NUMBER TWENTY NINE - OCTOBER 1998
NUMBER TWENTY NINE - OCTOBER 1998
| < Previous |
References
1. Andersson,G., Bergren,H., Cronberg,G., & Gelin,C. (1978) Effects
of planktivorous and benthivorous fish on organisms and water chemistry in eutrophic
lakes. Hydrobiologia, 59, 9-15 
2. Annadotter,H., Cronberg,G., Aagren,R., Jönsson,L., Lundstedt,B.,
Nilsson,P-A & Ströbeck,S. (1999) Multiple techniques for the restoration of a
hypertrophic lake. In Harper,D, Brierley, W., Phillips,G. & Ferguson,A. (eds) The
Ecological Basis for Lake and Reservoir Management. Wiley, Chichester, in press
3. Arnold, D. E. (1971) Ingestion, assimilation, survival, and
reproduction by Daphnia pulex fed seven species of blue green algae. Limnol. Oceanogr., 16, 906-20
4. Bales, M., Moss, B., Phillips, G., Irvine, K. & Stansfield, J.
(1993) The changing ecosystem of a shallow, brackish lake, Hickling Broad, Norfolk, U.K.
II Long-term trends in water chemistry and ecology and their implications for restoration
of the lake. Freshwater Biology , 29,141-65
5. Balls, H., Moss, B. & Irvine, K. (1989) The loss of submerged
plants with eutrophication. I. Experimental design, water chemistry, aquatic plant and
phytoplankton biomass in experiments carried out in ponds in the Norfolk Broadland.
Freshwater Biology 22, 71-87
6. Barica,J.M. (1988) Recovery of the Laurentian Great Lakes, 1970-1985:
Eutrophication aspects. National Water Research Institute (Canada Centre for Inland
Waters) Publication88-44, Environment Canada
7. Barko, J. W. & Smart, R. M. (1980) Mobilization of sediment phosphorus by submersed freshwater macrophytes. Freshwat. Biol., IO, 229-38.
8. Beklioglu, M. & Moss, B. (1995) The impact of pH on interactions
among phytoplankton algae, zooplankton and perch (Perca fluviatilis) in a shallow, fertile
lake. Freshwater Biology, 33, 497-509
9. Beklioglu, M. & Moss, B. (1996) Mesocosm experiments on the
interaction of sediment influence, fish predation and aquatic plants with the structure of
phytoplankton and zooplankton communities. Freshwater Biology, 36,
315-325
10. Beklioglu, M. & Moss, B. (1996) Existence of a
macrophyte-dominated clear water state over a very wide range of nutrient concentrations
in a small shallow lake. Hydrobiologia 337, 93-106
11. Bell, J.N.B. (1997) The effects of air pollution on UK natural
ecosystems. In A.W. Mackay and J. Murlis (eds) Britain's Natural Environment: a State of
the Nation Review. Ensis London
12. Benndorf,J. (1987) Food web manipulation without nutrient control: A
useful strategy in lake restoration? Schweizerische Zhurnal der Hydrologie, 49, 237-248
13. Benndorf,J. (1988) Objectives and unsolved problems in
echotechnology and biomanipulation:a preface. Limnologica (Berlin), 19,
5-8
14. Benndorf J. (1992) The control of indirect effects of
biomanipulation. Eutrophication Research and Application to Water Supply.. (Ed by D.W.
Sutcliffe & J.G. Jones) pp 82-93. Freshwater Biological Association, Ambleside
15. Benndorf,J., Kneschke,H., Kossatz,K. & Penz,E. (1984)
Manipulation of the pelagic food web by stocking with predacious fishes. Internationale
Revue der gesamten Hydrobiologie, 69, 407-428
16. Benndorf, J., Schultz,H., Benndorf,A., Unger,R., Penz,E.,
Kneschke,H., Kossatz,K., Dumke,R., Hornig,U., Kruspe,R. & Reichel,S. (1988) Food web
manipulation by enhancement of piscivorous fish stocks: long term effects in the
hypertrophic Bautzen reservoir. Limnologica, 19, 97-110
17. Berg,S., Jeppesen,E. & Søndergaard,M. (1996) Pike (Esox lucius
L.) stocking as a biomanipulation tool. 1. Effects on the fish population in Lake Lyng
