Your search keyword '"Matthew Chappell"' showing total 64 results

1. Development and Verification of an Interspecific Hybridization Protocol for Asclepias

Author

Mary Lewis, Matthew Chappell, Paul A. Thomas, Rebekah C. Maynard, and Ockert Greyvenstein

Subjects

asclepiadoideae, butterfly weed, gynostemium, monarch butterfly, native plant, pollinia, Plant culture, SB1-1110

Abstract

Milkweed (Asclepias sp.) is an important pollinator genus across North America and is a host plant for many butterfly species, notably the monarch butterfly (Danaus plexippus). Commercial production of Asclepias is limited to a few species, because most species lack commercial traits, with minimal branching habit, excessive height, and minimal color variation. This study used a commercially viable Asclepias species, butterfly weed (Asclepias tuberosa L.), as a maternal parent and trialed three different pollination methods in an attempt to create interspecific hybrids. Pollination methods included a traditional method, a pollen–solution-based method, and a novel inverted pollinia method. The inverted pollinia method increased pollination success rates 4-fold among intraspecific crosses of A. tuberosa. When pollination methods were optimized, A. tuberosa was used as the maternal parent, and one-way crosses were made to seven other Asclepias species using the inverted pollinia method. Of the seven species used as pollen donors, four developed hybrid seed successfully: green milkweed (Asclepias hirtella Woodson), purple milkweed (Asclepias purpurascens L.), showy milkweed (Asclepias speciosa Torr.), and common milkweed (Asclepias syriaca L.). As germination methods vary significantly among Asclepias species, three methods of germination were trialed on seed developed via interspecific hybridizations: direct seeded, cold–moist stratification, and embryo rescue. Of the three methods, cold–moist stratification was superior to direct seeding and embryo rescue. This research is the first documented case of a controlled interspecific hybridization event among these species.

Published

2021

2. Morphological and Physiological Responses of Ornamental Grasses to Saline Water Irrigation

Author

Haifeng Xing, Julie Hershkowitz, Asmita Paudel, Youping Sun, Ji Jhong Chen, Xin Dai, and Matthew Chappell

Subjects

acorus gramineus, andropogon ternarius, calamagrostis ×acutiflora, carex morrowii, festuca glauca, gas exchange, landscape plant, sporobolus heterolepis, visual quality, Plant culture, SB1-1110

Abstract

Reclaimed water provides a reliable and economical alternative source of irrigation water for landscape use but may have elevated levels of salts that are detrimental to sensitive landscape plants. Landscape professionals must use salt-tolerant plants in regions where reclaimed water is used. Ornamental grasses are commonly used as landscape plants in the Intermountain West of the United States due to low maintenance input, drought tolerance, and unique texture. Six ornamental grass species, including Acorus gramineus (Japanese rush), Andropogon ternarius (silver bluestem), Calamagrostis ×acutiflora (feather reed grass), Carex morrowii (Japanese sedge), Festuca glauca (blue fescue), and Sporobolus heterolepis (prairie dropseed), were evaluated for salinity tolerance. Plants were irrigated every 4 days with a fertilizer solution at an electrical conductivity (EC) of 1.2 dS·m–1 (control) or with a saline solution at an EC of 5.0 dS·m–1 (EC 5) or 10.0 dS·m–1 (EC 10). At 47 days, most species in EC 5 exhibited good visual quality with averaged visual scores greater than 4.6 (0 = dead, 5 = excellent). In EC 10, most A. gramineus plants died, but C. ×acutiflora, F. glauca, and S. heterolepis had no foliar salt damage. At 95 days, C. ×acutiflora, F. glauca, and S. heterolepis in EC 5 had good visual quality with averaged visual scores greater than 4.5. Acorus gramineus, A. ternarius, and C. morrowii showed foliar salt damage with averaged visual scores of 2.7, 3.2, and 3.4, respectively. In EC 10, A. gramineus died, and other grass species exhibited moderate to severe foliar salt damage, except C. ×acutiflora, which retained good visual quality. Plant height, leaf area, number of tillers, shoot dry weight, and/or gas exchange parameters also decreased depending on plant species, salinity level, and the duration of exposure to salinity stress. In conclusion, A. gramineus was the most salt-sensitive species, whereas C. ×acutiflora was the most salt-tolerant species. Festuca glauca and S. heterolepis were more tolerant to salinity than A. ternarius and C. morrowii. Calamagrostis ×acutiflora, F. glauca, and S. heterolepis appear to be more suitable for landscapes in which reclaimed water is used for irrigation. Plant responses to saline water irrigation in this research could also be applied to landscapes in salt-prone areas and coastal regions with saltwater intrusion into aquifers and landscapes affected by maritime salt spray.

