Access the full text.
Sign up today, get DeepDyve free for 14 days.
KR Clarke, RM Warwick (2001)
Change in Marine Communities: An Approach to Statistical Analysis and Interpretation
T Yanagi, G Onitsuka (2000)
Seasonal variation in lower trophic level ecosystem of Hakata BayJ. Oceanogr., 56
GI Gail (1949)
Ceratium species of the Northern Sea of JapanIzv. TINRO, 29
JR Bray, JT Curtis (1957)
An ordination of the upland forest communities of Southern WisconsinEcol. Monogr., 27
JH Carpenter (1965)
The Chesapeake bay institute technique for the winkler dissolved oxygen methodLimnol. Oceanogr., 10
IA Kiselev (1969)
Plankton morei i kontinental’nykh vodoemov
VH Smith (1986)
Light and nutrient effect on the relative biomass of blue-green algae in lake phytoplanktonCan. J. Fish. Aquat. Sci., 43
IA Kiselev (1934)
Byul. Tikhookean. Komiteta AN SSSR
ZhR Tskhai (2005)
Scientific Readings in Memoriam of V.Ya. Levanidov
TYu Orlova, MS Selina, IV Stonik (2004)
Species structure of plankton microalgae on the coast of the Sea of Okhotsk on Sakhalin IslandRuss. J. Mar. Biol., 30
RB Domingues, H Galvao (2007)
Phytoplankton and environmental variability in a dam regulated temperate estuaryHydrobiologia, 586
DV Hansen, M Rattrey (1966)
New dimensions in estuary classificationLimnol. Oceanogr., 11
VG Kryukov, BA Voronov, AV Gavrilov, AV Makarov (2005)
Reka Amur: problemy i puti resheniya
T Dittmar, G Kattner (2003)
The biogeochemistry of river and shelf ecosystem of the Arctic Ocean: a reviewMar. Chem., 83
VD Fedorov (1979)
O metodakh izucheniya fitoplanktona i ego aktivnosti
GI Gail (1950)
A Key to the Phytoplankton of the Sea of JapanIzv. TINRO, 33
MM Gail (1963)
Spring phytoplankton of the southeastern part of the Tatar StraitIzv. TINRO, 49
LM Kondratyeva (2005)
Ekologicheskii risk zagryazneniya vodnykh sistem
IA Kiselev (1937)
New data on the composition, distribution and nature of phytoplankton in Amurskiy Liman and adjacent waters of the Sea of Japan and the Sea of OkhotskUch. Zap. LGU, 3
YuI Sorokin, VK Fedorov (1976)
Biologiya Morya
AM Koltunov, PYa Tishchenko, VI Zvalinsky (2009)
The carbonate system of Amurskiy Liman and Adjacent Sea AreasOkeanologiya, 49
RB Domingues, TP Anselmo, AB Barbosa (2011)
Nutrient limitation of phytoplankton growth in the freshwater tidal zone of a turbid, Mediterranean estuaryEstuar. Coast. Shelf Sci., 91
IA Kiselev (1931)
Issledovaniya morei SSSR
MV Sytova (2004)
Analysis of environmental status of Amur sturgeon habitatsIzv. TINRO, 137
C Popovich, JE Marcovecchio (2008)
Spatial and temporal variability of phytoplankton and environmental factors in a temperate estuary of South America (Atlantic Coast, Argentina)Cont. Shelf Res., 28
MJ Kishi, M Kashiwai, DM Ware (2007)
NEMURO—a lower trophic level model for the north pacific marine ecosystemEcol. Modell., 202s.1-2
IA Kiselev (1959)
Issledovaniya dal’nevostochnykh morei
HW Paerl (1996)
Phycologia
RJ Livingston (2001)
Eutrophication Processes in Coastal Systems: Origin and Succession of Plankton Blooms and Effects on Secondary Production in Gulf Coast Estuaries
YuI Sorokin, PYu Sorokin (2002)
Microplankton and primary production in the Sea of Okhotsk in summer 1994J. Plankton Res., 24
MS Obrezkova (2009)
Diatom flora of surface sediments of the Amur River estuary and adjacent areas of the Sea of Japan and the Sea of OkhotskRuss. J. Mar. Biol., 35
IN Sukhanova (1983)
Sovremennye metody kolichestvennoi otsenki raspredeleniya morskogo planktona
NI Lobanova (1987)
Tr. DVNII
IA Kiselev (1947)
Tr. Gos. Okeanogr. Inst.
LI Smirnova (1959)
Phytoplankton of the Sea of Okhotsk and the Kurils AreaTr. Inst. Okeanol. AN SSSR, 30
MS Selina, TYu Orlova (2001)
A contribution to the planktonic microalgae flora of the Sea of OkhotskBot. Zh., 86
YuI Sorokin (1997)
Kompleksnye issledovaniya ekosistemy Okhotskogo morya
AS Mikaelyan, MV Venttsel, EN Kokurkina (1995)
Kompleksnye issledovaniya ekosistemy Beringova morya
SS Barinova, SE Sirotsky (1991)
Biogeokhimicheskie oreoly rasseyaniya khimicheskikh elementov v ekosistemakh Dal’nego Vostoka
AM Koltunov, PYa Tishchenko, GYu Pavlova (2009)
Sostoyanie morskikh ekosistem, nakhodyashchikhsya pod vliyaniem stoka reki Amur
GV Konovalova, TYu Orlova, LA Pautova (1989)
Atlas fitoplanktona Yaponskogo morya
K Muylaert, K Sabbe, W Vyverman (2000)
Spatial and temporal dynamics of phytoplankton communities in a freshwater tidal estuary (Shelde, Belgium)Estuar. Coast. Shelf Sci., 50
IA Kiselev (1929)
Izv. Gos. Gidrol. Inst.
LA Medvedeva, SE Sirotsky (2002)
Biogeokhimicheskie i geoekologicheskie issledovaniya nazemnykh i presnovodnykh ekosistem
JM Brogueira, M Oliveira, G Cabecadas (2007)
Phytoplankton community structure defined by key environmental variables in Tagus estuary, PortugalMar. Environ. Res., 64
LR Mur, OM Skulberg, H Ultriken (1999)
Toxic Cyanobacteria in Water: A Guide to Their Public Health Consequences, Monitoring and Management
MJ Dagg, T Bianchi, B McKee, R Powell (2008)
Fates of dissolved and particulate materials from the Mississippi River immediately after discharge into the Northern Gulf of Mexico, USA, during a period of low wind stressCont. Shelf Res., 28
The qualitative composition of planktonic microalgae in the Amur River Estuary (in the Sea of Okhotsk) was studied in July 2005, June 2006, and June 2007. The biomass and abundance of phytoplankton were studied for the first time. The average cell density of the microalgae ranged from 194700 to 855100 cells/liter, being higher in 2006 than in 2005 and 2007. The average biomass of the community varied from 1.06 g/m3 in 2007 to 3.17 g/m3 in 2006. Analysis of the similarity of the species composition and cell density of the phytoplankton revealed two groups of stations: the first includes stations in the northern and central parts of the Amur Estuary; and the second includes stations in the southern and central parts. The first group was characterized by the predominance of freshwater diatoms and a high abundances of green and blue-green algae and the second group was characterized by the predominance of marine microalgae. The high cell density and biomass of phytoplankton were due to the increased nutrient input via the river runoff of the Amur.
Russian Journal of Marine Biology – Springer Journals
Published: May 8, 2013
Access the full text.
Sign up today, get DeepDyve free for 14 days.