(Denmark). Hydrobiologia, 342, 311-318
18. Bjørk, S. (1972) Swedish lake restoration program gets results.
Ambio, 1(5),153-65
19. Bjørk, S. (1985) Scandinavian lake restoration activities. Lakes
Pollution and Recovery, pp. 293-301. European Water Pollution Control Association, Rome
20. Bjørk,S. (1994) Restoration of lakes through sediment removal -
Lake Trummen, Sweden. 130- 140 in Eiseltova, M. (Editor) Restoration of Lake Ecosystems, a
Holistic approach. International Waterfowl and Wetlands Research Bureau, Publication 32,
Slimbridge
21. Blindow,I.(1991) Interactions between submerged macrophytes and
microalgae in shallow lakes. Doctoral Dissertation, University of Lund, Sweden
22. Blindow,I (1992) Decline of charophytes during eutrophication:
comparison with angiosperms. Freshwater Biology, 28, 15-27
23. Brett,M. T. & Goldman, C. R. (1996) A meta-analysis of the
freshwater trophic cascade. Proc. Nat. Acad. Sci.USA, 93,
7723-6
24. Breukelaar,A.W., Lammens,E.H.R.R., Klein Breteler,J.G.P. &
Tatrai,I. (1994) Effects of benthivorous bream (Abramis brama) and carp (Cyprinus carpio)
on sediment resuspension and concentrations of nutrients and chlorophyll a. Freshwater
Biology, 32, 113-121.
25. Brönmark,C. (1985) Interactions between macrophytes, epiphytes and
herbivores: an experimental approach. Oikos , 45, 26-30
26. Brönmark,C. (1989) Interactions between epiphytes, macrophytes and
freshwater snails: a review. Journal of Molluscan Studies, 55,
299-311
27. Brönmark, C. (1994) Effects of tench and perch on interactions in a
freshwater, benthic food chain. Ecology, 75, 1818-1828
28. Brönmark,C., Klosiewski,S.P. & Stein,R.A. (1992) Indirect
effects of predation in a freshwater, benthic food chain. Ecology 73,
1662-1674
29. Brönmark,C. & Weisner,S.E.B. (1992) Indirect effects of fish
community structure on submerged vegetation in shallow, eutrophic lakes: an alternative
mechanism. Hydrobiologia, 243/244, 293-301
30. Brooks, J. L. & Dodson, S. I. (1965)Predation, body size and
composition of plankton. Science, 150, 28-35
31. Burns, C. W. & Rigler, F. H. (1967) Comparison of filtering
rates of Daphnia rosea in lake water and suspensions of yeast. Limnol. Oceanogr., 12, 492-502
32. Cahn,A.R. (1929) The effect of carp on a small lake: the carp as a
dominant. Ecology 10, 271-274
33. Carpenter, S. R. & Kitchell,J. F. (1992) The Trophic Cascade in
Lakes. Cambridge University Press, Cambridge
34. Carvalho,L. (1994) Top-down control of phytoplankton in a shallow
hypertrophic lake: Little Mere, (England). Hydrobiologia, 275/276,
53-63
35. Carvalho, L. & Moss, B. (1995) The current status of a sample of
English Sites of Special Scientific Interest subject to eutrophication. Aquatic
Conservation: Marine and Freshwater Ecosystems , 5,191-204
36. Codd, G. A. & Bell, S. G. (1985) Eutrophication and toxic
Cyanobacteria in freshwaters. Water Poll. Contr., 84, 225-232
37. Cooke,G.D., Welch,E.B., Peterson,S.A. & Newroth,P.R. (1993)
Restoration and Management of Lakes and reservoirs.Lewis publishers, Ann Arbor, Michigan
38. Crivelli, A.J. (1983) The destruction of aquatic vegetation by carp,
Cyprinus carpio: a comparison between southern France and the USA. Hydrobiologia, 106, 37-41
39. Daldorph, P.W.G. & Thomas, J.D. (1995) Factors influencing the
stability of nutrient-enriched freshwater communities: the role of sticklebacks, Pungitius
pungitius and freshwater snails. Freshwater Biology , 33,
271-289
40. Davies, J. (1985) Evidence for a diurnal horizontal migration in
Daphnia hyalina. Hydrobiologia ,120, 103-106
41. Dawidowicz,P. & Loose,C.J. (1992) Metabolic costs during
predator-induced diel vertical migration of Daphnia. Limnol.Oceanogr. , 37, 1589-1595
42. De Bernardi,R. & Giussani,G. (1990) Are blue green algae a
suitable food for zooplankton? An overview. Hydrobiologia, 200/201,
29-44
43. De Nie,H.W. (1987) The decrease of aquatic vegetation in Europe and
its consequence for fish populations. EIFAC/CECP Occasional paper 19
44. Denny, P. (1980) Solute movement in submerged angiosperms. Biol Rev,
50, 65-92
45. Dillon, P. J. (1975) The application of the phosphorus-loading
concept to eutrophication research. Env. Canada Sci. Ser., 46 Burlington, Ontario
46. Dillon,P.J. & Rigler,F.H. (1974) The phosphorus -chlorophyll
relationship in lakes. Limnology & Oceanography, 19,
767-773
47. Drake, J. C. & Heaney, S. I. (1987) Occurrence of phosphorus and
its potential remobilization in the littoral sediments of a productive English lake.
