Abstract
337 Lake Donghu is a 32-km 2 shallow, subtropical lake near the Yangtze River (P.R. China) that has experienced dramatic changes in the past five decades. These changes include: (1) a trophic state change from mesotrophy to hypertrophy; (2) dense blooms of cyanobacteria during every summer from the 1970s to 1984; (3) a cessation of blooms starting in 1985, with no recurrence; and (4) an increase, coincident with bloom declines, in the production of silver and bighead carp (filter-feeders) by more than tenfold. There are several possible explanations for the disappearance of blooms, including changes in nutrient concentrations, increased zooplankton grazing, and increased grazing on algae by fish. The long-term data suggest that changes in nutrients or in zooplankton were not important, but that the remarkably increased fish densities might have played the key role. To test this hypothesis, in situ enclosure experiments were conducted in three years. The main conclusions are as follows: (1) an increased stocking of the lake with carp played a decisive role in the elimination of cyanobacteria blooms; (2) both silver and bighead carp can eliminate cyanobacteria blooms directly by grazing; (3) zooplankton cannot suppress the blooms; and (4) the lake still is vulnerable to the outbreak of blooms, should fish grazing decline. The critical biomass of carp is approximately 50 g m 3 . The results suggest the applicability of a new food-web manipulation (increased stocking with filter-feeding fish) for controlling cyanobacteria blooms in hypereutrophic lakes. The approach differs from traditional biomanipulation in Europe and North America, where piscivores are added to control planktivores, and this in turn increases zooplankton and decreases algae. The new biomanipulation method is being used or being tested to counteract cyanobacteria blooms in many Chinese lakes such as Lake Dianchi?Xie and Liu: Biomanipulation to Control Cyanobacteria TheScientificWorld (2001) 1, 337-356 in Yunnan Province, Lake Chaohu in Anhui Province, and Lake Taihu in Jiangsu Province. The method has great potential as an important component of an integrated approach to counteract cyanobacteria blooms, especially in lakes where nutrient inputs cannot be reduced sufficiently, and where zooplankton cannot effectively control phytoplankton production.
Highlights
The typical algal dominants may have defenses against grazers such as gelatinous or hard sheaths, and some produce toxins
DIGESTION OF CYANOBACTERIA BY SILVER AND BIGHEAD CARP. Another issue that has been a subject of debate is the digestibility of cyanobacteria grazed by silver and bighead carp
Examinations of gut contents from silver carp in a culture pond indicated that most of the algae present appeared intact in both the fore- and hind-gut[22,23,24]
Summary
Lake Donghu (30o33 ́N, 114o23 ́E) (Fig. 1) is located in Wuhan City, the capital of Hubei Province. In the latter half of the 1960s, Lake Donghu was divided into several sections by artificial dikes; Guozhengu Hu, Tanglin Hu, Hou Hu, and Niuchao Hu are the major lake sections. Lake Donghu has multiple uses to society, including water supply, recreation, and commercial fishing. The northwestern shoreline has a park and recreation area for the citizens of Wuhan, with museums, a botanical garden, observation towers, restaurants, swimming sites, and sightseeing boats. There are approximately 100 factories (including a large steel plant) around the lake. Dissolved oxygen concentrations in the lake water are often high. Vascular aquatic plants are scarce in the lake, and their contribution to total system primary production is negligible[2]. Research has indicated that fish grazing might significantly impact the lake’s plankton[3]
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