Marine Fisheries Service, Beaufort, NC 28516
关键词
D O I
10.1038/37093
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
The sub-optimal growth of phytoplankton and the resulting persistence of unutilized plant nutrients (nitrate and phosphate) in the surface waters of certain ocean regions has been a longstanding puzzle(1,2). Of these regions, the Southern Ocean seems to play the greatest role in the global carbon cycle(3,4), but controversy exists as to the dominant controls on net algal production. Limitation by iron deficiency(4,5), light availability(1,6,7) and grazing by zooplankton(2) have been proposed. Here we present the results from culture experiments showing that the amount of cellular iron needed to support growth is higher under lower light intensities, owing to a greater requirement for photosynthetic iron-based redox proteins by low-light acclimatized algae. Moreover, algal iron uptake varies with cell surface area, such that the growth of small cells is favoured under iron limitation, as predicted theoretically(8). Phytoplankton growth can therefore be simultaneously limited by the availability of both iron and light. Such a co-limitation may be experienced by phytoplankton in iron-poor regions in which the surface mixed layer extends below the euphotic zone-as often occurs in the Southern Ocean(6,7)-or near the bottom of the euphotic zone in more stratified waters. By favouring the growth of smaller cells, iron/light co-limitation should increase grazing by microzooplankton, and thus minimize the loss of fixed carbon and nitrogen from surface waters in settling particles(9,10).
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页码:389 / 392
页数:4
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