Freshwat. Biol., 17, 513-524
48. Dugan,P. (ed) (1994) Wetland Conservation: a Review of Current
Issues and Required Action. IUCN, Gland, Switzerland
49. Edmondson, W. T. (1970) Phosphorus, nitrogen and algae in Lake
Washington after diversion of sewage. Science, 169, 690-1
50. Edmondson,W.T. (1991) The Uses of Ecology, Lake Washington and
Beyond. Univ. of Washington Press, Seattle & London
51. Faafeng,B. & Brabrand,A. (1990) Biomanipulation of a small,
urban lake - removal of fish exclude bluegreen algal blooms.
Verh.int.Verein.theor.angew.Limnol., 24, 597-602
52. Forsberg, C., Kleiven, S. & Willen,T. (1990) Absence of
allelopathic effects of Chara on phytoplankton in situ. Aquatic Botany , 38, 289-294
53. Fitzgerald, G. P. (1969) Some factors in the competition or
antagonism among bacteria, algae and aquatic weeds. J. Phycol., 5,
351-9
54. Fletcher,A.R., Morison,A.K., & Hulme, D.J. (1985) Effects of
carp, Cyprinus carpio L. on communities of aquatic vegetation and turbidity of water
bodies in the lower Goulburn river basin. Australian Journal of Marine and Freshwater
Research, 36, 311-327
55. Foy,R.H. & Withers,P.J.A. (1995) The contribution of
agricultural phosphorus to eutrophication. Proceedings of the Fertilizer Society, 365, 1-32
56. Foy,R.H., Smith,R.V., Jordan,C. & Lennox,S.D. (1995) Upward
trend in soluble phosphorus loadings to Lough Neagh despite phosphorus reduction at sewage
treatment works. Water Research, 29, 1051-1063
57. Giles,N. (1992) Wildlife after Gravel; Twenty years of practical
research by the Game Conservancy and ARC. Game Conservancy Limited, Fordingbridge, Hants
58. Gliwicz,Z.M. (1986) Predation and the evolution of vertical
migration behaviour in zooplankton. Nature , 320, 746-748
59. Gliwicz,Z.M. (1990) Why do cladocerans fail to control algal blooms?
Hydrobiologia, 200/201, 83-97
60. Gliwicz, M. S. & Sieniawska, A. (1986) Filtering activity of
Daphnia in low concentrations of a pesticide. Limnol. Oceanogr., 31,
1132-7
61. Gross,E.M. & Sutfeld, R. (1994) Polyphenols with algicidal
activity in the submerged macrophyte Myriophyllum spicatum l. Acta Horticultura , 381, 710-716
62. Hall, D. J., Threlkeld, S. T., Burns, C. W. & Crowley, P. H.
(1976) The size and efficiency hypothesis and the size structure of zooplankton
communities. A. Rev. Ecol. Syst., 7, 177-208
63. Hanson, M.A. & Butler, M.G. (1990) Early responses of plankton
and turbidity to biomanipulation in a shallow prairie lake. Hydrobiologia , 200/201. 317-328
