Abstract
Eastern white pine ( Pinus strobus L.) has wide genetic variability and high productivity in plantations in North America, Europe and the Far East. In regions where neither white pine blister rust nor the white pine weevil are a problem, as in the central states of the U.S.A. and the warmer parts of Europe, primary attention is given to selection and breeding for vigor. Estimates for trees up to age 18 indicate that a first-generation genetic gain in volume of over 20% can be obtained from open-pollinated family selection within stands. Volume gains of 50% or more over local genotypes have been realized at ages 15–20 through the use of seed from selected southern Appalachian stands and in some individual tree crosses of eastern white pine with blue (Himalayan) pine. In the cool, humid regions of eastern North America and Europe, where blister rust resistance is important, breeding strategies include cloning of resistant P. strobus individuals, use of blue and Balkan pines in breeding programs, and exploitation of low-level rust resistance in low-risk localities. Eastern white pine losses from blister rust can be avoided in Japan and Korea by good plantation management without genetic selection. In some regions where the white pine weevil is the major problem, western white pine is useful both for hybridization and as an alternative, more weevil-resistant species. Analysis of relative photosynthesis of SO 2- and O 3-fumigated clones may be useful as a method of screening for pollution tolerance in regions where air pollution is likely to intensify. Efficient techniques for cloning by rooting of cuttings are now available. Efforts are under way to develop technology for micropropagation for mass production of superior clones. Breeding strategies for the major P. strobus plantation regions of the world are summarized.
Published Version
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