Published

2021

3. RFID and Drones: The Next Generation of Plant Inventory

Author

Jannette Quino, Joe Mari Maja, James Robbins, R. Thomas Fernandez, James S. Owen, and Matthew Chappell

Subjects

RFID, drone, microcontroller, ornamental, precision agriculture, inventory, Agriculture (General), S1-972, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Collection of plant inventory (i.e., count, grade, plant size, yield) data is time-consuming, costly, and can be inaccurate. In response to increasing labor costs and shortages, there is an increased need for the adoption of more automated technologies by the nursery industry. Growers, small and large, are beginning to adopt technologies (e.g., plant spacing robots) that automate or augment certain operations, but greater strides must be taken to integrate next-generation technologies into these challenging unstructured agricultural environments. The main objective of this work is to demonstrate merging specific ground and aerial-based technologies (Radio Frequency Identification (RFID), and small Unmanned Aircraft System (sUAS)) into a holistic systems approach to address the specific need of moving toward automated on-demand plant inventory. This preliminary work focuses on evaluating different RFID tags with respect to their distance and orientation to the RFID reader. Fourteen different RFID tags, five distances (1.5 m, 3.0 m, 4.5 m, 6.0 m, and 7.6 m), and four tag orientations (the front of the tag (UP), back of the tag (DN), tag at sideways left (SL), and tag at sideways right (SR)) were assessed. Results showed that the tag upward orientation resulted in the highest scanning total for both the laboratory and field experiments. Two orientations (UP and SR) had significant effect on the scan total of tags. The distance between the reader and the tags at 1.5 m and 6.0 m did not significantly affect the scanning efficiency of the RFID system in horizontally fixed (p-value > 0.05) position regardless of tags. Different tag designs also produced different scan totals. Overall, since most of the tags were scanned at least once (except for Tag 6F), it is a very promising technology for use in nursery inventory data acquisition. This work will create a unique inventory system for agriculture where locations of plants or animals will not present a barrier as the system can easily be mounted on a drone. Although these experiments are focused on inventory in plant nurseries, results for this work has potential for inventory management in other agricultural sectors.

Published

2021

4. Gas Exchange and Mineral Nutrition of 12 Viburnum Taxa Irrigated with Saline Water

Author

Ji Jhong Chen, Haifeng Xing, Asmita Paudel, Youping Sun, Genhua Niu, and Matthew Chappell

Subjects

chloride, landscape plant, photosynthesis, salinity, sodium, stomatal conductance, transpiration rate, Plant culture, SB1-1110

