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2485507 
Journal Article 
Biomanipulation as a Restoration Tool to Combat Eutrophication: Recent Advances and Future Challenges 
Jeppesen, E; Sondergaard, M; Lauridsen, TL; Davidson, TA; Liu, Z; Mazzeo, N; Trochine, C; Ozkan, K; Jensen, HS; Trolle, D; Starling, F; Lazzaro, X; Johansson, LS; Bjerring, R; Liboriussen, L; Larsen, SE; Landkildehus, F; Egemose, S; Meerhoff, M 
2012 
Yes 
Advances in Ecological Research
ISSN: 0065-2504 
Advances in Ecological Research 
47 
411-488 
WOS:000317240700007 
Eutrophication resulting from high nutrient loading has been the paramount environmental problem for lakes world-wide for the past four decades. Efforts are being made in many parts of the world to reduce external nutrient loading via improved wastewater treatment or diversion of nutrient-rich inflows. However, even after a reduction of the external phosphorus loading, the effects obtained may be unsatisfactory. This may reflect an insufficient reduction in the external nutrient loading to effectively limit phytoplankton growth. However, the lack of success may also be due to chemical or biological within-lake inertia preventing or delaying improvements. To overcome the resilience and thereby reinforce recovery, a number of physico-chemical and biological restoration methods have been developed.



In this chapter, we describe recent developments of biological restoration methods related to eutrophication, their short-term and long-term effects, and discuss the possibility of using combined physico-chemical and biological methods to improve the long-term stability of restoration and to reduce restoration costs. As comprehensive reviews of the effect of fish manipulation in cold temperate lakes are numerous, for these waterbodies, we highlight recent results, including effects on biodiversity and metabolism, and present new approaches of biomanipulation. Our particular focus is, however, directed at biomanipulation in warm lakes and on combined treatments which are far less well described in the literature.