64. Harper,D. & Pacini,N. (1995) Practical Manual of Eutrophication
Control Methodologies. National Rivers Authority, Peterborough
65. Harper,D.M. (1991) Primary production in Lake Naivasha, Kenya. Verh.
int Verein Limnol., 24, 1112-1116
66. Harper,D. (1992) The ecological relationships of aquatic plants at
Lake Naivasha, Kenya. Hydrobiologia , 232, 65-71
67. Harper,D.M., Mavuti,K.M. & Muchiri, S.M. (1990) Ecology and
management of Lake Naivasha, Kenya, in relation to climatic change, alien species'
introductions, and agricultural development. Environmental Conservation 17, 328-336
68. Harper,D.M., Phillips,G., Chilvers,A., Kitaka,N. & Mavuti,K
(1993) Eutrophication prognosis for Lake Naivasha, Kenya. Verh. Int Ver Limnol. 25, 861-865
69. Haygarth, P. (1997) Agriculture as a source of phosphorus transfer
to water:sources and pathways. SCOPE Newsletter , 21, 1-15
70. Heckrath, G., Brookes,P.C., Poulton,P.R., & Goulding, K.W.T.
(1995) Phosphorus leaching from soils containing different phosphorus concentrations in
the Broadbalk experiment. Journal of Environmental Quality, 24,
904-910
71. Holdway, P.A. , Watson, R.A. & Moss, B. (1978) Aspects of the
ecology of Prymnesium parvum(Haptophyta) and water chemistry in the Norfolk Broads,
England. Freshwater Biology , 8, 295-311
72. Hosper,H. (1989) Biomanipulation, a new perspective for restoring
shallow, eutrophic lakes in the Netherlands. Hydrobiological Bulletin, 23, 11-19
73. Hosper,S.H. & Jagtman,E. (1990) Biomanipulation additional to
nutrient control for restoration of shallow lakes in the Netherlands. Hydrobiologia, 200/201, 523-534
74. Hosper,H. & Meijer,M.L. (1993) Biomanipulation, will it work for
your lake? A simple test for the assessment of chances for clear water, following drastic
fish-stock reduction in shallow, eutrophic lakes. Ecological Engineering, 2, 63-72
75. Howard Williams,C. (1981) Studies on the ability of a Potamogeton
pectinatus community to remove dissolved nitrogen and phosphorus compounds from the water.
Journal of Applied Ecology, 18, 619-637
76. Howard-Williams, C. (1985) Cycling and retention of nitrogen and
phosphorus in wetlands: a theoretical and applied perspective. Freshwat. Biol., 15, 391-431
77. Hrbacek, J., Bvorakova, K., Korinek, V. & Prochazkova, L. (1961)
Demonstration of the effect of the fish stock on the species composition of the
zooplankton and the intensity of metabolism of the whole plankton association. Verh. int.
Verein. theoret. angew. Limnol., 14, 192-195
78. Hurlbert, S. H., Zedler, J. & Fairbanks, D. (1971) Ecosystem
alteration by mosquito fish (Gambusia affinis) predation. Science, 175,
639-41
79. Infante, A. & Abella, S. E. B. (1985) Inhibition of Daphnia by
Oscillatoria in Lake Washington. Limnol. Oceanogr., 30, 6-52
80. Irvine, K., Balls, H. & Moss, B. (1990) The entomostracan and
rotifer communities associated with submerged plants in the Norfolk Broadland - effects of
plant biomass and species composition. Internationale Revue der gesamten Hydrobiologie, 75, 121-141
81. Irvine, K., Moss, B., Bales, M. & Snook, D. (1993) The changing
ecosystem of a shallow, brackish lake, Hickling Broad, Norfolk, U.K. I. Trophic
relationships with special reference to the role of Neomysis integer. Freshwater Biology ,
29,119-39
82. Irvine,K., Moss, B. & Balls,H.R. (1989) The loss of submerged
plants with eutrophication II Relationships between fish and zooplankton in a set of
experimental ponds, and conclusions. Freshwater Biology , 22,
89-107
83. Jak,R.G., Maas,J.L. & Scholten,M.C.Th. (1996) Evaluation of
laboratory derived toxic effect concentrations of a mixture of metals by testing fresh
water plankton communities in enclosures. Water Research, 30,
1215-1227
84. Jak, R.G., Maas, J.L. & Scholten, M.C.Th. (1997) Ecotoxicity of
3,4-dichloroaniline in enclosed freshwater plankton communities at different nutrient
levels. Ecotoxicology
85. Jensen,J. P., Jeppesen, E., Olrik, K. & Kristensen, P. (1994)
Impact of nutrients and physical factors on the shift from cyanobacterial to chlorophyte
dominance in shallow Danish lakes. Can. J. Fish. Aquat. Sci., 51,
1692-1699
86. Jeppesen,E., Jensen,J.P., Kristensen,P., Søndergaard,M.,
Mortensen,E., Sortkjaer,O. & Olrik,K. (1990) Fish manipulation as a lake restoration
tool in shallow, eutrophic, temperate lakes 2: threshold levels, long-term stability and
conclusions. Hydrobiologia, 200/201, 219-227
87. Jeppesen,E., Kristensen,P., Jensen,J.P., Søndergaard,M.,
Mortensen,E. & Lauridsen,T. (1991) Recovery resilience following a reduction in
external phosphorus loading of shallow, eutrophic Danish lakes: duration, regulating
factors and methods for overcoming resilience. Memoria del Istituto Italiano di
Idrobiologica, 48, 127-148
88. Jeppesen,E., Søndergaard,M., Mortensen,E., Kristensen,P.,
Riemann,B., Jensen,H.J., Müller,J.P., Sortkjaer,O., Jensen,J.P., Christoffersen,K.,
Bosselmann,S.. & Dall,E. (1990) Fish manipulation as a lake restoration tool in
shallow, eutrophic temperate lakes 1: cross-analysis of three Danish case studies.