Abstract

More than half of residential water in Utah is used for landscape irrigation. Reclaimed water has been used to irrigate urban landscapes to conserve municipal water. High salt levels in reclaimed water may pose osmotic stress and ion toxicity to salt-sensitive plants. Viburnums are commonly used landscape plants, but salinity tolerance of species and cultivars is unclear. The objective of this study was to characterize gas exchanges and mineral nutrition responses of 12 viburnum taxa subjected to salinity stress in a greenhouse study. Plants were irrigated with a nutrient solution at an electrical conductivity (EC) of 1.3 dS·m–1 or saline solution at an EC of 5.0 dS·m–1 or 10.0 dS·m–1. The net photosynthesis rate (Pn), stomatal conductance (gS), and transpiration rate (E) of all viburnum taxa, except for Viburnum ×burkwoodii and V. בNCVX1’, decreased to various degrees with increasing salinity levels. The Pn, gS, and E of V. ×burkwoodii and V. בNCVX1’ were unaffected by saline solutions of 5.0 dS·m–1 at the 4th and 9th week after treatment initiation, with the exception of the Pn of V. ×burkwoodii, which decreased at the 9th week. Leaf sodium (Na+) and chloride (Cl–) concentrations of all viburnum taxa increased as salinity levels increased. Viburnum ×burkwoodii had relatively low leaf Na+ and Cl– when irrigated with saline solutions of 10.0 dS·m–1. Plant growth and gas exchange parameters, including visual score, plant height, Pn, gS, E, and water use efficiency (WUE) correlated negatively with leaf Na+ and Cl– concentrations. The ratio of potassium (K+) to Na+ (K+/Na+) and ratio of calcium (Ca2+) to Na+ (Ca2+/Na+) decreased when salinity levels increased. Visual score, plant height, Pn, gS, E, and WUE correlated positively with the K+/Na+ and Ca2+/Na+ ratios. These results suggest excessive Na+ and Cl– accumulation inhibited plant photosynthesis and growth, and affected K+ and Ca2+ uptake negatively.

Published

2020

5. Growth, Visual Quality, and Morphological Responses of 12 Viburnum Taxa to Saline Water Irrigation

Author

Youping Sun, Ji Jhong Chen, Haifeng Xing, Asmita Paudel, Genhua Niu, and Matthew Chappell

Subjects

hlorophyll content, landscape plant, salinity, salinity tolerance, viburnum, visual quality, Plant culture, SB1-1110

Abstract

Viburnums are widely used in gardens and landscapes throughout the United States. Although salinity tolerance varies among plant species, research-based information is limited on the relative salt tolerance of viburnum species. The morphological and growth responses of 12 viburnum taxa to saline solution irrigation were evaluated under greenhouse conditions. Viburnum taxa included Viburnum ×burkwoodii, V. cassinoides ‘SMNVCDD’, V. dentatum ‘Christom’, V. dentatum var. deamii ‘SMVDLS’, V. dilatatum ‘Henneke’, V. בNCVX1’, V. nudum ‘Bulk’, V. opulus ‘Roseum’, V. plicatum var. tomentosum ‘Summer Snowflake’, V. pragense ‘Decker’, V. ×rhytidophylloides ‘Redell’, and V. trilobum. A nutrient solution at an electrical conductivity (EC) of 1.3 dS·m−1 (control) or saline solutions at ECs of 5.0 and 10.0 dS·m−1 were applied eight times over a 9-week period. Growth, visual quality, and morphological characteristics were quantified at the 4th week and 8th–9th week to assess the impact of salinity stress on the viburnum taxa. Saline solution irrigation imposed detrimental salinity stress on viburnum plant growth and visual quality, and the degree of salt damage was dependent on the salinity levels of irrigation solution and the length of exposure to salinity stress as well as viburnum taxa. Viburnum ×burkwoodii and V. בNCVX1’ had little foliar salt damage during the entire experiment, except those irrigated with saline solution at an EC of 10.0 dS·m−1 exhibited slight to moderate foliar salt damage at the eighth week. Viburnum dilatatum ‘Henneke’, V. plicatum var. tomentosum ‘Summer Snowflake’, and V. trilobum irrigated with saline solution at an EC of 5.0 dS·m−1 had slight and severe foliar salt damage at the 4th and 8th week, respectively. Plants irrigated with saline solution at an EC of 10.0 dS·m−1 exhibited severe foliar salt damage at the 4th week, and all died by the 8th week. Other viburnum taxa also showed various foliar salt damage, especially at an EC of 10.0 dS·m−1. The shoot dry weights of V. ×burkwoodii and V. בNCVX1’ irrigated with saline solution at ECs of 5.0 and 10.0 dS·m−1 were similar to those in the control at both harvest dates. However, the shoot dry weight of other tested viburnum taxa decreased to some extent at the 9th week. A cluster analysis concluded that V. ×burkwoodii and V. בNCVX1’ were considered the most salt-tolerant viburnum taxa, whereas V. dilatatum ‘Henneke’, V. plicatum var. tomentosum ‘Summer Snowflake’, and V. trilobum were sensitive to salinity levels used in this study. This research may guide the green industry to choose relatively tolerant viburnum taxa for landscape use and nursery production where low-quality water is used for irrigation.

