Abstract
Primary production rates, chlorophyll and phytoplankton biovolume were measured monthly from April 2003 to November 2004 in Lake Tana, a large tropical lake in the highlands of Ethiopia. The lake is characterised by low nutrient concentrations, and a low water transparency due to high silt load of the inflowing rivers during the rainy seasons (May–November) and daily resuspension of sediments in the inshore zone. The mean chlorophyll-a concentrations varied seasonally and ranged from 2.6 mg m−3 to 8.5 mg m−3 (mean: 4.5 mg m−3) in the offshore zone. Primary production was measured using the light–dark bottles technique. We incubated only at three depths, i.e. 0.6, 1.2 and 1.8 m. Therefore, we may have missed a substantial part of the depth production profile and probably also frequently missed P max. Gross primary production in the openwater averaged 2.43 g O2 m−2 d−1 and ranged between 0.03 g O2 m−2 d−1 and 10.2 g O2 m−2 d−1; production was significantly higher in the inshore zone. The highest production rates were observed in the post-rainy season (Oct–Nov), which coincided with a bloom of Microcystis and higher chlorophyll levels. This seasonal high production is probably caused by a relatively high nutrient availability in combination with favourable light conditions. The gross primary production rates of L. Tana are among the lowest compared with other tropical lakes. This will be partly the result of our underestimation of gross primary production by often missing P max. Another cause is the oligotrophic nature of the lake in combination with its relatively low water transparency. The gross primary production per unit chlorophyll in the openwater zone was in the same range as in 30 other tropical lakes and reservoirs. The higher primary production in the inshore zone is probably the result of the daily water column mixing (Z mix ≥ Z t) in this area, enhancing nutrient recycling. A large proportion of the annual primary production is realised in one of the four seasons only. This productive post-rainy season is relatively short (2 months) and therefore efficiency of transfer of matter between the first and second trophic level of the Lake ecosystem will be poor.
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Acknowledgements
This study was financially supported by the Amhara Region Agricultural Research Institute (ARARI). We thank the Bahir Dar Fish and other Aquatic Life Research Center (BFALRC) for laboratory facilities and we greatly appreciate the assistance of the BFALRC staff members both in the field and in the laboratory. We acknowledge the help of Dr. Anthony Verschoor for calculating mixing depths. The extensive comments and corrections of Dr. Ramesh D. Gulati, Dr. Stephanie Guildford and Dr. Johan U. Grobbelaar, which improved the manuscript considerably, are acknowledged. We thank three anonymous reviewers for providing helpful comments and suggestions on the manuscript. Publication 3992 Netherlands institute of Ecology (NI00-KNAW).
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Wondie, A., Mengistu, S., Vijverberg, J. et al. Seasonal variation in primary production of a large high altitude tropical lake (Lake Tana, Ethiopia): effects of nutrient availability and water transparency. Aquat Ecol 41, 195–207 (2007). https://doi.org/10.1007/s10452-007-9080-8
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DOI: https://doi.org/10.1007/s10452-007-9080-8