Hydrobiologia, 200/201, 205-218
89. Jeppesen,E., Søndergaard,Ma, Søndergaard,Mo &
Christoffersen,K. (1997) The Structuring Role of Submerged Macrophytes in Lakes.
Ecological Studies, 131, Springer, New York
90. Jeppesen,E., Søndergaard,M., Sortkjaer,O., Mortensen,E., &
Kristensen,P. (1990) Interactions between phytoplankton, zooplankton and fish in a
shallow, hypertrophic lake: a study of phytoplankton collapses in Lake Sobygård, Denmark.
Hydrobiologia, 191, 149-164
91. Johnes,P.J., Moss,B. & Phillips,G. (1996) The determination of
total nitrogen and total phosphorus concentrations in freshwaters from land use, stock
headage and population data -testing of a model for use in conservation and water quality
management. Freshwater Biology, 36, 451-473
92. Klinge, M., Grimm,M.P. & Hosper,S.H. (1995) Eutrophication and
ecological rehabilitation of Dutch lakes:presentation of a new conceptual framework. Water
Science & Technology, 31, 207-218
93. Lamarra, V. (1975) Digestive activities of carp as a major
contributor to the nutrient loading of lakes. Verh. Int. Verein. theoret. angew. Limnol., I9, 2461-8
94. Lampert, W. (1981) Inhibiting and toxic effects of blue-green algae
on Daphnia. Int. Rev. ges. Hydrobiol., 66, 285-98
95. Lauridsen,T.L., Jeppesen,E. & Østergaard Andersen,F. (1993)
Colonisation of submerged macrophytes in shallow fish manipulated Lake Vaeng: impact of
sediment composition and waterfowl grazing. Aquatic Botany, 46,
1-15
96. Lauridsen,T., Jeppesen,E. & Søndergaard,M. (1994) Colonisation
and succession of submerged macrophytes in shallow Lake Vaeng during the first five years
following fish manipulation. Hydrobiologia, 275/276, 233-242
97. Lauridsen,T.L. & Lodge,D. (1996) Avoidance of fish and
macrophytes by Daphnia magna: chemical cues and predator-mediated use of macrophyte
habitat. Limnol. Oceanogr. , 22, 805-810
98. Lauridsen,T. L., Pedersen,L. J., Jeppesen, E. & Søndergaard, M.
(1996) The importance of macrophyte bed size for cladoceran composition and horizontal
migration in a shallow lake. J. Plankton Res., 18, 2283-94
99. Lawton,L.A. & Codd,G.A. (1991) Cyanobacterial (blue green algal)
toxins and their significance in UK and European waters. J. Inst.Water Env. Man. 5, 460-465
100. Leah, R.T., Moss, B., & Forrest, D.E. (1978) Experiments with
large enclosures in a fertile shallow brackish lake, Hickling Broad, United Kingdom.
Internationale revue der gesamten Hydrobiologie, 63, 291-310
101. Leah, R.T., Moss, B. & Forrest, D.E. (1980) The role of
predation in causing major changes in the limnology of a hypereutrophicated lake.
