An Evaluation of the Effect of Fertilizer Rate on Tree Growth and the Detection of Nutrient Stress in Different Irrigation Systems

IF 3.1 3区 农林科学 Q1 HORTICULTURE Horticulturae Pub Date : 2024-07-19 DOI:10.3390/horticulturae10070767
Krishna Neupane, Anthony Witcher, F. Baysal-Gurel
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Abstract

Early season monitoring of nutrient stress is important in red maple (Acer rubrum L.) and flowering dogwood (Cornus florida L.) to optimize management practices and ensure healthy crop production in containers. Two different irrigation systems (drip and overhead irrigation) were used in this study. Two rates (low and high) of controlled-release fertilizer were used with no fertilizer as a control treatment. Data were recorded for plant height, stem diameter, substrate pH and electrical conductivity (EC), chlorophyll content, normalized difference vegetation index (NDVI), visual observation of plant quality, and leaf nutrient content. The results of this study showed that the increase in plant height and stem diameter was greater among the fertilized maple tree, whereas no differences were observed in the flowering dogwoods for an increase in plant height. NDVI was greater for drip irrigation for both fertilizer rates in both red maples and flowering dogwoods. A positive correlation of 73% to 83% was observed for red maples and 79% to 83% was observed for flowering dogwoods between handheld NDVI and unmanned aerial vehicle-mounted NDVI sensors. In red maple, a high fertilizer rate resulted in greater substrate pH, whereas in flowering dogwood, no differences were observed. Varied responses were observed among the treatments for nutrient content; however, both rates of fertilizer application were sufficient for both tree species. Drip-irrigated red maples had higher nitrogen and phosphorous content, whereas nitrogen content was higher in both irrigation systems in flowering dogwoods. This study provides useful insights into understanding the effect of nutrient stress on tree growth and the application of sensing technology for the monitoring and early detection of nutrient stress in container-grown nursery crops.
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不同灌溉系统中施肥量对树木生长的影响及养分胁迫检测评估
对红枫(Acer rubrum L.)和花山茱萸(Cornus florida L.)进行早期养分胁迫监测对于优化管理方法和确保容器作物的健康生产非常重要。本研究使用了两种不同的灌溉系统(滴灌和架空灌溉)。使用了两种控释肥(低浓度和高浓度),并以不施肥作为对照处理。记录的数据包括植株高度、茎秆直径、基质 pH 值和导电率(EC)、叶绿素含量、归一化差异植被指数(NDVI)、目测植物质量和叶片养分含量。研究结果表明,施肥的枫树的株高和茎径增加较多,而开花的山茱萸在株高增加方面没有差异。在红枫和山茱萸中,两种施肥量的滴灌NDVI都更大。手持式 NDVI 与无人机安装的 NDVI 传感器之间的正相关性在红枫中为 73% 至 83%,在山茱萸中为 79% 至 83%。在红枫中,高施肥量导致基质 pH 值升高,而在开花山茱萸中则没有观察到差异。各处理对养分含量的反应不尽相同,但两种施肥量对两种树种都足够。滴灌红枫的氮和磷含量较高,而两种灌溉系统下山茱萸的氮含量都较高。这项研究为了解养分胁迫对树木生长的影响以及应用传感技术监测和及早发现容器栽培苗圃作物的养分胁迫提供了有益的启示。
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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