Brian Eugene Jackson

Particle size distribution of growing media constituents using dynamic image analysis: Parametrization and comparison to sieving

Durand, S., Jackson, B. E., Fonteno, W. C., & Michel, J.-C. (2023, April 27). SOIL SCIENCE SOCIETY OF AMERICA JOURNAL.

Quantitative Description and Classification of Growing Media Particle Morphology through Dynamic Image Analysis

AGRICULTURE-BASEL, 13(2).

A Review and Analysis of Horticultural Substrate Characterization by Sieve Analysis

[Review of ]. HORTSCIENCE, 57(6), 715–725.

Evaluation of Peat Blended with Pine Wood Components for Effects on Substrate Physical Properties, Nitrogen Immobilization, and Growth of Petunia (Petunia x hybrida Vilm.-Andr.)

HORTSCIENCE, 57(2), 304–311.

Particle Densities of Horticultural Substrates

HORTSCIENCE, 57(3), 379–383.

Primary Mechanical Modification to Improve Performance of Miscanthus as Stand-Alone Growing Substrates

AGRONOMY-BASEL, 12(2).

The Effect of Peat Moss Amended with Three Engineered Wood Substrate Components on Suppression of Damping-Off Caused by Rhizoctonia solani

AGRICULTURE-BASEL, 12(12).

Enhancing the multi-functional properties of renewable lignin carbon fibers via defining the structure-property relationship using different biomass feedstocks

GREEN CHEMISTRY, 23(10), 3725–3739.

Exploring Substrate Water Capture in Common Greenhouse Substrates through Preconditioning and Irrigation Pulsing Techniques

AGRONOMY-BASEL, 11(7).

Industrial hemp vegetative growth affected by substrate composition

III INTERNATIONAL SYMPOSIUM ON GROWING MEDIA, COMPOSTING AND SUBSTRATE ANALYSIS, Vol. 1305, pp. 83–89.

Non-destructive characterization of grafted tomato root systems using the mini-horhizotron

II INTERNATIONAL SYMPOSIUM ON VEGETABLE GRAFTING, Vol. 1302, pp. 209–214.

The Use of Wood Fiber for Reducing Risks of Hydrophobicity in Peat-Based Substrates

AGRONOMY-BASEL, 11(5).

The use of coir for reducing risks of peat-based substrate hydrophobicity

III INTERNATIONAL SYMPOSIUM ON GROWING MEDIA, COMPOSTING AND SUBSTRATE ANALYSIS, Vol. 1305, pp. 449–454.

Comparison of Water Capture Efficiency through Two Irrigation Techniques of Three Common Greenhouse Soilless Substrate Components

AGRONOMY-BASEL, 10(9).

Dolomite and Micronutrient Fertilizer Affect Phosphorus Fate When Growing Crape Myrtle in Pine Bark

HORTSCIENCE, 55(6), 832–840.

Evaluating Peat Substrates Amended with Pine Wood Fiber for Nitrogen Immobilization and Effects on Plant Performance with Container-grown Petunia

HORTTECHNOLOGY, 30(1), 107–116.

Identification, Genome Sizes, and Ploidy of Deutzia

JOURNAL OF THE AMERICAN SOCIETY FOR HORTICULTURAL SCIENCE, 145(2), 88–94.

Liming Requirements of Greenhouse Peat-based Substrates Amended with Pine Wood Chips as a Perlite Alternative

HORTTECHNOLOGY, 30(2), 219–230.

Quantification of palmer amaranth seed number using a computerized particle analyzer

AGRICULTURAL & ENVIRONMENTAL LETTERS, 5(1).

The Use of Dewpoint Hygrometry to Measure Low Water Potentials in Soilless Substrate Components and Composites

AGRONOMY-BASEL, 10(9).

Cytogenetics, Ploidy, and Genome Sizes of Camellia and Related Genera

HORTSCIENCE, 54(7), 1124–1142.

Effect of particle length to width ratio on sieving accuracy and precision

POWDER TECHNOLOGY, 355, 349–354.