Internationale Revue der Gesamten Hydrobiologie, 62, 223-253
102. Marsden, M.W. (1989) Lake restoration by reducing external
phosphorus loading: the influence of sediment release. Freshwat.Biol., 21, 139-162
103. Meier,M.L., de Haan,M. W., Breukelaaw,A. W. & Buitenveld, H.
(1990) Is reduction of the benthivorous fish an important cause of high transparency
following biomanipulation in shallow lakes? Hydrobiologia , 200/201,
303-315
104. Meijer,M.L., van Nes,E.H., Lammens,E.H.R.R., Gulati,R.D.,
Grimm,M.P., Backx,J., Hollebeek,P., Blaauw,E.M. & Breukelaar,A.W. (1994) The
consquences of a drastic fish stock reduction in the large and shallow Lake Wolderwijd,
the Netherlands. Can we understand what happened?. Hydrobiologia, 275/276,
31-42
105. Moss, B. (1979) Algal and other fossil evidence for major changes
in Strumpshaw Broad, Norfolk, England in the last two centuries. British Phycological
Journal , 14, 256-273
106. Moss,B. (1989) Water pollution and the management of ecosystems: a
case study of science and scientist. Toward a More Exact Ecology. (Ed by P.J. Grubb &
J.H. Whittaker) pp 401-422 Thirtieth Symposium of the British Ecological Society.
Blackwell Scientific, Oxford
107. Moss, B. (1993) The scope for biomanipulation in improving water
quality'. In Eutrophication: Research and Application to Water Supply (Eds. D.W. Sutcliffe
and J.G. Jones (Freshwater Biological Association, Ambleside) 73-81
108. Moss,B. (1998) Ecology of Freshwaters, Third edition, Man and
Medium, Past to Future. Blackwell Science, Oxford
109. Moss,B., Kornijow,R. & Measey,G.J. (1998) The effects of
nymphaeid (Nuphar lutea L.) density and predation by perch (Perca fluviatilis L.) on the
zooplankton communities in a shallow lake. Freshwater Biology , 39
(in press)
110. Moss, B. & Leah, R.T. (1982) Changes in the ecosystem of a
guanotrophic and brackish shallow lake in Eastern England: potential problems in its
restoration. Internationale Revue der gesamten Hydrobiologie , 67,
625-659
111. Moss, B., McGowan, S. And Carvalho, L. (1994) Determination of
phytoplankton crops by top-down and bottom-up mechanisms in a group of English lakes, the
West Midland meres. Limnology and Oceanography , 39,1020-1029
112. Moss, B., Madgwick, J. & Phillips, G. (1996) A Guide to the
Restoration of Nutrient-Enriched Shallow Lakes. Broads Authority, Environment Agency &
EU Life Programme, Norwich
113. Moss, B., Stansfield, J. & Irvine, K. (1991) Development of
daphnid communities in diatom- and cyanophyte-dominated lakes and their relevance to lake
restoration by biomanipulation. Journal of Applied Ecology , 28,
586-602
114. Moss, B., Stansfield J, Irvine K, Perrow, M., Phillips, G. (1996)
Progressive restoration of a shallow lake: A twelve-year experiment in isolation, sediment
removal and biomanipulation. Journal of Applied Ecology, 33,
71-86
115. National Rivers Authority (1990) Toxic Blue Green Algae. Water
Quality Series 2. National Rivers Authority, HMSO, London
116. Ozimek,T., Gulati,R.D. & van Donk,E. (1990) Can macrophytes be
useful in biomanipulation of lakes? The Lake Zwemlust example. Hydrobiologia, 200/201, 399-407
117. Peters, R. H. (1984) Methods for the study of feeding, grazing and
assimilation by zooplankton. A Manual on Methods for the Assessment of Secondary
Productivity in Freshwaters (Ed. by J. A. Downing and F. H. Rigler), pp. 336-412.
Blackwell Scientific Publications, Oxford
118. Phillips, G.L., Eminson D.F. & Moss, B. (1978) A mechanism to
account for macrophyte decline in progressively eutrophicated freshwaters. Aquatic Botany
, 4, 103-126
119, Phillips,G. & Moss,B. (1994) Is biomanipulation a useful
technique in lake management? National Rivers Authority R & D Note 276, Peterborough
120. Porter, K. G. & Orcutt, J. D. Jr. (1980) Nutritional adequacy,
manageability and toxicity as factors that determine the food quality of green and
blue-green algae for Daphnia. Evolution and Ecology of Zooplankton Communities (Ed. by W.
