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Root growth of subalpine and montane Eucalyptus seedlings at low soil temperatures (1997)

Halter, R. ; Sands, R. ; Ashton, David H. ; [et al.]

Springer

Trees 12 (1997), S. 35-41

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ISSN: 0931-1890

Keywords: Key words Eucalyptus pauciflora subsp. pauciflora ; Eucalyptus nitens ; Root growth ; Root configuration ; Adaptations to soil temperature

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract This study examines the effect of different soil temperatures on root growth in seedlings of Eucalyptus pauciflora Sieber ex Sprengel subsp. pauciflora and Eucalyptus nitens (Deane & Maiden) Maiden. Seedlings were grown in a glasshouse in pots containing soil. Pots were held in water baths maintained at 3, 7 or 13°C, whilst shoots were exposed to ambient glasshouse temperatures. The experiments were designed to separate direct effects of soil temperature from effects due to differences in seedling size. In the first experiment, seedlings were grown to constant height (25 cm for both species), in the second to constant time (100 days for E. pauciflora and 64 days for E. nitens) and in the third experiment seedlings were transferred between soil temperatures. The rate of growth of both species increased with increasing soil temperature. E. nitens grew faster than E. pauciflora at 7 and 13°C, but E. pauciflora grew faster than E. nitens at 3°C. The rate of browning of roots increased with decreasing soil temperature and at a faster rate in E. nitens than E. pauciflora. Root length was highly correlated to root mass within diameter and colour classes (r2 〉 0.7). However, brown roots were heavier than white roots. Consequently, changes in root mass did not reflect changes in root length when the proportion of brown to white root also changed. For example, at a constant height of 25 cm at 3°C, E. nitens had greater root mass but lesser root length than E. pauciflora. E. pauciflora at 3°C grew faster, and had more root length and less brown roots than E. nitens. This supports the argument that E. pauciflora is better adapted than E. nitens to survive and grow at lower soil temperatures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00009694

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A comparison of sap flux and water relations of leaves of various isolated trees with special reference to foundation movement in clay soil (1992)

Misra, R. K. ; Sands, R.

Springer

Plant and soil 140 (1992), S. 269-278

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ISSN: 1573-5036

Keywords: clay soil ; English Elm ; foundation movement ; leaf water potential ; Melaleuca styphelioides ; Prickly Paperbark ; Prunus cerasifera ; Purple-leaved Cherry Plum ; sap flux ; soil water extraction ; stomatal conductance ; transpiration ; Ulmus procera ; vapour pressure deficit

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Diurnal variation in sap flux (S) through stems of six trees, two each of Ulmus procera SALISB., Melaleuca styphelioides SM. and Prunus cerasifera EHRH. ‘Nigra’ (referred to hereafter by their generic names), were estimated from measurements of heat pulse velocities. Leaf water potential (ψ), stomatal conductance (g s ) and transpiration from leaves (T) of all replicate trees were measured at 1300–1500h, once during the summer. On two separate occasions measurements were made of S, ψ, (g s ) and T for one each of Ulmus and Melaleuca trees to study diurnal variations in these parameters. A 12×12 m2 area around each tree was kept covered to simulate the condition of trees growing on pavements adjacent to residential properties. Sap flux for these tree species was in the order Melaleuca〉Ulmus〉Prunus. It is suggested that the smaller canopy and sapwood area in Prunus compared to the other two species is responsible for lower water potential and lower transpiration rate than the other species. Detailed analysis of the diurnal variation in sap flux and water relation of leaves of Melaleuca and Ulmus indicated sap flux of Melaleuca to be greater than that of Ulmus at the same transpiration rate per unit leaf area although the sapwood area of the two species was marginally different. This may have been due either to the difference in canopy conductance or in leaf area between the two species. With the assumption that sap flux closely resembles the rate of soil water extraction for both species, results indicate that Melaleuca is likely to extract soil water at a higher rate than Ulmus and hence is capable of causing greater shrinkage and soil movement than Ulmus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00010604

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