Published

2020

6. Posterior fossa medulloblastoma in an atypical extra-axial location: A case report

Author

Elizabeth Presutto, BS, Matthew Chappell, MD, Joseph Fullmer, MD, and Sajeev Ezhapilli, MBBS, DNB, DABR

Subjects

Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Medulloblastoma is the most common posterior fossa tumor of childhood typically within the fourth ventricle. However, extra-axial medulloblastoma in posterior fossa is an uncommon diagnosis. We report a case in a 33-month-old male who presented with repeated complaints of abdominal pain, intermittent emesis, and diarrhea, and diagnosed with right cerebellar extra-axial medulloblastoma, which was surgically resected. Majority of the reported extra-axial medulloblastoma in posterior fossa in the United States are located in the cerebellopontine angle. However, to the best of our knowledge, our case is the first to document medulloblastoma occurring exclusively in the cerebellar hemispheric extra-axial space rather than the cerebellopontine angle. Although the diagnosis can present as a radiological dilemma, a systematic multimodality imaging approach can aid in narrowing the differential diagnosis and timely management. In this case report, we will discuss the imaging characteristics, differential diagnosis, and management strategies, alongside a brief review of the world literature of extra-axial medulloblastoma. Keywords: Medulloblastoma, Pediatric neoplasm, Posterior fossa tumors, Extra-axial

Published

2018

7. The Relationship between Drone Speed and the Number of Flights in RFID Tag Reading for Plant Inventory

Author

Jannette Quino, Joe Mari Maja, James Robbins, James Owen, Matthew Chappell, Joao Neto Camargo, and R. Thomas Fernandez

Subjects

speed, RFID, inventory, drones, labor, forecast, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Accurate inventory allows for more precise forecasting, including profit projections, easier monitoring, shorter outages, and fewer delivery interruptions. Moreover, the long hours of physical labor involved over such a broad area and the effect of inefficiencies could lead to less accurate inventory. Unreliable data and predictions, unannounced stoppages in operations, production delays and delivery, and a considerable loss of profit can all arise from inaccurate inventory. This paper extends our previous work with drones and RFID by evaluating: the number of flights needed to read all tags deployed in the field, the number of scans per pass, and the optimum drone speed for reading tags. The drone flight plan was divided into eight passes from southwest to northwest and back at a horizontal speed of 2.2, 1.7, and 1.1 m per second (m/s) at a vertically fixed altitude. The results showed that speed did not affect the number of new tags scanned (p-value > 0.05). Results showed that 90% of the tags were scanned in less than four trips (eight passes) at 1.7 m/s. Based on these results, the system can be used for large-scale nursery inventory and other industries that use RFID tags in outdoor environments. We presented two novel measurements on evaluating RFID reader efficiency by measuring how fast the reader can read and the shortest distance traveled by the RFID reader over tag.

Published

2021

8. Development of an Embryo Rescue Protocol for Butterfly Weed

Author

Mary Lewis, Matthew Chappell, Donglin Zhang, and Rebekah Maynard

Subjects

asclepiadaceae, asclepias tuberosa, autotrophic embryo, germination percent, native plant, Plant culture, SB1-1110