C. Kerfoot), pp. 258-81. University of New England Press, Hanover
121. Ryding,S.-O. & Rast,W.(1989) (Editors) The Control of
Eutrophication of Lakes and Reservoirs. Man & Biosphere Series Vol 1. UNESCO, Paris
& Parthenon Publishing, Carnforth
122. Sanders,H.O. & Cope,O.B. (1968) Toxicity of several pesticides
to two species of cladocerans. Transactions of the American Fisheries Society, 95, 165-169
123. Sand-Jensen, K. & Søndergaard, M. (1981) Phytoplankton and
epiphyte development and their shading effect on submerged macrophytes in lakes of
different nutrient status. Int. Rev. ges. Hydrobiol., 66,
529-52
124. Scavia, D., Fahnenstiel, G. L., Evans, M.S., Jude, D. J. &
Lehman, J. T. (1986) Influence of salmonid predation and weather on long-term water
quality trends in Lake Michigan. Can. J. Fish. Aquat. Sci., 43,
435-43
125. Scheffer,M. (1998) Ecology of Shallow Lakes. Chapman and Hall,
London
126. Scheffer, M., Hosper, S.H., Meijer, M.L., Moss, B. & Jeppesen,
E. (1993) Alternative equilibria in shallow lakes. Trends in ecology and Evolution , 8, 275-279
127. Schelske,C.L. & Brezonik, P. (1992) Can Lake Apopka be
restored? Pp393-398 in S. Maurizi and F. Poillon (eds) Restoration of Aquatic systems,
National Academic Press, Washington, D.C.
128. Schindler, D.W. (1977) The evolution of phosphorus limitation in
lakes. Science, 195, 260-2
129. Schindler, D. W. (1978) Factors regulating phytoplankton production
and standing crop in the world's freshwaters. Limnol. Oceanogr., 23,
478-86
130. Schriver, P., Bøgestrand, J., Jeppesen, E., & Søndergaard, M.
(1995) Impact of submerged macrophytes on the interactions between fish, zooplankton and
phytoplankton: large scale enclosure experiments in a shallow lake. Freshwat.Biol. , 33, 255-270
131. Shapiro, J. (I980) The need for more biology in lake restoration.
Lake Restoration. Proceedings of a National Conference August 1978. U.S.E.P.A.
444/5-79-001. Minneapolis
132. Shapiro, J. (I980) The importance of trophic-level interactions to
the abundance and species composition of algae in lakes. Hypertrophic Ecosystems (Ed. by
J. Barica and L. R. Mur). Junk, The Hague
133. Shapiro,J. (1990) Current beliefs regarding dominance by
blue-greens: The case for the importance of CO2 and pH. Verh. int. Verein. theor. angew.
Limnol., 24, 38-54
134. Shapiro, J., Lamarra, V. & Lynch, M. (1975) Biomanipulation: an
ecosystem approach to lake restoration. Water Quality Management through Biological
Control (Ed. by P. L. Brezonik and J. L. Fox). Report ENV-07-75-1. University of Florida,
Gainsville
135. Shapiro, J. & Wright, D. I. (1984) Lake restoration by
biomanipulation: Round Lake, Minnesota, the first two years. Freshwat. Biol., 14, 371-83
136. Siddiqui, A.B. (1977) Lake Naivasha (Kenya, East Africa) fishery
and its management together with a note on the food habits of fishes. Biological
Conservation, 12, 217-228
137. Simons,J., Ohm,M., Daalder,R., Boers,P. & Rip,W. (1994)
Restoration of Botshol (The Netherlands) by reduction of external nutrient load: recovery
of a characean community with Chara connivens. Hydrobiologia, 275/276,
243-253
138. Small, J.W., Richard, D.I. & Osborne J.A (1985) The effects of
vegetation removal by grass carp (Ctenopharyngodon idella and herbicides on the water
chemistry of four Florida lakes. Freshwater Biology, 15,
587-596
139. Søndergaard,M., Jeppesen,E. & Berg,S. (1996) Pike (Esox lucius
L. ) stocking as a biomanipulation tool 2. Effects on lower trophic levels in Lake Lyng
(Denmark). Hydrobiologia, 342, 319-325
140. Søndergaard,M., Jeppesen,E., Mortensen,E., Dall,E., Kristensen,P.,
