Single-screen Bark Particle Separation Can be Used to Engineer Stratified Substrate Systems

IF 1 4区 农林科学 Q3 HORTICULTURE Horttechnology Pub Date : 2022-10-01 DOI:10.21273/horttech05018-22
J. Fields, Kristopher S. Criscione, A. Edwards
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引用次数: 1

Abstract

Substrate stratification is an emerging substrate management strategy involving layering multiple substrate materials within a single container to modify physiochemical characteristics of the substrate system. Specifically, stratifying allows growers and researchers to rearrange the air–water balance within a container to modify hydraulic characteristics. Moreover, fertilizer can be incorporated into just the upper strata to reduce leaching. Research to date has shown benefits associated with resource efficiency, production timing, and weed control. With the associated benefits for substrate stratification, interested growers will need pragmatic solutions for onsite trials. Therefore, the objective of this study was to identify a cost-effective solution for growers interested in exploring stratification options. As such, this research was designed to identify a single-screen bark separation to generate fine and coarse bark textures suitable for use as the top and bottom substrate strata. Loblolly pine bark (Pinus taeda) was screened with either a 4.0-mm, 1/4-inch, or 3/8-inch screen, with the particles passing through the screen (unders) separated from retained particles (overs). Stratified substrate systems were engineered with an individual screen wherein the fines were layered atop the coarse particles from the same screen. ‘Natchez’ crepe myrtle (Lagerstroemia indica) liners were planted in either of the three stratified substrate treatments or a nonstratified control. Substrate physical characteristics were assessed for each strata by pre- and postproduction properties to identify changes of substrate. The final growth index of the crop was unaffected by the substrate treatment (P = 0.90); however, stratified substrates did increase dry root weight (P = 0.02), with the smallest screen (4.0 mm) resulting in the greatest root weight. Separation of roots between the two strata indicated the presence of more roots in the upper strata in all substrates. However, the stratified substrates resulted in a greater shift in root location, encouraging increased rooting in the upper strata with fine particles, with the largest screen (3/8 inch) resulting in the greatest differentiation between upper and lower rooting. Each stratified treatment had increase in water-holding capacity in the lower (coarser) strata without changes in the upper strata. Thus, we conclude that single screens can be used to build stratified substrate systems. Moreover, screen aperture size may be used to achieve different outcomes with regard to root growth and development as well as water–air balance. Further research may indicate that screen selection may be used to target specific crop needs.
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单筛树皮颗粒分离可用于工程分层基板系统
基质分层是一种新兴的基质管理策略,涉及在单个容器内分层多种基质材料,以改变基质系统的物理化学特性。具体来说,分层可以让种植者和研究人员重新安排容器内的空气-水平衡,以改变水力特性。此外,肥料可以仅掺入上层,以减少浸出。迄今为止的研究表明,资源效率、生产时间和杂草控制都有好处。有了基质分层的相关好处,感兴趣的种植者将需要实用的现场试验解决方案。因此,本研究的目的是为有兴趣探索分层选择的种植者确定一种具有成本效益的解决方案。因此,这项研究旨在确定单一筛网树皮分离,以产生适合用作顶部和底部基质地层的精细和粗糙树皮纹理。用4.0毫米、1/4英寸或3/8英寸的筛网对火炬松树皮(火炬松)进行筛选,通过筛网的颗粒(下部)与保留的颗粒(上部)分离。分层基质系统是用单独的筛网设计的,其中细粒被分层在来自同一筛网的粗颗粒上在三种分层基质处理或非分层对照中种植Natchez’crepe myrtle(紫薇)衬垫。通过生产前和生产后的特性评估每个地层的基质物理特性,以确定基质的变化。作物的最终生长指数不受基质处理的影响(P=0.90);然而,分层基质确实增加了干根重(P=0.02),最小的筛网(4.0mm)导致最大的根重。两个地层之间的根系分离表明,在所有基质的上层都存在更多的根系。然而,分层基质导致根位置发生更大的变化,促进了上层细颗粒生根的增加,最大的筛网(3/8英寸)导致上层和下层生根之间的最大分化。每一次分层处理都会增加下层(较粗)的持水能力,而不会改变上层。因此,我们得出结论,单屏幕可以用于构建分层基板系统。此外,屏幕孔径大小可用于实现根系生长发育以及水-空气平衡方面的不同结果。进一步的研究可能表明,屏幕选择可以用于针对特定的作物需求。
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来源期刊
Horttechnology
Horttechnology 农林科学-园艺
CiteScore
2.30
自引率
10.00%
发文量
67
审稿时长
3 months
期刊介绍: HortTechnology serves as the primary outreach publication of the American Society for Horticultural Science. Its mission is to provide science-based information to professional horticulturists, practitioners, and educators; promote and encourage an interchange of ideas among scientists, educators, and professionals working in horticulture; and provide an opportunity for peer review of practical horticultural information.
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