THE PROCESSING OF UNCONFINED,NATURALLY ENTRAINED LEAVES IN TWO LOW-ORDER SOUTHERN AFRICAN MOUNTAIN STREAMS

Summary

Breakdown of unconfined and confined leaves of the riparian tree Brabejum stellatifolium L. was investigated in two low order mountain streams (Window Stream and Langrivier) in the southwestern Cape, South Africa. At both sites, 5000 unconfined leaves were released in April and another 5000 in December 1990. The leaves were marked and half of them presoaked in river water prior to release. Leaves reaching a net 100 m below the point of release were removed periodically. On termination of the experiments, the study reaches were cleared of the remaining marked leaves. The distance which these leaves had travelled, and the retentive feature at which they were found were recorded. All leaves were weighed after recovery. In December 1990, leaves confined in coarse-mesh bags were placed on the stream beds of the two sites. Decay rates of unconfined leaves differed between streams and seasons but not between wetted and dry leaves or those of contrasting initial size and weight. In winter, breakdown of unconfined leaves was rapid (t₅₀ of 6.6d and 23.9d for Langrivier and Window Stream respectively). In summer, breakdown of unconfined leaves was slower (t₅₀ of 58d, Langrivier), but more rapid than leaves confined in mesh bags (t₅₀ of 77d, Langrivier). Distance travelled downstream had no significant effect on leaf breakdown. Different retentive features resulted in different rates of decay. Leaf weight loss in winter and summer at both sites was greatest in riffles (17–80%) and runs (21–78%). In all cases, stranded (exposed and out of the water) leaves lost the least weight (4–38%).