& Sortkjaer,O. (1990) Phytoplankton biomass reduction after planktivorous fish
reduction in a shallow, eutrophic lake; a combined effect of reduced internal P-loading
and increased zooplankton grazing. Hydrobiologia, 200/201,
229-240
141. Stansfield,J., Moss,B. & Irvine,K. (1989) The loss of submerged
plants with eutrophication III Potential role of organochlorine pesticides: a
palaeoecological study. Freshwater Biology , 22, 109-132
142. Stephen, D., Moss, B. And Phillips, G. (1997) Do rooted macrophytes
increase sediment phosphorus release? Hydrobiologia , 342/343,
27-34
143. Stephen, D., Moss, B. & Phillips, G. (1998) The relative
importance of top-down and bottom-up control of phytoplankton in a shallow
macrophyte-dominated lake. Freshwater Biology 39 (in press)
144. Stich,H.B. & Lampert,W. (1981) Predator evasion as an
explanation of diurnal vertical migration of zooplankton. Nature , 293,
396-398
145. Timms, R.M. & Moss, B. (1984). Prevention of growth of
potentially dense phytoplankton populations by zooplankton grazing in the presence of
zooplanktivorous fish, in a shallow wetland ecosystem. Limnology & Oceanography , 29, 472-486
146. Underwood,G.J.C. (1991) Growth enhancement of the macrophyte
Ceratophyllum demersum in the presence of the snail Planorbis planorbis: the effect of
grazing and chemical conditioning. Freshwat. Biol., 26,
325-334
147. Van Donk,E., De Deckere,E., Klein Breteler,G.P., &
Meulemans,J.T. (1994) Herbivory by waterfowl and fish on macrophytes in a biomanipulated
lake:effects on long term recovery. Verhandlungen internationale der Vereinigung
theoretische und angewande Limnologie, 25, 2139-2143
148. Van Donk,E., Grimm,M.P., Gulati,R.D., Heuts,P.G.M., De Kloet, W.A.
& van Liere,L. (1990) First attempt to apply whole lake food-web manipulation on a
large scale in the Netherlands. Hydrobiologia, 200/201, 291 -
301
149. Van Donk,E. & Gulati,R.D (1995) Transition of a lake to turbid
state six years after biomanipulation: mechanisms and pathways. Water Science &
Technology, 32, 197-206
150. Van Donk,E., Gulati,R.D. & Grimm,M.P. (1989) Food web
manipulation in Lake Zwemlust:positive and negative effects during the first two years.
Hydrobiological Bulletin, 23, 19-34
151. Van Donk,E., Gulati,R.D., Iedema,A. & Meulemans,J.T. (1993)
Macrophyte-related shifts in the nitrogen and phosphorus contents of the different trophic
levels in a biomanipulated shallow lake. Hydrobiologia, 251,
19-26
152. Van Liere,L. & Gulati, R.D. (1992) Restoration and recovery of
shallow eutrophic lake ecosystems in the Netherlands: epilogue. Hydrobiologia , 233,
283-287
153. Vollenweider, R. A. (1975) Input output models with special
reference to the phosphorus loading concept in limnology. Schweiz. Zh. Hydrol., 37, 53-84
154. Venugopal, M.N. & Winfield,I.J. (1993) The distribution of
juvenile fishes in a hypereutrophic pond: can macrophytes potentially offer a refuge for
zooplankton? Journal of Freshwater Biology, 8, 389-396
155. Wetzel,R.G. (1990) Land-water interfaces: Metabolic and
limnologicalregulators. Verh. int. Verein. theor. angew. Limnol., 24,
6-24
156. Wium-Andersen, S., Anthoni, U., Christophersen, C. & Houen, G.
(1982) Allelopathic effects on phytoplankton by substances isolated from aquatic
macrophytes (Charales). Oikos, 39, 187-90
157. Wurtsbaugh,W. (1992) Food-web modification by an invertebrate
predator in the Great Salt lake (USA).Oecologia , 89,168-175
158. Zaret, T. M. & Suffern, J. S. (1976) Vertical migration in
zooplankton as a predator avoidance mechanism. Limnol. Oceanogr., 2l,
804-13
| < Previous |