四种容器育苗作物对低磷控释肥料的生长及品质反应

IF 1 4区 农林科学 Q3 HORTICULTURE Horttechnology Pub Date : 2022-10-01 DOI:10.21273/horttech05058-22
Jacob H. Shreckhise, J. Owen, A. Niemiera, J. Altland
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引用次数: 0

摘要

通常推荐并应用于容器苗圃作物的磷含量通常超过植物需求,导致容器中未使用的磷浸出,并可能导致地表水损害。在弗吉尼亚州的大西洋中部沿海平原(MACP)和山脊和山谷生态区复制了一项实验,以比较低磷控释肥料(CRF,0.9%或1.4%P,取决于物种)与传统CRF配方(对照,1.7%P)对植物芽生长、作物质量、,以及四个物种的基质营养浓度:“Natchez”紫薇(印度紫薇×法国紫薇)、“Roblec”Encore杜鹃(杜鹃杂交种)、“Radrazz'Knock-Out rose(罗莎杂交种)和“Green Giant”侧柏(褶皱Thuja×标准Thuja standishii)。在这两个生态区,与传统配方相比,低磷CRF使所有四个物种的茎干重降低了9%至26%,但两个经济上重要的物种“Radrazz'Knock-Out rose”和“Green Giant”侧柏的质量评级在不同处理之间相似。当用低磷CRF受精时,两个生态区的‘Roblec’Encore杜鹃花和‘Natchez’紫薇,以及MACP生态区的“Green Giant”侧柏的基质孔隙水磷浓度比接受对照CRF的低约56%至75%。第5周,对照施肥植物基质孔隙水中的硝酸盐氮浓度是接受低磷CRF的植物的六倍多,这可能是尿素氮含量较高或低磷CRF异质性的结果。较低的水可提取孔隙水P和N表明环境风险较小,并可能提高作物效率。我们的研究结果表明,低磷CRFs可以在不牺牲质量的情况下成功地生产某些经济上重要的观赏苗圃作物;然而,在大规模实施之前,早期采用者需要评估低磷CRF对特定物种作物质量的影响。
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Growth and Quality Response of Four Container-grown Nursery Crop Species to Low-phosphorus Controlled-release Fertilizer
The amount of phosphorus (P) conventionally recommended and applied to container nursery crops commonly exceeds plant requirements, resulting in unused P leaching from containers and potentially contributing to surface water impairment. An experiment was replicated in the Middle Atlantic Coastal Plain (MACP) and Ridge and Valley ecoregions of Virginia to compare the effect of a low-P controlled-release fertilizer (CRF, 0.9% or 1.4% P depending on species) vs. a conventional CRF formulation (control, 1.7% P) on plant shoot growth, crop quality, and substrate nutrient concentrations of four species: ‘Natchez’ crape myrtle (Lagerstroemia indica × Lagerstroemia fauriei), ‘Roblec’ Encore azalea (Rhododendron hybrid), ‘Radrazz’ Knock Out rose (Rosa hybrid), and ‘Green Giant’ arborvitae (Thuja plicata × Thuja standishii). In both ecoregions, the low-P CRF resulted in 9% to 26% lower shoot dry weight in all four species compared with those given the conventional formulation, but quality ratings for two economically important species, ‘Radrazz’ Knock Out rose and ‘Green Giant’ arborvitae, were similar between treatments. When fertilized with the low-P CRF, ‘Roblec’ Encore azalea and ‘Natchez’ crape myrtle in both ecoregions, and ‘Green Giant’ arborvitae in the MACP ecoregion had ∼56% to 75% lower substrate pore-water P concentrations than those that received the control CRF. Nitrate-nitrogen (N) concentrations in substrate pore water at week 5 were more than six times greater in control-fertilized plants than in those that received a low-P CRF, which may have been a result of the greater urea-N content or the heterogeneous nature of the low-P CRFs. Lower water-extractable pore-water P and N indicate less environmental risk and potentially increased crop efficiency. Our results suggest low-P CRFs can be used to produce certain economically important ornamental nursery crops successfully without sacrificing quality; however, early adopters will need to evaluate the effect of low-P CRFs on crop quality of specific species before implementing on a large scale.
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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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