Seasonal patterns of canopy development and carbon gain in nineteen warm desert shrub species.

Abstract

Canopy development and photosynthetic rate were measured at monthly intervals over a period of one year in 19 shrub and subshrub species of the Mojave and upper Sonoran Deserts. Thirteen of these species realized a substantial fraction of their total net carbon assimilation via twig photosynthesis. The twig contribution to whole plant yearly carbon gain reached a maximum of 83% in species such as Thamnosma montana, Salizaria mexicana, and Baccharis brachyphylla. This large contribution by twigs was due to both low levels of leaf production and the greater longevity of twig tissues. In some other species, however, leaf and twig organs had similar lifespans. During the year of this study (which had an unusually warm, mild winter), no species showed a pattern of winter deciduousness. The reduction in total photosynthetic area between maximal spring canopy development and mid August summer dormancy ranged from 32 to 94%. Some herbaceous perennial species died back to the ground, but none of the woody shrubs were totally without green canopy area at any time of the year. No species studied were capable of high rates of photosynthesis at low plant water potentials in July and August, but, in those species which maintained a substantial canopy area through the drought period, previously stressed tissues showed substantial recovery after fall rains. Photosynthetic rate was significantly correlated with both plant water potential and tissue nitrogen content over the entire year, but only weakly so. This is due in part to the winter months when plant water potentials and tissue nitrogen contents were high, but photosynthetic rates were often low.