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References (36)
-
Vollenweider Vollenweider (1976)
Advances in defining critical loading levels of phosphorus in lake eutrophicationMemorie dell'Istituto Italiano di Idrobiologia, 33
-
D. Hutchins, K. Bruland (1998)
Iron-limited diatom growth and Si:N uptake ratios in a coastal upwelling regimeNature, 393
-
D. Schindler (1977)
Evolution of phosphorus limitation in lakes.Science, 195 4275
-
S. Ogilvie, A. Ross, D. Schiel (2000)
Phytoplankton biomass associated with mussel farms in Beatrix Bay, New ZealandAquaculture, 181
-
S. Maestrini, B. Berland, M. Bréret, Christian Béchemin, R. Poletti, A. Rinaldi (1997)
Nutrients limiting the algal growth potential (AGP) in the Po River plume and an adjacent area, Northwest Adriatic Sea: Enrichment bioassays with the test algaeNitzschia closterium andThalassiosira pseudonanaEstuaries, 20
-
Fang Fang, Strand Strand, Liang Liang, Zhang Zhang (2001)
Carrying capacity and optimizing measures for mariculture in Sango BayMarine Fisheries Research, 22
-
T. Thingstad, U. Zweifel, F. Rassoulzadegan (1998)
P limitation of heterotrophic bacteria and phytoplankton in the northwest MediterraneanLimnology and Oceanography, 43
-
D. Conley, T. Malone (1992)
Annual cycle of dissolved silicate in Chesapeake bay: implications for the production and fate of phytoplankton biomassMarine Ecology Progress Series, 81
-
R. Dugdale, F. Wilkerson (1998)
Silicate regulation of new production in the equatorial Pacific upwellingNature, 391
-
D. Schindler (1974)
Eutrophication and Recovery in Experimental Lakes: Implications for Lake ManagementScience, 184
-
R. Reed, C. Lobban, P. Harrison, M. Duncan (1985)
The physiological ecology of seaweeds -
C. Schelske, E. Stoermer (1971)
Eutrophication, Silica Depletion, and Predicted Changes in Algal Quality in Lake MichiganScience, 173
-
Schelske Schelske, Stoermer Stoermer (1971)
Eutrophication, silica and predicted changes in algal quality in Lake MichiganScience, 173
-
Bruno Delesallea, Asma Sakkac, Louis Legendrec, Jean Pagèsd, Loïc Charpye, Pascale Loreta (2001)
The phytoplankton of Takapoto atoll (tuamotu archipelago, French Polynesia): time and space variability of biomass, primary production and composition over 24 yearsAquatic Living Resources, 14
-
K. Leng, Zhaoxin Li, De-rong Shang, Xiaochuan Li, X. Chu, Huizhen Zhang (2001)
Study on analytical methods of microbial metabolites and degradation to petroleum hydrocarbonMarine Fisheries Research, 22
-
C. Boyd, C. Tucker (1998)
Pond Aquaculture Water Quality Management -
D. Justić, N. Rabalais, R. Turner, Q. Dortch (1995)
Changes in nutrient structure of river-dominated coastal waters: stoichiometric nutrient balance and its consequencesEstuarine Coastal and Shelf Science, 40
-
T. Fisher (1992)
Nutrient limitation of phytoplankton in Chesapeake BayMarine Ecology Progress Series, 82
-
Redfield Redfield (1958)
The biological control of chemical factors in the environmentAmerican Scientist, 46
-
Li Li, Zhang Zhang, Zhao Zhao, Xu Xu (1988)
Study on oxygen production bioassay methods as a guidance for fertilizing large water bodiesOceanologia et Limnologia Sinica, 19
-
M. Brzezinski (1985)
THE Si:C:N RATIO OF MARINE DIATOMS: INTERSPECIFIC VARIABILITY AND THE EFFECT OF SOME ENVIRONMENTAL VARIABLES 1Journal of Phycology, 21
-
W. Thomas (1970)
ON NITROGEN DEFICIENCY IN TROPICAL PACIFIC OCEANIC PHYTOPLANKTON: PHOTOSYNTHETIC PARAMETERS IN POOR AND RICH WATER1Limnology and Oceanography, 15
-
S. Sañudo-Wilhelmy, Adam Kustka, C. Gobler, D. Hutchins, Min Yang, K. Lwiza, J. Burns, D. Capone, J. Raven, E. Carpenter (2001)
Phosphorus limitation of nitrogen fixation by Trichodesmium in the central Atlantic OceanNature, 411
-
Chen Chen, Zheng Zheng, Zhang Zhang (1996)
Ecological impacts of maricultural discharge on phytoplankton in Xiamen harbour (west)Collected Oceanic Works/Haiyang Wenji, Tianjin, 19
