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Five QTL hotspots for yield in short rotation coppice bioenergy poplar: The Poplar Biomass Loci

机译：短期轮作的5个QTL热点小灌木林生物能源杨树：杨树生物量基因座

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BackgroundConcern over land use for non-food bioenergy crops requires breeding programmes that focus on producing biomass on the minimum amount of land that is economically-viable. To achieve this, the maximum potential yield per hectare is a key target for improvement. For long lived tree species, such as poplar, this requires an understanding of the traits that contribute to biomass production and their genetic control. An important aspect of this for long lived plants is an understanding of genetic interactions at different developmental stages, i.e. how genes or genetic regions impact on yield over time.

机译：背景关于非食用生物能源作物的土地使用的担忧要求进行育种计划，该计划的重点是在经济上可行的最小土地上生产生物质。为了实现这一目标，每公顷最大的潜在产量是改善的关键目标。对于杨树等长寿树种，这需要了解有助于生物量生产及其遗传控制的性状。对于长寿植物而言，这一方面的重要方面是了解不同发育阶段的遗传相互作用，即随着时间的推移基因或遗传区域如何影响产量。

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期刊名称 BMC Plant Biology
作者
Anne M Rae; Nathaniel Robert Street; Kathryn Megan Robinson; Nicole Harris; Gail Taylor;
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作者单位

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年(卷),期 2009(9),-1
年度 2009
页码 23
总页数 13
原文格式 PDF
正文语种
中图分类生物学;
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入库时间 2022-08-17 14:10:37

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1. Five QTL hotspots for yield in short rotation coppice bioenergy poplar: The Poplar Biomass Loci [J] . Anne M Rae, Nathaniel Robert Street, Kathryn Megan Robinson, BMC Plant Biology . 2009,第1期

机译：短期轮作的五个QTL热点小灌木林生物能源杨树：杨树生物量基因座
2. Can we use short rotation coppice poplar for sugar based biorefinery feedstock? Bioconversion of 2-year-old poplar grown as short rotation coppice [J] . Chang Dou, Wilian F. Marcondes, Jessica E. Djaja, Biotechnology for Biofuels . 2017,第1期

机译：我们可以将短旋毛的杨木用作糖基生物精炼原料吗？ 2年生杨树的生物转化为矮轮作
3. Effects of increased soil fertility and plant growth-promoting rhizobacteria inoculation on biomass yield, energy value, and physiological response of poplar in short-rotation coppices in a reclaimed tideland: A case study in the Saemangeum area of Korea [J] . Ji Hwi Jang, Su Young Woo, Sun Hyung Kim, Biomass & bioenergy . 2017,第deca期

机译：土壤肥力的提高和植物根瘤菌的接种对退潮海域短程轮作的杨树生物量，能量值和杨树生理响应的影响：以韩国Saemangeum地区为例
4. Biomass yield and fuel characteristics of short-rotation coppice (willow, poplar, empress tree) [C] . Jurgen Maier, Reinhold Vetter EuroSun . 2004

机译：短旋转Coppice的生物质产量和燃料特性（Willow，Poplar，皇后树）
5. Biochemical and Thermochemical Conversions of Short Rotation Coppice Poplar for Carbohydrate and Fuel Production in Lignocellulosic Biorefineries [D] . Dou, Chang. 2017

机译：木质纤维素生物炼油厂短旋毛杨的生化和热化学转化，可用于碳水化合物和燃料的生产
6. Can we use short rotation coppice poplar for sugar based biorefinery feedstock? Bioconversion of 2-year-old poplar grown as short rotation coppice [O] . Chang Dou, Wilian F. Marcondes, Jessica E. Djaja, 2017

机译：我们可以将短旋毛的杨木用作糖基生物精炼原料吗？ 2岁杨树作为短轮小灌木林的生物转化
7. Five QTL hotspots for yield in short rotation coppice bioenergy poplar: The Poplar Biomass Loci [O] . 2009

机译：短期轮作的5个QTL热点小灌木林生物能源杨树：杨树生物量基因座
8. Genetic Modification of Short Rotation Poplar Biomass Feedstock for EfficientConversion to Ethanol [R] . Dinus, R. J. 2000

机译：短轮伐杨生物质原料高效转化乙醇的遗传修饰

Five QTL hotspots for yield in short rotation coppice bioenergy poplar: The Poplar Biomass Loci

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