Abstract
Allochthonous coarse particulate organic matter (CPOM) input into the Njoro River was measured between January and June 1998 at two contrasting sites: open-canopy and closed-canopy sites. Bank runoff and aerial drift traps were used for collecting CPOM inputs over periods of two weeks. Collected litter was sorted into four categories: leaves, fruits, wood and plant fragments. Monthly input ranged from 77 to 228 g ash free dry weight m−1 for bank runoff input and from 64 to 129 g ash free dry weight m−2 for aerial input. The highest input of 228 g ash free dry weight m−1 was recorded in May at the closed-canopy site. Wood, fruits and plant fragments of particle size >100 μm contributed a mean ± SE of 60±9% of the total inputs with the rest from leaf litter. The closed-canopy site had higher inputs (P<0.05) of bank and aerial input than the open canopy site. There was no relationship between total bank runoff input and rainfall (r s = 0.08), however, total aerial input increased with decrease in rainfall (r s = – 0.59). There were differences between inputs from different plant species (P<0.05) that ranked in the following order: Syzygium cordatum > Rhus natalensis > Pittosporum viridiflorum > Vangueria madagascariensis. Removal of riparian vegetation from the banks of the Njoro River would alter the quantity and quality of the litter and reduce CPOM inputs to the river and to a downstream lake with attendant consequences to the energy budget of biocoenoses in the two ecosystems.
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Magana, A.E.M. Litter input from riparian vegetation to streams: a case study of the Njoro River, Kenya. Hydrobiologia 458, 141–149 (2001). https://doi.org/10.1023/A:1013165019112
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DOI: https://doi.org/10.1023/A:1013165019112