Foliole movement and canopy architecture of Larrea tridentata (DC.) Cov. in Mexican deserts

SummaryThe creosote bush (Larrea tridentata) is a common desert perennial with bifoliate, amphistomatic, divaricate leaves. The leaves can vertically close their folioles and vary their profile with respect to direct solar radiation. Field data from different Mexican deserts showed a significant correlation between foliole aperture and mean foliole inclination: in plants in which folioles were more open, the foliole surfaces were less vertical. In a series of field experiments in the Chihuahuan Desert, foliole aperture varied significantly with the water-status of the plant and the hour of the day. In moist plants, folioles opened in the early morning and closed in the afternoon. Water-stressed plants showed significantly lower foliole apertures. A simulation of the light interception patterns of the plants showed that foliole closure in water-stressed individuals reduces direct radiation interception by around 24%. Most (64%) of the reduction in interception was due to the vertical inclination of the photosynthetic surfaces induced by foliole closure in the water-stressed plants. The rest (36%) of the reduction in interception was due to differential self-shading between foliole pairs, which was higher in the closed folioles of the water-stressed plants, but operated more towards the early hours of the day.

[1]  D. Wolfe,et al.  Nonparametric Statistical Methods. , 1974 .

[2]  M. Barbour,et al.  Contributions to the Biology of Larrea Species , 1974 .

[3]  J. Hunziker,et al.  Species Disjunctions in Larrea: Evidence From Morphology, Cytogenetics, Phenolic Compounds, and Seed Albumins , 1972 .

[4]  F. Meinzer,et al.  Conopy architecture of Larrea tridentata (DC.) Cov., a desert shrub: foliage orientation and direct beam radiation interception , 1988, Oecologia.

[5]  P. Greig-Smith,et al.  QUANTITATIVE PLANT ECOLOGY , 1959 .

[6]  J. Monteith,et al.  Principles of Environmental Physics , 2014 .

[7]  P. Nobel Orientations of Terminal Cladodes of Platyopuntias , 1982, Botanical Gazette.

[8]  P. McCullagh,et al.  Generalized Linear Models , 1984 .

[9]  T. Postelnicu,et al.  Sokal, R. R., and I. J. Rohlf: Biometry. W. H. Freeman and Company, San Francisco 1969, XXI + 776 S., 89 Abb., 56 Tab., Preis 126/— , 1970 .

[10]  Tien Wei Yang Major Chromosome Races of Larrea divaricata in North America , 1970 .

[11]  E. H. Runyon The Organization of the Creosote Bush with Respect to Drought , 1934 .

[12]  Gaylon S. Campbell,et al.  Biophysical ecology: (Springer Advanced Texts in Life Sciences.) David M. Gates. Springer-Verlag, New York, NY, 1980, xxiii + 611 pp., 163 figs., 30 tabs., DM 79.50, U.S. $43.80 (clothbound). , 1981 .

[13]  Exequiel Ezcurra,et al.  Architecture, Light Interception, and Distribution of Larrea Species in the Monte Desert, Argentina , 1991 .

[14]  C. Montaña Estudio integrado de los recursos vegetacion, suelo y agua en la reserva de la biosfera de Mapimi : 1. Ambiente natural y humano , 1988 .

[15]  E. Batschelet Circular statistics in biology , 1981 .

[16]  Park S. Nobel,et al.  Environmental Biology of Agaves and Cacti , 1988 .

[17]  Transpiratory Organs of Larrea Tridentata and Their Ecological Significance , 1932 .