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G Ahlgren, W Goedkoop, H Markensten, L Sonesten, M Boberg (1997)
Seasonal variations in food quality for pelagic and benthic invertebrates in Lake Erken—the role of fatty acidsFreshwater Biology, 38
HP Stirling (1985)
Chemical and biological methods of water analysis for aquaculturists
AK Tripathy, SN Pandey (1990)
Water pollution
HJ Lange, P Reeuwijk (2003)
Negative effects of UVB-irradiated phytoplankton on life history traits and fitness of Daphnia magnaFreshwater Biology, 48
JA Herrera-Silveira, JR Ramirez (1996)
Effect of natural phenolic material (tannin) on phytoplankton growthLimnology and Oceanography, 41
J Phillipson (1966)
Ecological energetics
R Margesin, P Bergauer, S Gander (2004)
Degradation of phenol and toxicity of phenolic compounds: a comparison of cold-tolerant Arthrobacter sp. and mesophilic Pseudomonas putidaExtremophiles, 8
LM Schoonhoven, JJA Loon, M Dicke (2005)
Insect-plant biology
VA Kudari, RD Kanamadi (2008)
Impact of changed trophic status on the zooplankton composition in six water bodies of Dharwad district, Karnataka state (South India)Environmental Monitoring and Assessment, 144
TC Banerjee, D Ray (1995)
Bioenergetics and growth of the fall armyworm, Spodoptera litura (F.) larvae reared on four host plantsInsect Science and Application, 16
M Boersma, C Kreutzer (2002)
Life at the ages: is food quality really of minor importance at low quantities?Ecology, 83
SR Verma, S Rani, RC Dalela (1981)
Synergism, antagonism, and additivity of phenol, pentachlorophenol, and dinitrophenol to a fish (Notopterus notopterus)Archive Environmental Contamination and Toxicology, 10
MT Philipose (1959)
Chlorocococcales
NC Saha, F Bhunia, A Kaviraj (1999)
Toxicity of phenol to fish and aquatic ecosystemBulletin of Environmental Contamination and Toxicology, 63
CE Boyd (1982)
Water quality management for pond fish culture
B Bhattacharya, A Barik, TC Banerjee (2003)
Bioenergetics and water balance in Callosobruchus maculatus (F.) (Coleoptera: Bruchidae) larval populationsOriental insects, 37
VG Jhingran (1991)
Fish and fisheries of India
G Ahlgren, L Lundstedt, M Brett, C Forsberg (1990)
Lipid composition and food quality of some freshwater phytoplankton for cladoceran zooplanktersJournal of Plankton Research, 12
RG Wetzel (2001)
Limnology
L Hakanson, VV Boulin, AP Ostapenia (2003)
The influence of biomanipulaions (fish removal) on the structure of lake Webs, Case studies using lake Web-modelAquatic Ecology, 37
MT Philipose (1960)
Fresh water phytoplankton of inland fisheriesProceeding of the symposium on Algology, 279
D Debrous (1998)
Decomposition of protein compounds in a eutrophic lake: spatial and temporal distribution of exopeptidase and endopeptidase activities in various size fractionsHydrobiologia, 382
WK Dodds (2010)
Freshwater ecology: Concepts and environmental applications of limnology
JM Hellawell (1977)
Changes in natural and managed ecosystems: Detection, measurement and assessmentProceeding of the Royal Society of London B., 197
S Moncheva, S Gorinstein, G Shtereva, F Toledo, P Arancibia-Avila, I Goshev, S Trakhtenberg (2003)
Biomass, protein- and carbohydrate-composition of phytoplankton in Varna Bay, Black SeaHydrgobiologia, 501
S Lin, EJ Carpenter, J Chang (1996)
Detection of p34cdc2- and B-like proteins in Dunaliella tertiolecta (Chlorophyceae)Marine Biology (Berlin), 125
EV Sampio, O Rocha, T Matsumura-Tundisi, JG Tundisi (2002)
Composition and abundance of zooplankton in the limnetic zone of seven reservoirs of the Paranapanema RiverBrazil. Brazilian Journal of Biology, 62
C Chattopadhyay (2010)
Limnological investigation in a tropical freshwater lake
JB Harbone (2003)
Introduction to ecological biochemistry
D Dean-Ross, M Rahimi (1995)
Toxicity of phenolic compounds to sediment bacteriaBulletin of Environmental Contamination and Toxicology, 55
RW Sterner (1993)
Daphnia growth on varying quality of Scendesmus: Mineral limitation of zooplanktonEcology, 74
RD Gulati, G Wurtz-Schultz (1980)
Remarks on the present status of limnology in India based mainly on the Indian publications in Hydrobiologia and suggestions for future approachHydrobiologia, 72
RW Sterner, DO Hessen (1994)
Algal nutrient limitation and the nutrition of aquatic herbivoresAnnals of Revise Ecological System, 25
MT Art, MS Evans, RD Robarts (1992)
