Biochemical basis of osmotic potential for several hardwood species
- Oak Ridge National Lab., TN (United States)
Metabolite concentrations in leaves of several tree species in an upland oak forest were characterized to determine the biochemical basis of species differences in osmotic potential at saturation. Hydrologic treatments at the site included ambient, wet (+33% throughfall precipitation), and dry (-33% throughfall precipitation). All samples collected from the ambient plot in May have been analyzed for free primary amino acids, inorganic ions, soluble carbohydrates, phenolic compounds, and organic acids. In all species, free primary amino acids accounted for less than 1% of the total solute pool. Dogwood had the lowest total solute concentration (687 {mu}mol/g dw), corresponding to the highest osmotic potential at saturation (-1.05 MPa). Understory red maple, sugar maple, scarlet oak, white oak, and overstory red maple had increasing total solute concentrations, with chestnut oak having the highest solute concentration (1126 {mu}mol/g dw) and the lowest osmotic potential (-1.76 MPa). Osmotic adjustment to water stress was evident in chestnut oak in the dry treatment throughout the growing season--up to a 0.21 MPa difference in the dry plot relative to the ambient plot in September. The data on carbohydrate concentrations, however, only partially account for the adjustments. Given that inorganic ions constituted almost 50% of the total solute pool in chestnut oak in May, any large solute adjustment would likely result from changes in inorganic ions.
- OSTI ID:
- 95883
- Report Number(s):
- CONF-9507129-; ISSN 0012-9623; TRN: 95:004728-0151
- Journal Information:
- Bulletin of the Ecological Society of America, Vol. 76, Issue 2; Conference: 80. anniversary of the transdisciplinary nature of ecology, Snowbird, UT (United States), 30 Jul - 3 Aug 1995; Other Information: PBD: Jun 1995
- Country of Publication:
- United States
- Language:
- English
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