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W2000791487 abstract "MEPS Marine Ecology Progress Series Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections MEPS 141:161-172 (1996) - doi:10.3354/meps141161 Influence of N substrate on Fe requirements of marine centric diatoms Maldonado MT, Price NM The interaction between Fe requirements and N metabolism in centric diatoms was investigated to determine whether use of nitrate (NO3-) imparts a higher cellular Fe demand for growth than use of ammonium (NH4+), and thus reduces fitness under Fe deficiency. Six species of the genus Thalassiosira from a variety of habitats were examined. Coastal and central gyre representatives grew faster in Fe-sufficient media containing NH4+, but isolates from the equatorial Pacific, an oceanic high-nutrient, low-biomass region, achieved maximum rates with NO3-. Iron quotas ranged from 26 to 102 µmol Fe mol-1 C and were not affected in a predictable manner by N source or habitat. Relative growth rates were diminished in Fe-deficient media, particularly in coastal species which grew at less than 25% of their maximum rates (µmax). All oceanic species maintained fast rates of growth (0.8 µmax) under the same Fe-limiting conditions, despite having 4 times less intracellular Fe than the coastal species. Fe:C ratios of Fe-deficient Thalassiosira spp. ranged from 0.7 to 14 µmol mol-1 and were significantly greater (by ~ 1.8 times) in all species when NO3- was the N source (p < 0.05). Steady-state Fe uptake rates were also faster in NO3- dependent cells at low Fe. Nitrogen source had different effects on Fe-limited growth rates. Surprisingly, T. oceanica (clone 1003) and T. weissflogii grew faster with NO3- even though higher Fe requirements for use of oxidized N were expected to reduce division rates relative to NH4+-grown cells. When total Fe concentrations in the medium were decreased to 1 nM, growth rates of T. oceanica (clone 1003) decreased to 0.2 µmax and were significantly faster (25%) in NH4+ than in NO3--amended media. Under these more stressful Fe-limiting conditions, Fe quotas were the same in cells cultured in both N-based media. Our results thus demonstrate that phototrophic phytoplankton require significantly more cellular Fe to grow on NO3- than NH4+. Nitrate-grown cells are able to obtain this extra Fe, even when Fe is limiting, suggesting that Fe acquisition is somehow linked to NO3- metabolism. Under severe Fe deficiency, however, NO3- utilization reduces division rates compared to NH4+, because cells are unable to fulfill their extra Fe requirements. Fe limitation · Biochemical composition · Fe use efficiencies · Diatoms · Nitrate · Ammonium Full text in pdf format PreviousNextExport citation RSS - Facebook - Tweet - linkedIn Cited by Published in MEPS Vol. 141. Publication date: October 03, 1996 Print ISSN:0171-8630; Online ISSN:1616-1599 Copyright © 1996 Inter-Research." @default.
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W2000791487 title "Influence of N substrate on Fe requirements of marine centric diatoms" @default.
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