-
W. Thomas (1970)
EFFECT OF AMMONIUM AND NITRATE CONCENTRATION ON CHLOROPHYLL INCREASES IN NATURAL TROPICAL PACIFIC PHYTOPLANKTON POPULATIONS1Limnology and Oceanography, 15
-
T. Tyrrell (1999)
The relative influences of nitrogen and phosphorus on oceanic primary productionNature, 400
-
John Martin, S. Fitzwater (1988)
Iron deficiency limits phytoplankton growth in the north-east Pacific subarcticNature, 331
-
D. Schindler (1971)
CARBON, NITROGEN, AND PHOSPHORUS AND THE EUTROPHICATION OF FRESHWATER LAKES 1Journal of Phycology, 7
-
J. Goldman, J. McCarthy, D. Peavey (1979)
Growth rate influence on the chemical composition of phytoplankton in oceanic watersNature, 279
-
C. Boyd, C. Tucker (1998)
Ecology of Aquaculture Ponds -
V. Smith (1983)
Low Nitrogen to Phosphorus Ratios Favor Dominance by Blue-Green Algae in Lake PhytoplanktonScience, 221
-
Y. Yung, C. Wong, K. Yau, P. Qian (2001)
Long-term changes in water quality and phytoplankton characteristics in port shelter, Hong Kong, from 1988-1998.Marine pollution bulletin, 42 10
-
C. Lin, C. Schelske (1981)
Seasonal Variation of Potential Nutrient Limitation to Chlorophyll Production in Southern Lake HuronCanadian Journal of Fisheries and Aquatic Sciences, 38
-
M. Landry, R. Barber, R. Bidigare, F. Chai, K. Coale, H. Dam, M. Lewis, S. Lindley, J. McCarthy, M. Roman, D. Stoecker, P. Verity, J. White (1997)
Iron and grazing constraints on primary production in the central equatorial Pacific: An EqPac synthesisLimnology and Oceanography, 42
-
Dong Dong, Li Li, Pan Pan (1998)
Discussions on carrying capacityJournal of Ocean University of Qingdao, 28
-
A. Redfield (1960)
The biological control of chemical factors in the environment.Science progress, 11
- Publisher
- Wiley
- Copyright
- Copyright © 2004 John Wiley & Sons, Ltd.
- ISSN
- 1052-7613
- eISSN
- 1099-0755
- DOI
- 10.1002/aqc.625
- Publisher site
- See Article on Publisher Site
Abstract
1. Concentrations of major nutrients (NH4+‐N, NO3−‐N, NO2−‐N, HPO4−‐P, Si(OH)4‐Si) were measured, nutrient enrichment experiments (oxygen‐production bioassay) were conducted and phytoplankton were analysed at typical long‐line‐culture areas in Laizhou Bay and Sanggou Bay, northeastern China, from March 2001 to March 2002. 2. Generally, much variation of nutrient indices was detected among the sampling stations, between the two bays and in different seasons: the concentration of dissolved inorganic nitrogen (DIN) fluctuated more violently and ranged much more widely in Sanggou Bay. N‐limitation was usually found in both bays, and the ranking of limiting potentials of major nutrients was N>Fe>P=Si in Laizhou Bay and N>P>Fe>Si in Sanggou Bay. Diatoms dominated the phytoplankton community in Sanggou Bay, but only dominated in eight months (with flagellates dominant in four months) in Laizhou Bay. 3. Linear and nonparametric correlation analyses suggested that a large number of the nutrient and phytoplankton variables measured have intrinsic relationships within themselves. Much more complicated correlations between phytoplankton and nutrient indices were found in Laizhou Bay than in Sanggou Bay. This, together with the violent fluctuations of DIN concentrations, indicated a more fragile ecosystem stability in Sanggou Bay. 4. The relatively exposed locations and less crowded settings of the rafts in the long‐line‐culture areas in Laizhou Bay allowed for a better water exchange, and the effect of aquaculture activity on the environment was not significant. Because of the intensity of aquaculture activities in Sanggou Bay, the biological, chemical and physical characteristics in the bay are greatly affected; a reduced cultivation density based on more comprehensive studies of carrying capacity of the bay is suggested. Copyright © 2004 John Wiley & Sons, Ltd.
Journal
Aquatic Conservation: Marine and Freshwater Ecosystems – Wiley
Published: Nov 1, 2004