Evaluation of Turfgrass Clippings from Mulching Versus Side Discharge Mower Operation

CROP FORAGE & TURFGRASS MANAGEMENT, 5(1).

Influence of Pine Bark Substrate Age on Performance and Leaching of Nursery Preemergence Herbicides

HORTSCIENCE, 54(5), 896–902.

Physical and Hydraulic Properties of Commercial Pine-bark Substrate Products Used in Production of Containerized Crops

HORTSCIENCE, 53(12), 1883–1890.

Chemical Properties of Biochar Materials Manufactured from Agricultural Products Common to the Southeast United States

HORTTECHNOLOGY, 27(1), 16–23.

Growth Response of Herbaceous Ornamentals to Phosphorus Fertilization

HORTSCIENCE, 52(10), 1362–1367.

Maximum Plant Uptakes for Water, Nutrients, and Oxygen Are Not Always Met by Irrigation Rate and Distribution in Water-based Cultivation Systems

FRONTIERS IN PLANT SCIENCE, 8.

Measuring root hydraulic parameters of container-grown herbaceous and woody plants using the hydraulic conductance flow meter

HortScience, 51(2), 192–196.

Paclobutrazol drench activity not affected in sphagnum peat-based substrates amended with pine wood chip aggregates

HortTechnology, 26(2), 156–163.

Pine wood chips as an alternative to perlite in greenhouse substrates: Nitrogen requirements

HortTechnology, 26(2), 199–205.

Changes in Root Growth and Physical Properties in Substrates Containing Charred or Uncharred Wood Aggregates (c)

PROCEEDINGS OF THE 2014 ANNUAL MEETING OF THE INTERNATIONAL PLANT PROPAGATORS SOCIETY, Vol. 1085, pp. 421–425.

Rhizometer: An apparatus to observe and measure root growth and its effect on container substrate physical properties over time

HortScience, 50(2), 288–294.

Water retention of processed pine wood and pine bark and their particle size fractions ?

Proceedings of the 2014 annual meeting of the international plant propagators society, 1085, 467–471.

Defining rain garden filter bed substrates based on saturated hydraulic conductivity

International symposium on growing media and soilless cultivation, 1034, 57–64.

Hydration efficiency of traditional and alternative greenhouse substrate components

HortScience, 49(3), 336–342.

Hydrophysical properties, moisture retention, and drainage profiles of wood and traditional components for greenhouse substrates

HortScience, 49(6), 827–832.

Mini-horhizotron: An apparatus for observing and measuring root growth of container-grown plant material in situ

HortScience, 49(11), 1424–1431.

Plant available and unavailable water in greenhouse substrates: Assessment and considerations

International symposium on growing media and soilless cultivation, 1034, 341–346.

Rhizometrics: A review of three in situ techniques for observation and measurement of plant root systems in containers

International symposium on growing media and soilless cultivation, 1034, 389–397.

A pragmatic approach to wettability and hydration of horticultural substrates

International symposium on growing media, composting and substrate analysis, 1013, 139–146.

Novel Methods for Observing and Quantifying Root Growth of Horticultural Crops (c)

PROCEEDINGS OF THE INTERNATIONAL PLANT PROPAGATORS' SOCIETY, Vol. 1014, pp. 389–394.

Pine bark physical properties influenced by bark source and age (c)

Proceedings of the international plant propagators' society, 1014, 433–437.

Pine wood chips as an alternative to perlite: Cultural parameters to consider (c)

Proceedings of the international plant propagators' society, 1014, 345–349.

Root growth of horticultural crops as influenced by pine bark age, wood, and sand amendment (c)

Proceedings of the international plant propagators' society, 1014, 443–446.

Strategies for developing sustainable substrates in nursery crop production

International symposium on growing media, composting and substrate analysis, 1013, 43–56.

Methods of Constructing a Pine Tree Substrate from Various Wood Particle Sizes, Organic Amendments, and Sand for Desired Physical Properties and Plant Growth

HORTSCIENCE, 45(1), 103–112.

Container Medium pH in a Pine Tree Substrate Amended with Peatmoss and Dolomitic Limestone Affects Plant Growth

HORTSCIENCE, 44(7), 1983–1987.