Performance of improved genotypes of loblolly pine across different soils, climates, and silvicultural inputs

Deployment of improved loblolly pine ( Pinus taeda L.) genotypes across the southern United States is a standard silvicultural practice. Most planting is conducted using open-pollinated (OP) families from first- or second-generation seed orchards, and these OP families typically display remarkable r...

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Veröffentlicht in:	Forest ecology and management 2006-05, Vol.227 (1), p.178-184
Hauptverfasser:	McKeand, Steven E., Jokela, Eric J., Huber, Dudley A., Byram, Thomas D., Allen, H. Lee, Li, Bailian, Mullin, Timothy J.
Format:	Artikel
Sprache:	eng
Schlagworte:	clones forest trees Genetic gain genetic improvement genetic stability genotype Genotype by environment interaction genotype-environment interaction open pollination Pinus taeda Pinus taeda L plantation forestry silviculture Tree improvement
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container_title	Forest ecology and management
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creator	McKeand, Steven E. Jokela, Eric J. Huber, Dudley A. Byram, Thomas D. Allen, H. Lee Li, Bailian Mullin, Timothy J.
description	Deployment of improved loblolly pine ( Pinus taeda L.) genotypes across the southern United States is a standard silvicultural practice. Most planting is conducted using open-pollinated (OP) families from first- or second-generation seed orchards, and these OP families typically display remarkable rank stability for productivity and quality traits across a range of site characteristics, climates, and silvicultural systems. With only a few exceptions, families are generally stable in performance across all sites within a climatic zone. As tree improvement and nursery programs progress towards deployment of more intensively selected genotypes and less genetically diverse full-sib families or clones, there may be a greater likelihood that genotype by environment (G × E) interactions will become important, particularly as the level of silvicultural treatment intensity increases. We present evidence from numerous trials with full-sib families and clones demonstrating that G × E for growth and other traits is no more significant than for OP families. At present and for the foreseeable future, G × E does not appear to be a major concern for the majority of deployed genetic sources under most silvicultural systems.
doi_str_mv	10.1016/j.foreco.2006.02.016
format	Article
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As tree improvement and nursery programs progress towards deployment of more intensively selected genotypes and less genetically diverse full-sib families or clones, there may be a greater likelihood that genotype by environment (G × E) interactions will become important, particularly as the level of silvicultural treatment intensity increases. We present evidence from numerous trials with full-sib families and clones demonstrating that G × E for growth and other traits is no more significant than for OP families. 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subjects	clones forest trees Genetic gain genetic improvement genetic stability genotype Genotype by environment interaction genotype-environment interaction open pollination Pinus taeda Pinus taeda L plantation forestry silviculture Tree improvement
title	Performance of improved genotypes of loblolly pine across different soils, climates, and silvicultural inputs
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