Jerk Hellkvist scite author profile

Comparative field studies of transpiration rate and drying‐transpiration in Scots pine were carried out in the autumns of 1964 and 1965 and in the early summer of 1966. The experimentl material was nineteen to twinty year old grafts, of the same clone but growing on different types of ground, or of different clones but growing in close proximity and under the same environmental conditions. Transpiration rates were measured on detached shoots. The results indicated that the type of ground did not very much modify the responses of the shoots to illumination‐darkness treatment. Drying‐transpiration is here defined as the transpiration occurring when detached shoots are prevented from water uptake. Measurements were made of the rate of loss of weight and the amount of water given off from illuminated shoots. Defferences were found both in the rate of weight loss, and in the amount of water given off, between pine trees of the same clone but growing on different types of ground, and between pine trees of different clones but growing on the same type of ground.

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Field studies of water relations and photosynthesis in Scots pine.

Hillerdal-Hagstromer

Mattson‐Djos

Hellkvist

1982

Physiologia Plantarum

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J. 1982. Field studies of water relations and photosynthesis in Scots pine. II. Influence of irrigation and fertiHzation on needle water potential of young pine trees. -Physiol. Plant. 54: 295-301.Needle water potential at noon and diurnal variation in needle water potential was measured with a pressure chamber during the growth seasons (1974, 1975 and 1976) in a 20-year-old stand of Scots pine (Pinus sylvestris L.), subjected to daily irrigation and nutrient treatments at Jadraiis, in central Sweden (60°50'N). In unstressed conditions there was little difference in water potential amongst the treatments. However, during a dry spell in 1976 the diurnal curves of water potential in the control and combined irrigated and fertilized treatment diverged by up to 6 bar in the middle of the day. Irrigation alone resulted in higher midday water potentials CPJ than in the controls only during this period. At other times in 1974, 1975 and early 1976, the values of W^ in the irrigated treatment were similar to the controls. Fertilization alone resulted in higher W^ than in the controls in both 1975 and 1976 during both wet and dry periods. However, the largest difference between treatment and control occurred in the combined, irrigated and fertilized treatment during the dry spell in 1976. Several possible explanations for the effect of fertilization on leaf water potential are discussed, including changes in hydraulic conductivity and water storage. The most likely explanation is a reduced transpiration rate as a result of more effective stomatal control of water loss.Additional key-words -Diumal variation, noon water potential, pressure chamber, water stress.K. Hillerdal-Hagstromer et al.

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The Water Relations of Pinus sylvestris II. Comparative Field Studies of Water Potential and Relative Water Content

Hellkvist

1973

Physiologia Plantarum

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Comparative field studies of water potential and relative water content in needles of Scots pine, Pinus sylvestris L., were carried out in September‐October 1965, in June 1966 and in July‐August 1968. The sample trees were grafts, planted in 1946 and belonging to two clones, growing in close proximity and under the same environmental conditions. The main subject of the investigation was to determine whether differences in water potential and/or relative water content existed between these two clones, and if these differences could be correlated to the growth differences and thus aid in the development of selection criteria. The results obtained demonstrate such differences in water potential but not in relative water content. The differences were not consistent through the experimental periods. The clone which had the highest water potentials in June 1966, had the lowest in September‐October 1965 and in July‐August 1968. The results revealed that the clone which showed the fastest total growth, normally had the lowest water potentials when irradiated. In 1968 the current and the previous season's needles were separately investigated. The water potential and relative water content were always higher in the current season's needles. Highly significant negative correlations between water potential or relative water content and irradiance, temperature, and vapour pressure deficit were found.

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Jerk Hellkvist

Vertical Gradients of Water Potential and Tissue Water Relations in Sitka Spruce Trees Measured with the Pressure Chamber

The Water Relations of Pinus sylvestris

Field studies of water relations and photosynthesis in Scots pine.

The Water Relations of Pinus sylvestris II. Comparative Field Studies of Water Potential and Relative Water Content

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