Changes in Tissue Nitrogen and Phosphorus and Foliar Free Amino Acids in Autumn Olive, Black Locust, American Sycamore, and Honey Locust During Autumn

Authors

Christoph S. Vogel
Jeffrey O. Dawson

Document Type

Article

Journal/Book Title/Conference

Canadian Journal of Forest Research

Volume

23

Issue

4

First Page

665

Last Page

672

Publication Date

1993

Abstract

Changes in tissue nitrogen, phosphorus, and foliar free amino acids of four temperate woody deciduous plants (autumn olive (Elaeagnusumbellata Thunb.), black locust (Robiniapseudoacacia L.), American sycamore (Platanusoccidentalis L.), and honey locust (Gleditsiatriacanthos L.)) were determined during the autumns of 1987 and 1988 on two physically and nutritionally distinct sites in central Illinois, United States. The dinitrogen-fixing species, actinorhizal autumn olive (Frankia nodulated) and leguminous black locust (Rhizobium nodulated), resorbed a greater proportion of phosphorus than nitrogen from leaves prior to autumnal leaf abscission in comparison with the nonfixing American sycamore and honey locust. The net autumnal changes in nitrogen or phosphorus of each species did not differ with site in most cases. Free amino acid contents of leaves tended to decline as leaves senesced during the drier autumn of 1987; however, during the autumn of 1988 foliar free amino acid contents tended to increase as the season progressed, with abscised leaves having the greatest contents. Root bark seemed to be a major sink for phosphorus during autumn in the dinitrogen-fixing species, while all of the species investigated showed significant autumnal increases in twig-bark concentrations of nitrogen.

Recommended Citation

Vogel, Christoph S.; Dawson, Jeffrey O. 1993. Changes in Tissue Nitrogen and Phosphorus and Foliar Free Amino Acids in Autumn Olive, Black Locust, American Sycamore, and Honey Locust During Autumn. Canadian Journal of Forest Research (4): 665-672.