Submerged macrophytes, zooplankton and the predominance of low- over high-chlorophyll states in western boreal, shallow-water wetlands

• Published in: Freshwater biology Vol. 50; no. 5; pp. 868 - 881
• Main Authors: NORLIN, J. IVOR, BAYLEY, SUZANNE E., ROSS, LISETTE C. M.
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.05.2005; Blackwell Science; Wiley Subscription Services, Inc
• Subjects: alternate stable states; Animal and plant ecology; Animal, plant and microbial ecology; Biological and medical sciences; Bosmina; Cladocera; Copepoda; Fresh water ecosystems; Freshwater; Fundamental and applied biological sciences. Psychology; shallow lakes; stickleback; Synecology; western boreal; zooplankton; Canada, Alberta; Chlorophyll; Shallow water; Freshwater environment; Aquatic environment; Plankton; Hydrobiology; shallow lakes; alternate stable states; western boreal; Aquatic plant; stickleback; Wetland; Zooplankton
• ISSN: 0046-5070; 1365-2427
• DOI: 10.1111/j.1365-2427.2005.01366.x

Summary 1. Shallow‐water (<2 m deep) wetlands in northern Alberta's western boreal forest tend to have either extremely high‐chlorophyll, pea‐green water or water that is low in chlorophyll and clear. The relative importance of top‐down processes (e.g. zooplankton grazing) compared with bottom‐up processes (e.g. nutrient limitation) for regulating the existence of these alternate states has yet to be explicitly investigated in these poorly studied waterbodies. 2. To assess the relationship between chemical and biological factors and the predominance of low‐chlorophyll over high‐chlorophyll states, a survey of 24 shallow‐water wetlands in northern Alberta was conducted over the summers of 2001 and 2002. 3. In wetlands without fish, statistical analysis indicated that high‐ and low‐chlorophyll sites could be differentiated with 82% accuracy based solely on whether submerged aquatic vegetation (SAV) coverage was greater or less than 25%. Further, high‐SAV lakes with zooplankton communities dominated by large cladocerans were clear 96% of the time. 4. In the few wetlands that supported stickleback populations, large cladocerans were absent. However, the development of zooplankton communities dominated by small cladocera (Bosmina) with calanoid copepods in fish‐containing wetlands corresponded with a shift from high‐ to low‐chlorophyll states. 5. Results suggest that in fishless wetlands high‐SAV coverage and grazing by large, SAV‐associated cladocerans promotes low‐chlorophyll states. Results also suggest that suppression of macroinvertebrate predators by sticklebacks allowing Bosmina to flourish may also promote low‐chlorophyll, clear‐water conditions.