“…Although the combination of partial stock plant shading and shoot banding has not been extensively studied, shading in general has been shown to have favorable effects on the rooting of cuttings of many woody plants (Pacholczak et al 2017;Hansen 1997;Maynard and Bassuk 1992). It is also well established that among light-grown stock plants, banding with or without IBA can improve the rooting response of cuttings from many taxa (Maynard and Bassuk 1987;Richer et al 2004;Tomov 2017;Wu et al 2006). However, studies of kola nut (Cola anomola K. Schum) have provided evidence that stock plants grown under increased irradiance have a reduced sensitivity to IBA and therefore need higher concentrations to produce a favorable rooting response (Kanmegne et al 2017).…”
Section: Discussionmentioning
confidence: 99%
“…Blanching with such a band coated in IBA powder led to the highest rooting percentage among several taxa, including English oak (Quercus robur L.), northern red oak (Quercus rubra L.), and common lilac (Syringa vulgaris L. 'Belle de Nancy' and 'President Grevy') (Maynard and Bassuk 1987). Increased rooting of cuttings from shoots blanched with hook-and-loop bands has also been observed in 2-year-old greenhouse-grown seedlings of sugar maple (Acer saccharum Marshall) (Richer et al 2004).…”
An investigation was undertaken to determine whether various light reduction and shoot banding treatments could increase rooting on stem cuttings of Lindera benzoin [(L.) Blume] (northern spicebush), a difficult-to-root woody plant. Stock plants were grown under one of three light conditions (light, shade, or etiolation). Emerging shoots received either no treatment or a banding treatment that involved adhering a hook-and-loop fastener coated with varying concentrations of indole-3-butyric acid (IBA) around the shoot base to create a localized etiolated zone before taking cuttings. Data on rooting percentage and number of roots per cutting were analyzed using logistic and Quasi-Poisson regression, respectively. Etiolated cuttings treated with a band without IBA had the highest rooting probability and number of roots; however, etiolated cuttings across all banding treatments had similarly successful results. Additionally, there were several significant differences in rooting probabilities and root numbers between banding treatments within the shade- and light-grown groups. This research evaluated asexual propagation approaches for use with northern spicebush and provides a framework for the adoption and development of this taxon as a nursery crop.
“…Although the combination of partial stock plant shading and shoot banding has not been extensively studied, shading in general has been shown to have favorable effects on the rooting of cuttings of many woody plants (Pacholczak et al 2017;Hansen 1997;Maynard and Bassuk 1992). It is also well established that among light-grown stock plants, banding with or without IBA can improve the rooting response of cuttings from many taxa (Maynard and Bassuk 1987;Richer et al 2004;Tomov 2017;Wu et al 2006). However, studies of kola nut (Cola anomola K. Schum) have provided evidence that stock plants grown under increased irradiance have a reduced sensitivity to IBA and therefore need higher concentrations to produce a favorable rooting response (Kanmegne et al 2017).…”
Section: Discussionmentioning
confidence: 99%
“…Blanching with such a band coated in IBA powder led to the highest rooting percentage among several taxa, including English oak (Quercus robur L.), northern red oak (Quercus rubra L.), and common lilac (Syringa vulgaris L. 'Belle de Nancy' and 'President Grevy') (Maynard and Bassuk 1987). Increased rooting of cuttings from shoots blanched with hook-and-loop bands has also been observed in 2-year-old greenhouse-grown seedlings of sugar maple (Acer saccharum Marshall) (Richer et al 2004).…”
An investigation was undertaken to determine whether various light reduction and shoot banding treatments could increase rooting on stem cuttings of Lindera benzoin [(L.) Blume] (northern spicebush), a difficult-to-root woody plant. Stock plants were grown under one of three light conditions (light, shade, or etiolation). Emerging shoots received either no treatment or a banding treatment that involved adhering a hook-and-loop fastener coated with varying concentrations of indole-3-butyric acid (IBA) around the shoot base to create a localized etiolated zone before taking cuttings. Data on rooting percentage and number of roots per cutting were analyzed using logistic and Quasi-Poisson regression, respectively. Etiolated cuttings treated with a band without IBA had the highest rooting probability and number of roots; however, etiolated cuttings across all banding treatments had similarly successful results. Additionally, there were several significant differences in rooting probabilities and root numbers between banding treatments within the shade- and light-grown groups. This research evaluated asexual propagation approaches for use with northern spicebush and provides a framework for the adoption and development of this taxon as a nursery crop.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.