Abstract

SUMMARY desert. (2) Clumps of increasing size tended to be further from a random point as well as separated from their nearest neighbouring H. rigida by greater distances. (3) Larger clumps had more ground area for their roots. This was graphically demonstrated using polygons circumscribing individual clumps and directly measured by excavation of the roots. The larger space occupied by the larger clumps presumably reflects their pre-emption of ground water. (4) Leaves on small clumps (less than 10 culms) had a three-fold higher rate of transpiration per unit leaf area than had leaves on large clumps (over 200 culms), but the larger clumps had nearly three times as much leaf area per unit ground area. Consequently, the depth of water transpired daily did not depend on clump size. (5) As the amount of CO2 fixed per unit ground area also did not differ with clump size, the pattern of small and large clumps may be quite persistent in time.

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