2016
DOI: 10.1186/s40490-015-0057-4
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Early root development of field-grown poplar: effects of planting material and genotype

Abstract: Background: Poplar trees (Populus spp.) are used widely for soil conservation. A key advantage is their ability to establish from unrooted stem sections of varying dimensions, ranging from small cuttings to large poles. This study determined root length and biomass of young trees from three different-sized stem sections and quantified clonal variation.

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Cited by 13 publications
(7 citation statements)
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“…We have no evidence for the heterogeneity of the aboveground tree litter deposition since the poplar trees were clones planted at fixed distances from each other, and spontaneous growth of other tree species was not observed. The lateral and vertical distribution of poplar roots was not determined; however, considerable variation in total root mass and length of poplar clones of young age (1 to 3 years) has been reported in the field (Douglas, McIvor & Lloyd-West, 2016). Combined with the high spatial heterogeneity of the spontaneous herbaceous understory vegetation, spatial differences in belowground litter and root exudate inputs may have accounted for the observed divergence of soil fungi under the trees.…”
Section: Discussionmentioning
confidence: 99%
“…We have no evidence for the heterogeneity of the aboveground tree litter deposition since the poplar trees were clones planted at fixed distances from each other, and spontaneous growth of other tree species was not observed. The lateral and vertical distribution of poplar roots was not determined; however, considerable variation in total root mass and length of poplar clones of young age (1 to 3 years) has been reported in the field (Douglas, McIvor & Lloyd-West, 2016). Combined with the high spatial heterogeneity of the spontaneous herbaceous understory vegetation, spatial differences in belowground litter and root exudate inputs may have accounted for the observed divergence of soil fungi under the trees.…”
Section: Discussionmentioning
confidence: 99%
“…While evaluation of seedling root system architecture and root response to environmental factors is similar to approaches taken with Arabidopsis (e.g., Shinde et al, 2017Shinde et al, , 2019, feedstock propagation is typically via cuttings, which will be the focus here. Root mass and extent are all strongly correlated with the size of the cutting used to establish the tree (Douglas et al, 2016). In addition, extensive clonal variation in root number, length, and mass suggest lines could be selected for feedstock production on marginal soils (Phillips et al, 2014;Douglas et al, 2016;Carthy et al, 2018).…”
Section: Poplar Root Systemmentioning
confidence: 99%
“…Root mass and extent are all strongly correlated with the size of the cutting used to establish the tree (Douglas et al, 2016). In addition, extensive clonal variation in root number, length, and mass suggest lines could be selected for feedstock production on marginal soils (Phillips et al, 2014;Douglas et al, 2016;Carthy et al, 2018). This variation has additionally been used to help identify genes associated with rooting propensity (e.g., Dash et al, 2017Dash et al, , 2018, establishing pathways for selection of root traits.…”
Section: Poplar Root Systemmentioning
confidence: 99%
“…Poplar, which is an important ecologically-important tree species, has a global distribution (Douglas et al, 2016). Currently, this tree is facing the danger of poplar canker.…”
Section: Introductionmentioning
confidence: 99%