Abstract

We documented a successful embryo rescue (ER) protocol for butterfly weed (Asclepias tuberosa), a member of the milkweed family (Asclepiadaceae). Milkweed (Asclepias sp.) includes more than 100 species native to the United States, is an important pollinator plant, and has many commercially desirable traits. However, there is little commercial production outside of native plant nurseries because milkweed species are typically seed-grown and suffer from low seed set during pollination, late-term abortion of seed pods, and nonuniform germination. This project determined the optimal growing media (study one) and embryo maturity (study two) to recover mature seedlings from excised embryos and compared the results to those of traditional methods of seed germination (in soilless substrate). Study one investigated three different media: Murashige and Skoog (MS) medium at full strength and half strength and woody plant medium. MS medium at half strength was optimal for butterfly weed germination and maturation, with greater root and shoot lengths at the time of harvest. In study two, the effects of MS medium at half strength on embryo maturation 90, 60, and 30 days after pollination (DAP) were investigated. The optimal time to harvest embryos was 60 DAP; embryos at 30 DAP were capable of germination but not maturation. A mean germination rate of 97.4% was observed when using embryo rescue, but it was 72.3% with mature seed germinated in soilless substrate typical of commercial production. A similar increase in germination rates was observed for all embryo maturities when compared with seed germinated using soilless substrate. The protocol developed for this study should help to standardize production, reduce propagation time, and improve the commercial acceptance and profitability of milkweed.

Published

2009

9. Alternatives to Synthetic Herbicides for Weed Management in Container Nurseries

Author

Gary W. Knox, Matthew Chappell, and Robert H. Stamps

Subjects

EP464, Agriculture (General), S1-972, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Weed management is one of the most critical and costly aspects of container nursery production. This is most effectively achieved through preventative practices, primarily with preemergent herbicides. But there are valid reasons for managing weeds with alternatives to synthetic herbicides, including sanitation, exclusion, prevention, hand weeding, mulching, and the use of cover crops, heat, and nonsynthetic herbicides. This 6-page fact sheet was written by Gary W. Knox, Matthew Chappell, and Robert H. Stamps, and published by the UF Department of Environmental Horticulture, September 2012. ENH1203/EP464: Alternatives to Synthetic Herbicides for Weed Management in Container Nurseries (ufl.edu)

Published

2012

10. Alternatives to Petroleum-Based Containers for the Nursery Industry

Author

Gary W. Knox and Matthew Chappell

Subjects

EP454, Agriculture (General), S1-972, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Biodegradable containers are an increasingly attractive option for consumers and growers alike. This 5-page fact sheet looks at the past, present, and future of containers used in container nursery production. Written by Gary W. Knox and Matthew Chappell, and published by the UF Department of Environmental Horticulture, November 2011.

Published

2011

11. Nursery Crop Selection and Market Niches

Author

Gary W. Knox and Matthew Chappell

Subjects

EP455, Agriculture (General), S1-972, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

The ultimate success of an ornamental production operation hinges on the ability of that operation to successfully understand which genera, species, and/or cultivars to grow on a year-to-year basis. This 5-page fact sheet describes several important factors that must be considered in order to properly assess which ornamental crops should be grown and which market niches exist that may dictate crop selection. Written by Gary Knox and Matthew Chappell and published by the UF Department of Environmental Horticulture, November 2011. UF/IFAS Photo by Josh Wickham. ENH1194/EP455: Nursery Crop Selection and Market Niches (ufl.edu)

Published

2011

12. Morphological and Physiological Responses of Ornamental Grasses to Saline Water Irrigation

Author

Xin Dai, Haifeng Xing, Julie Hershkowitz, Ji Jhong Chen, Matthew Chappell, Asmita Paudel, and Youping Sun

Subjects

landscape plant, Irrigation, Ornamental grass, fungi, food and beverages, calamagrostis ×acutiflora, carex morrowii, Plant culture, acorus gramineus, gas exchange, Horticulture, Biology, Saline water, Physiological responses, visual quality, SB1-1110, Agronomy, festuca glauca, andropogon ternarius, sporobolus heterolepis

