Josh B. Henry scite author profile

Josh B. Henry

5Publications

112Citation Statements Received

77Citation Statements Given

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North Carolina State University

Publications

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Agronomic Practices Affecting Nicotine Concentration in Flue‐Cured Tobacco: A Review

2019

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Proposed regulations mandating lower nicotine concentrations in tobacco (Nicotiana tabacum L.) products will likely require changes in tobacco production to reduce nicotine while maintaining yield and quality. The agronomic practices used for tobacco production have a significant impact on the synthesis and accumulation of nicotine in flue‐cured tobacco. Nicotine is the primary alkaloid in flue‐cured tobacco and is one of the main reasons for its commercial production. Most agronomic practices that improve plant health and yield have a positive effect on nicotine production and accumulation. Some of the most important factors that affect nicotine concentrations are N fertilization, planting density, topping practices, sucker control, and harvesting practices. The amount of N available to the plant has a substantial effect on nicotine, as N is a primary component of the nicotine molecule. Factors leading to higher N uptake lead to higher nicotine concentrations. Plant and leaf densities within the field also have a significant effect on nicotine, where increasing densities leads to lower nicotine concentrations. Flowering and sucker production are both significant sinks of energy and other resources. Eliminating the inflorescence via topping and controlling suckers lead to higher nicotine concentrations. In fact, substantial nicotine synthesis and accumulation occurs in the days and weeks following topping. This comprehensive review discusses the agronomic factors affecting alkaloid production in flue‐cured tobacco, and how these factors can be adjusted to manipulate the ultimate nicotine concentration. Core Ideas Proposed regulations may require lower tobacco nicotine concentrations. Production practices and timing significantly influence nicotine and leaf quality. Nitrogen fertility, crop density, growth regulation, and harvesting are paramount. Low density, high N, and increased maturity enhance nicotine accumulation. Flowers and axillary shoots are sinks that limit foliar nicotine concentrations.

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Expanding Leaf Tissue Nutrient Survey Ranges for Greenhouse Cannabidiol-Hemp

Landis

Hicks

Cockson

et al. 2019

Crop, Forage & Turfgrass Management

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Core Ideas Leaf tissue nutrient concentration survey values do not exist for greenhouse CBD‐hemp. Growers can use these ranges as a nutrient management tool for CBD‐hemp stock plants. Different leaf tissue nutrient concentrations have been found in CBD‐hemp cultivars. There are no researched nutrient recommendations specific to greenhouse CBD‐hemp. CBD‐hemp products have great market potential.

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Growth Response of Herbaceous Ornamentals to Phosphorus Fertilization

Henry¹,

McCall²,

Jackson³

et al. 2017

horts

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A series of experiments investigated the effects of increasing phosphate–phosphorus (P) concentrations on the growth and development of four horticultural species. In experiment 1, petunia [Petunia atkinsiana (Sweet) D. Don ex W.H. Baxter] plants were grown using eight P concentrations, and we found that the upper bound for plant growth was at 8.72–9.08 mg·L−1 P, whereas concentrations ≤2.5 mg·L−1 P caused P deficiency symptoms. Experiment 2 investigated P growth response in two cultivars each of New Guinea impatiens (Impatiens hawkeri W. Bull) and vinca [Catharanthus roseus (L.) G. Don]. Growth for these plants was maximized with 6.43–12.42 mg·L−1 P. In experiment 3, ornamental peppers (Capsicum annuum L. ‘Tango Red’) were given an initial concentration of P for 6 weeks and then switched to 0 mg·L−1 P to observe whether plants could be supplied with sufficient levels of P, and finished without P to keep them compact. Plants switched to restricted P began developing P deficiency symptoms within 3 weeks; however, restricting P successfully limited plant growth. These experiments indicated that current P fertilization regimens exceed the P requirements of these bedding plants, and depending on species, concentrations of 5–15 mg·L−1 P maximize growth.

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Nutrient Disorders of Burley and Flue‐Cured Tobacco: Part 2—Micronutrient Disorders

Henry

Vann

McCall

et al. 2018

Crop Forage & Turfgrass Mgmt

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Core Ideas Recognizing micronutrient disorders is important for commercial production. Unique, previously unobserved nutrient disorder symptoms were observed. Foliar nutrient concentrations were identified for burley and flue‐cured tobacco. Symptoms and critical values were compared with published results. Nutrient disorders often manifest unique symptoms and vary in critical nutrient ranges where visual symptoms appear depending on plant species and type. Understanding and recognizing nutrient disorders for different types of tobacco is important for maintaining yield and quality. Burley and flue‐cured tobacco (Nicotiana tabacum L.) account for over 90% of all tobacco produced in the United States, and thus, were grown in this study to investigate the effects of micronutrient disorders. Tobacco plants were grown in silica sand culture, and control plants received a complete modified Hoagland's all‐nitrate solution, whereas nutrient‐deficient treatments were induced with a complete nutrient formula withholding a single nutrient. Boron toxicity was also induced by increasing the element tenfold higher than the complete nutrient formula. Plants were automatically irrigated, and the leached solution was captured for reuse. A complete replacement of nutrient solutions was done weekly. Plants were monitored daily to document and photograph symptoms as they developed. A description of nutrient disorder symptomology and critical tissue concentrations associated with symptomology are presented.

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Phosphorus Restriction as an Alternative to Chemical Plant Growth Retardants in Angelonia and New Guinea Impatiens

Henry¹,

McCall²,

Whipker³

2018

hortte

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Chemical plant growth retardants (PGRs) are commonly used to produce compact bedding plants. Few PGRs are labeled for sensitive species because of the concern of excessive restriction of stem elongation or phytotoxicity. Growers are therefore presented with a dilemma: produce untreated plants that may be too tall or risk applying a PGR that can potentially lead to irreversible aesthetic damage to the plant. Nutrient restriction, specifically of phosphorus (P), may be used to control plant height. This study was conducted to determine if restricting P fertilization yielded comparable growth control to plants produced with PGRs. Two cultivars each of new guinea impatiens (Impatiens hawkeri) and angelonia (Angelonia angustifolia) were grown using five fertilizers that varied by P concentration (0, 2.5, 5, 10, and 20 ppm). Half of the plants from each P fertilizer concentration were treated with paclobutrazol at 4 and 5 weeks after transplant for angelonia and new guinea impatiens, respectively. On termination of the experiment, data were collected for height, diameter, and dry weight, which were used to determine a growth index (GI). Angelonia GI values were maximized with 7–9 ppm P, whereas new guinea impatiens GI was maximized with 8–11 ppm P. Concentrations of 3–5 ppm P provided similar height control to plants grown with nonlimiting P and a paclobutrazol application. Concentrations of ≤2.5 ppm P resulted in low-quality plants with visual symptoms of P deficiency. These results indicate that a narrow range of P concentrations may be used to control stem elongation and keep plants compact.

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Josh B. Henry

Agronomic Practices Affecting Nicotine Concentration in Flue‐Cured Tobacco: A Review

Expanding Leaf Tissue Nutrient Survey Ranges for Greenhouse Cannabidiol-Hemp

Growth Response of Herbaceous Ornamentals to Phosphorus Fertilization

Nutrient Disorders of Burley and Flue‐Cured Tobacco: Part 2—Micronutrient Disorders

Phosphorus Restriction as an Alternative to Chemical Plant Growth Retardants in Angelonia and New Guinea Impatiens

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