Journal ArticleDOI
Nutrient Limitation of Net Primary Production in Marine Ecosystems
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There is a feeling among many limnologists and environmental engineers who study lakes that marine ecosystems also probably are phosphorus limited, and environmental management agencies often assume that phosphorus limitation in marine ecosystems is the rule.Abstract:
The question of nutrient limitation of primary production in estuaries and other marine ecosystems has engendered a great deal of debate. Although nitrogen is often named as the primary limiting nutrient in seawater (3, 17-19, 50, 52, 55, 61, 76, 80), this is by no means universally accepted. Many workers have argued that phosphorus is limiting (58, 71), that both nitrogen and phosphorus can simultaneously be limiting (9), or that primary production can switch seasonally from being nitrogen-limited to phosphorus-limited (6, 46). Others argue that nutrients are not limiting at all in many marine ecosystems, including highly oligotrophic waters (15). To some extent these disagreements result from poor communication due to different definitions of nutrient limitation. Considerable argument also occurs over the various methods and approaches used to estimate nutrient limitation. Limnologists in particular have tended to be critical of the methods often used to study nutrient limitation in marine ecosystems (23). Nutrient limitation in lakes has historically received more study than that in estuaries, and most mesotrophic and eutrophic north-temperate lakes are phosphorus limited (8, 62, 63, 66, 81). Thus, there is a feeling among many limnologists and environmental engineers who study lakes that marine ecosystems also probably are phosphorus limited. Lacking strong mechanistic arguments to explain why nutrient limitation might be different in estuaries than in lakes, environmental management agencies often assume that phosphorus limitation in marine ecosystems is the rule.read more
Citations
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Journal ArticleDOI
Spatial distribution of intact polar lipids in North Sea surface waters: Relationship with environmental conditions and microbial community composition
Joost Brandsma,Ellen C. Hopmans,Corina P. D. Brussaard,Harry J. Witte,Stefan Schouten,Jaap S. Sinninghe Damsté +5 more
TL;DR: Direct relationships between theIPLs and microbial groups were relatively weak, implying that the predominant IPLs in marine surface waters are not derived from single microbial groups and that direct inferences of microbial community compositions from IPL compositions should be considered with care.
Journal ArticleDOI
Phytoplankton distribution and nitrogen dynamics in the southwest indian subtropical gyre and Southern Ocean waters
Sandy J. Thomalla,Sandy J. Thomalla,H. N. Waldron,Mike Lucas,J.F. Read,Isabelle J. Ansorge,E. A. Pakhomov,E. A. Pakhomov +7 more
TL;DR: The 1999 Marion Island Oceanographic Survey (MIOS 4) as mentioned in this paper took a northbound and reciprocal southbound transect along the Southwest Indian and Madagascar Ridge, between the Prince Edward Islands and 31° S.
Journal ArticleDOI
Effects of nitrogen nutrients on the volatile organic compound emissions from Microcystis aeruginosa
TL;DR: Low-N especially Non-N condition markedly promoted the VOC emission and four up-regulated genes involving in VOC precursor formation were identified, including the genes of pyruvate kinase, malic enzyme and phosphotransacetylase for terpenoids, the gene of aspartate aminotransferase for benzenes and sulfocompounds.
Journal ArticleDOI
Nutrient Flux, Uptake, and Autotrophic Limitation in Streams and Rivers
TL;DR: In this paper, the authors compared water column nutrient concentration (C) to three alternative metrics and assessed their ability to predict autotrophic nutrient limitation in streams, which often are dominated by benthic autotrophs (e.g., algae and vascular plants).
Book ChapterDOI
Nitrogen Fluxes from Rivers to the Coastal Oceans
TL;DR: This article reviewed information from previous studies regarding nitrogen inputs to landscapes and the associated delivery of nitrogen to coastal waters around the world, focusing on fluxes of total nitrogen rather than dissolved inorganic nitrogen (DIN), typically including nitrate, nitrite, and ammonium.
References
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Journal ArticleDOI
Particulate organic matter flux and planktonic new production in the deep ocean
TL;DR: The primary production in the oceans results from allochthonous nutrient inputs to the euphotic zone (new production) and from nutrient recycling in the surface waters (regenerated production) as discussed by the authors.
Journal ArticleDOI
Nitrogen, Phosphorus, and Eutrophication in the Coastal Marine Environment
TL;DR: Removal of phosphate from detergents is not likely to slow the eutrophication of coastal marine waters, and its replacement with nitrogen-containing nitrilotriacetic acid may worsen the situation.
Journal ArticleDOI
Nutrient limitation of phytoplankton in freshwater and marine environments: A review of recent evidence on the effects of enrichment1
R. E. Hecky,Peter Kilham +1 more
TL;DR: It is concluded that the extent and severity of N limitation in the marine environment remain an open question, despite the fact that by the late seventies the evidence for P limitation had become so great that phosphorus control was recommended as the legislated basis for controlling eutrophication in North American and European inland waters.