Abstract

Reclaimed water provides a reliable and economical alternative source of irrigation water for landscape use but may have elevated levels of salts that are detrimental to sensitive landscape plants. Landscape professionals must use salt-tolerant plants in regions where reclaimed water is used. Ornamental grasses are commonly used as landscape plants in the Intermountain West of the United States due to low maintenance input, drought tolerance, and unique texture. Six ornamental grass species, including Acorus gramineus (Japanese rush), Andropogon ternarius (silver bluestem), Calamagrostis ×acutiflora (feather reed grass), Carex morrowii (Japanese sedge), Festuca glauca (blue fescue), and Sporobolus heterolepis (prairie dropseed), were evaluated for salinity tolerance. Plants were irrigated every 4 days with a fertilizer solution at an electrical conductivity (EC) of 1.2 dS·m–1 (control) or with a saline solution at an EC of 5.0 dS·m–1 (EC 5) or 10.0 dS·m–1 (EC 10). At 47 days, most species in EC 5 exhibited good visual quality with averaged visual scores greater than 4.6 (0 = dead, 5 = excellent). In EC 10, most A. gramineus plants died, but C. ×acutiflora, F. glauca, and S. heterolepis had no foliar salt damage. At 95 days, C. ×acutiflora, F. glauca, and S. heterolepis in EC 5 had good visual quality with averaged visual scores greater than 4.5. Acorus gramineus, A. ternarius, and C. morrowii showed foliar salt damage with averaged visual scores of 2.7, 3.2, and 3.4, respectively. In EC 10, A. gramineus died, and other grass species exhibited moderate to severe foliar salt damage, except C. ×acutiflora, which retained good visual quality. Plant height, leaf area, number of tillers, shoot dry weight, and/or gas exchange parameters also decreased depending on plant species, salinity level, and the duration of exposure to salinity stress. In conclusion, A. gramineus was the most salt-sensitive species, whereas C. ×acutiflora was the most salt-tolerant species. Festuca glauca and S. heterolepis were more tolerant to salinity than A. ternarius and C. morrowii. Calamagrostis ×acutiflora, F. glauca, and S. heterolepis appear to be more suitable for landscapes in which reclaimed water is used for irrigation. Plant responses to saline water irrigation in this research could also be applied to landscapes in salt-prone areas and coastal regions with saltwater intrusion into aquifers and landscapes affected by maritime salt spray.

Published

2021

13. RFID and Drones: The Next Generation of Plant Inventory

Author

Joe Mari Maja, Matthew Chappell, James S. Owen, Jannette Quino, James M. Robbins, and R. Thomas Fernandez

Subjects

010504 meteorology & atmospheric sciences, Computer science, Pharmaceutical Science, 02 engineering and technology, drone, computer.software_genre, 01 natural sciences, Field (computer science), 0202 electrical engineering, electronic engineering, information engineering, Radio-frequency identification, Pharmacology (medical), lcsh:Agriculture (General), 0105 earth and related environmental sciences, RFID, precision agriculture, Database, business.industry, Orientation (computer vision), ornamental, 020206 networking & telecommunications, lcsh:S1-972, Drone, inventory, Microcontroller, Complementary and alternative medicine, Work (electrical), microcontroller, lcsh:TA1-2040, Robot, Precision agriculture, business, lcsh:Engineering (General). Civil engineering (General), computer

Abstract

Collection of plant inventory (i.e., count, grade, plant size, yield) data is time-consuming, costly, and can be inaccurate. In response to increasing labor costs and shortages, there is an increased need for the adoption of more automated technologies by the nursery industry. Growers, small and large, are beginning to adopt technologies (e.g., plant spacing robots) that automate or augment certain operations, but greater strides must be taken to integrate next-generation technologies into these challenging unstructured agricultural environments. The main objective of this work is to demonstrate merging specific ground and aerial-based technologies (Radio Frequency Identification (RFID), and small Unmanned Aircraft System (sUAS)) into a holistic systems approach to address the specific need of moving toward automated on-demand plant inventory. This preliminary work focuses on evaluating different RFID tags with respect to their distance and orientation to the RFID reader. Fourteen different RFID tags, five distances (1.5 m, 3.0 m, 4.5 m, 6.0 m, and 7.6 m), and four tag orientations (the front of the tag (UP), back of the tag (DN), tag at sideways left (SL), and tag at sideways right (SR)) were assessed. Results showed that the tag upward orientation resulted in the highest scanning total for both the laboratory and field experiments. Two orientations (UP and SR) had significant effect on the scan total of tags. The distance between the reader and the tags at 1.5 m and 6.0 m did not significantly affect the scanning efficiency of the RFID system in horizontally fixed (p-value &gt, 0.05) position regardless of tags. Different tag designs also produced different scan totals. Overall, since most of the tags were scanned at least once (except for Tag 6F), it is a very promising technology for use in nursery inventory data acquisition. This work will create a unique inventory system for agriculture where locations of plants or animals will not present a barrier as the system can easily be mounted on a drone. Although these experiments are focused on inventory in plant nurseries, results for this work has potential for inventory management in other agricultural sectors.

