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CO2-induced growth enhancements of co-occurring tree species decline at different rates (1993)

Bazzaz, F. A. ; Miao, S. L. ; Wayne, P. M.

Springer

Oecologia 96 (1993), S. 478-482

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ISSN: 1432-1939

Keywords: Elevated CO2 atmospheres ; Forest productivity ; Quercus ; Betula ; Acer

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract To elucidate how enriched CO2 atmospheres, soil fertility, and light availability interact to influence the long-term growth of tree seedlings, six co-occurring members of temperate forest communities including ash (Fraxinus americana L.), gray birch (Betula populifolia), red maple (Acer rubrum), yellow birch (Betula alleghaniensis), striped maple (Acer pensylvanicum), and red oak (Quercus rubra L.) were raised in a glasshouse for three years in a complete factorial design. After three years of growth, plants growing in elevated CO2 atmospheres were generally larger than those in ambient CO2 atmospheres, however, magnitudes of CO2-induced growth enhancements were contingent on the availability of nitrogen and light, as well as species identity. For all species, magnitudes of CO2-induced growth enhancements after one year of growth were greater than after three years of growth, though species' growth enhancements over the three years declined at different rates. These results suggest that CO2-induced enhancements in forest productivity may not be sustained for long periods of time. Additionally, species' differential growth responses to elevated CO2 may indirectly influence forest productivity via long-term species compositional changes in forests.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00320504

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Elevated CO2 and drought alter tissue water relations of birch (Betula populifolia Marsh.) seedlings (1993)

Morse, S. R. ; Wayne, P. ; Miao, S. L. ; [et al.]

Springer

Oecologia 95 (1993), S. 599-602

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ISSN: 1432-1939

Keywords: Global Change ; Forest regeneration ; Osmotic adjustment ; Cell wall elasticity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The effect of increasing atmospheric CO2 concentrations on tissue water relations was examined in Betula populifolia, a common pioneer tree species of the northeastern U.S. deciduous forests. Components of tissue water relations were estimated from pressure volume curves of tree seedlings grown in either ambient (350 μl l−1) or elevated CO2 (700 μl l−1), and both mesic and xeric water regimes. Both CO2 and water treatment had significant effects on osmotic potential at full hydration, apoplasmic fractions, and tissue elastic moduli. Under xeric conditions and ambient CO2 concentrations, plants showed a decrease in osmotic potentials of 0.15 MPa and an increase in tissue elastic moduli at full hydration of 1.5 MPa. The decrease in elasticity may enable plants to improve the soil-plant water potential gradient given a small change in water content, while lower osmotic potentials shift the zero turgor loss point to lower water potentials. Under elevated CO2, plants in xeric conditions had osmotic potentials 0.2 MPa lower than mesic plants and decreased elastic moduli at full hydration. The increase in tissue elasticity at elevated CO2 enabled the xeric plants to maintain positive turgor pressures at lower water potentials and tissue water contents. Surprisingly, the elevated CO2 plants under mesic conditions had the most inelastic tissues. We propose that this inelasticity may enable plants to generate a favorable water potential gradient from the soil to the plant despite the low stomatal conductances observed under elevated CO2 conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00317447

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