Leaf-pack dynamics in a southern African mountain stream

SUMMARY 1. The occurrence, composition and invertebrate fauna of naturally-occurring leaf packs were studied over 24 months in Langrivier, a second-order mountain stream in the south-western Cape, South Africa. Langrivier is shallow and fast-flowing and stores very low levels of allochthonous detritus, although natural leaf packs form an obvious part of the energy base in the stream throughout the year. 2. The occurrence and size of the packs were influenced mainly by stream discharge and by the timing and character of leaf fall from riparian trees. Packs were smallest (minimum dry mass 17 g, minimum volume 1.7–10^?5 m³) in winter when discharge was high, and largest (maximum dry mass 191 g, maximum volume 4.2–10^?3 m³) in spring when discharge decreased and leaf fall from the evergreen riparian trees began. Through the year the packs covered a mean 0.41 % of the stream bed and had a mean abundance of 0.46 packs m^?2 of stream bed. They were ephemeral, lasting on average <1.7 months and yet accounted for 29% of the stored detritus in the system. Wood was the dominant component of packs, and leaves at ali stages of decomposition were present throughout the year. 3. The ratio of numbers of invertebrates in packs: numbers of individuals in the benthos was very low (0.002–0.030), presumably because of the rarity and small size of the packs. Nevertheless, the density of invertebrates per unit area covered by leaf packs was consistently much higher than the density in an equivalent area of the benthos, except during peak leaf fall (October to December). 4. Experiments were undertaken with artificial leaf packs in order to determine the extent to which these simulated natural packs. Although both natural and artificial leaf packs contained a high proportion of Plecoptera (46% and 29% respectively), the natural packs contained high numbers of simuliid larvae (33% of total), whereas artificial packs had a high percentage of chironomid larvae (62%), Several other taxa regularly occurred in both types of pack but in very low numbers. In addition,     

Grain Growth Dynamics in Winter Wheat Crops

A procedure for analysing the dynamics of grain growth is developedand applied to data from winter wheat crops. The algorithm estimatesgrowth rate in relation to local data and preserves a shapethrough the whole growth curve by optimization subject to physiologically-justifiedconstraints: that grain growth rate decreases monotonically,and that there is a discontinuity to zero rate at physiologicalmaturity. It is assumed that effects of temperature can be allowedfor by expressing growth in relation to thermal time, accumulatedtemperature above a base temperature. Conditions are derivedunder which an optimal base temperature for grain growth rateexists under these physiological constraints. When applied todata from crops with different sowing dates and nitrogen treatmentsin different years, weak optimal base temperatures of 2.0 and7.5 °C were obtained for growth rate and duration, respectively.Initial growth rates were similar for all crops, but there wereconsiderable variations in rate later in grain growth. Thesevariations were, in part, related to the overall crop growthrate divided by the number of grains. Grain growth, modelling, winter wheat