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Paternal and maternal effects on the response of seed germination to high temperatures in Eucalyptus globulus |
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| Authors: | Kieren D Rix Alistair J Gracie Bradley M Potts Phillip H Brown Cameron J Spurr Peter L Gore |
| Institution: | 1. School of Agricultural Science, University of Tasmania, Private Bag 54, Hobart, TAS, 7001, Australia 2. School of Plant Science and Cooperative Research Centre for Forestry, University of Tasmania, Private Bag 55, Hobart, TAS, 7001, Australia 3. Centre for Plant and Water Science, Central Queensland University, Locked Bag 3333, Bundaberg, QLD, 4670, Australia 5. seedPurity Pty Ltd, 2 Derwent Avenue, Margate, TAS, 7054, Australia 4. seedEnergy Pty Ltd, 2 Derwent Avenue, Margate, TAS, 7054, Australia |
| Abstract: | ContextHigh temperature stress in nurseries germinating Eucalyptus globulus seed is an important problem affecting germination synchrony and rate. Where there is a risk of high-temperature stress, then the choice of female parent may be important. This issue is particularly relevant to the production of full-sib families from mass-supplementary pollination where there may be opportunities for seed producers to manipulate the directionality of the crossing done in seed orchards.AimsThis study aimed to quantify the maternal versus paternal influence of seed sensitivity to high temperature stress during germination.MethodsA diallel crossing scheme involving four genotypes was used to test the relative importance of male and female genetic influences on the germination and development of E. globulus seed and their response to high temperature stress. Seed was germinated at optimum (25°C) and supra-optimal (32°C and 37°C) temperatures, and six traits describing the proportion and rate of seed germination and early seedling development were assessed.ResultsBoth paternal and maternal effects affected the germination response, arguing for at least some influence of the nuclear genotype of the embryo. However, the response to high temperature stress was more influenced by the maternal than paternal parent.ConclusionBoth the male and female genotype may affect various aspects of seed germination and early seedling development independent of seed size; however, some facets of the germination response will be mainly affected by the female parent. |
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