Seasonal patterns of total and energy reserve of dominant zooplaktonic crustaceans for a hyper-eutrophic lakeOecologia, 90
AK Choudhury, R Pal (2011)
Variations in seasonal phytoplankton assemblages as a response to environmental changes in the surface waters of a hypo saline coastal station along the Bhagirathi–Hooghly estuaryEnvironmental Monitoring and Assessment, 179
(1999)
Standard methods for the examination of water and waste water
E Fernandez, E Maranon, D Harbourand, RD Pingree (1994)
Phytoplankton carbon incorporation patterns and biochemical composition of particulate matter in the eastern North Atlantic subtropical regionJournal of Plankton Research, 16
C Chattopadhyay, TC Banerjee (2007)
Temporal changes in environmental characteristics and net-phytoplankton diversity in a freshwater lakeTurkish Journal of Botany, 31
RD Gulati, WR DeMott (1997)
The role of food quality for zooplankton: remarks on the-State-of-the-art, perspectives and prioritiesFreshwater Biology, 38
IG Boechat, A Giani (2000)
Factors affecting biochemical composition of seston in a eutrophic reservoir (pampulha reservoir, Belo Horizonte, MG)Revise Brasilian Biology, 60
SB Hulyal, BB Kaliwal (2009)
Dynamics of phytoplankton in relation to physico-chemical factors of Almatti reservoir of Bijapur District, Karnataka StateEnvironmental Monitoring and Assessment, 153
GR Chhatwal, MC Mehera, M Satake, T Katyal, M Latyal, T Nagahiro (1996)
Environmental Analysis (Air, Water and Soil)
A Giani (1991)
Implications of phytoplankton chemical composition for zooplankton production: experimental evidenceOecologia, 87
M Munawar (1972)
Ecological studies of Eugleninae in certain polluted and unpolluted environmentsHydrobiologia, 39
FD Hencock (1973)
The ecology of the diatoms of the Klip rivers, Southern riversSouthern Transvaal. Hydrobiologia, 43
MJ Vanni, W Lampert (1992)
Food quality effects on life history traits and fitness in generalist herbivore DaphniaOecologia, 92
JH Zar (1999)
Biostistical analysis
AJ Gajewski, RJ Chrost (1995)
Production and enzymatic decomposition of organic matter by microplankton in the eutrophic lakeJournal of Plankton Research, 17
JA Geiselman, OJ McConnell (1981)
Polyphenols in brown algae Fucus vesicolosus and Ascophyllum nodosum: Chemical defenses against the marine herbivorous snail, Littorina littoreaJournal of Chemical Ecology, 7
HG Bray, WV Thorpe (1954)
Analysis of phenolic compounds of interest in metabolismMethods of Biochemical Analysis, 1
VV Boulin, VN Nikulina, EB Paveljeva, A Stepanava (1999)
Microbiol loop in trophic web of lake planktonJournal of General Biology, 60
Investigation was carried out in the ancient man-made, shallow, freshwater lake, Lake Krishnasayer, at Burdwan (23°16′N, 87°54′E), India, to note the variations in physico-chemical parameters, nutrients, phytoplankton communities, concentration of phenols and energy content in phytoplanktons during January–December 2006. The lake was represented by 16, 15, 2 and 17 genera of Cyanophyceae, Chlorophyceae, Euglenophyceae and Bacillariophyceae, respectively with significant variation in relative abundance as was revealed through Discriminant Analysis. Wilk’s λ values indicate that nitrate, phosphate, dissolved chlorides and silica, and phenol content were significant (P < 0.05) predictor for such differences. PCA analysis yielded three components explaining more than 68 % of the variations in the data on physico-chemical parameters, nutrients, phenol concentration and energy content of total phytoplankton. The interactions of the environmental variables contribute significantly to the observed variations in the phenol and energy content of the phytoplankton. However, the phenomenon of temporal variation in the total phytoplankton and energy content is accounted as a function of nitrate, phosphate-phosphorous, silicate and organic carbon levels. It is apparent that this quality of phytoplanktons varied with the seasons and thereby influencing the amount of phenol and energy content in the engulfing phytoplanktons. Therefore, adequate allocation is needed regarding nutritional status of phytoplanktons, in respect to the dietary need of aquaculture programme in practice.
Proceedings of the Zoological Society – Springer Journals
Published: Mar 31, 2013
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