Partial recovery of a eutrophic reservoir through managed phosphorus limitation and unmanaged macrophyte growth

Partial recovery of a eutrophic reservoir through managed phosphorus limitation and unmanaged macrophyte growth

Recovery from an algal to a macrophyte-dominated state in a freshwater system can require both nutrient reduction and a switch to initiate the change. Despite ferric dosing of pumped inputs since 1983 to reduce external phosphorus loading and forced mixing of the main basin by helices since 1985, Al...

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Bibliographic Details
Published in:Hydrobiologia Vol. 481; no. 1-3; pp. 75 - 87
Main Authors: PERKINS, R. G, UNDERWOOD, G. J. C
Format: Journal Article
Language:English
Published: Dordrecht Springer 01-08-2002
Springer Nature B.V
Subjects:
Algal blooms
Animal, plant and microbial ecology
Applied ecology
Aquatic birds
Aquatic plants
Aythya fuligula
Biological and medical sciences
British Isles, England, Suffolk
Chlorophyll
Coelosphaerium
Conservation, protection and management of environment and wildlife
Cyanophyta
Elodea
Environmental degradation: ecosystems survey and restoration
Eutrophication
Fish kill
Freshwater
Fulica atra
Fundamental and applied biological sciences. Psychology
Nutrients
Phosphorus
Phytoplankton
Plankton
Reservoirs
Water supply
Woronichinia
United Kingdom
Europe
British Isles
British Isles, England, Suffolk, Alton Water
Algae
Trophic relation
Phosphorus
Environmental management
Eutrophication
Freshwater environment
Bottom up control
Top down control
Artificial lake
Bloom
Cyanobacteria
Bacteria
Phytoplankton
Ecological recovery
Aquatic plant
Thallophyta
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Summary:Recovery from an algal to a macrophyte-dominated state in a freshwater system can require both nutrient reduction and a switch to initiate the change. Despite ferric dosing of pumped inputs since 1983 to reduce external phosphorus loading and forced mixing of the main basin by helices since 1985, Alton Water reservoir, Suffolk, UK suffered from increasing planktonic chlorophyll aconcentrations in the main basin, from construction in 1981 until 1992. From 1987 blooms of cyanobacteria were increasingly frequent, with a major bloom of Woronichinia(originally Coelosphaerium) in 1992, resulting in water supply problems. Since 1993 a partial recovery from a eutrophic to mesotrophic state occurred. Studies of chlorophyll a, orthophosphate (OP), total phosphorus (TP), Alkaline Phosphatase Activity (APA) and response of phytoplankton to in situ phosphate addition experiments between 1995 and 1997, revealed gradients indicative of increasing phosphorus limitation of phytoplankton along the length of the reservoir, away from the pumped input. From 1993 to 1997 no algal blooms occurred in the main basin of the reservoir and extensive macrophyte growth was observed around the reservoir periphery, principally Elodea spp. This corresponded with an increase in weed-eating birds, such as coot (Fulica atra) and tufted duck (Aythya fuligula). The partial recovery of the main basin was attributed to bottom-up control through phosphorus limitation as a result of management in the form of ferric dosing, as well as competition for nutrients and light by the extensive macrophyte beds. Increased macrophyte growth was probably induced by changes in the reservoir ecology following the cyanobacterial bloom and associated fish kill in 1992.[PUBLICATION ABSTRACT]
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0018-8158
1573-5117
DOI:10.1023/A:1021281019865