Published

2021

14. Gas Exchange and Mineral Nutrition of 12 Viburnum Taxa Irrigated with Saline Water

Author

Genhua Niu, Youping Sun, Ji Jhong Chen, Asmita Paudel, Matthew Chappell, and Haifeng Xing

Subjects

landscape plant, Mineral, photosynthesis, biology, chloride, transpiration rate, Horticulture, lcsh:Plant culture, biology.organism_classification, Saline water, salinity, Taxon, Viburnum, Agronomy, stomatal conductance, Environmental science, lcsh:SB1-1110, sodium

Abstract

More than half of residential water in Utah is used for landscape irrigation. Reclaimed water has been used to irrigate urban landscapes to conserve municipal water. High salt levels in reclaimed water may pose osmotic stress and ion toxicity to salt-sensitive plants. Viburnums are commonly used landscape plants, but salinity tolerance of species and cultivars is unclear. The objective of this study was to characterize gas exchanges and mineral nutrition responses of 12 viburnum taxa subjected to salinity stress in a greenhouse study. Plants were irrigated with a nutrient solution at an electrical conductivity (EC) of 1.3 dS·m–1 or saline solution at an EC of 5.0 dS·m–1 or 10.0 dS·m–1. The net photosynthesis rate (Pn), stomatal conductance (gS), and transpiration rate (E) of all viburnum taxa, except for Viburnum ×burkwoodii and V. בNCVX1’, decreased to various degrees with increasing salinity levels. The Pn, gS, and E of V. ×burkwoodii and V. בNCVX1’ were unaffected by saline solutions of 5.0 dS·m–1 at the 4th and 9th week after treatment initiation, with the exception of the Pn of V. ×burkwoodii, which decreased at the 9th week. Leaf sodium (Na+) and chloride (Cl–) concentrations of all viburnum taxa increased as salinity levels increased. Viburnum ×burkwoodii had relatively low leaf Na+ and Cl– when irrigated with saline solutions of 10.0 dS·m–1. Plant growth and gas exchange parameters, including visual score, plant height, Pn, gS, E, and water use efficiency (WUE) correlated negatively with leaf Na+ and Cl– concentrations. The ratio of potassium (K+) to Na+ (K+/Na+) and ratio of calcium (Ca2+) to Na+ (Ca2+/Na+) decreased when salinity levels increased. Visual score, plant height, Pn, gS, E, and WUE correlated positively with the K+/Na+ and Ca2+/Na+ ratios. These results suggest excessive Na+ and Cl– accumulation inhibited plant photosynthesis and growth, and affected K+ and Ca2+ uptake negatively.

Published

2020

15. Development of a vegetative propagation protocol for Asclepias tuberosa

Author

Donglin Zhang, Mary Lewis, Ockert Greyvenstein, Matthew Chappell, and Paul A. Thomas

Subjects

Horticulture, Vegetative reproduction, Biology, biology.organism_classification, Asclepias

Published

2020

16. Implementation of Sensor-based Automated Irrigation in Commercial Floriculture Production: A Case Study

Author

William D. Wheeler, Paul A. Thomas, Marc W. van Iersel, and Matthew Chappell

Subjects

0106 biological sciences, Irrigation, Environmental science, Production (economics), Floriculture, 04 agricultural and veterinary sciences, Agricultural engineering, Horticulture, 0405 other agricultural sciences, 01 natural sciences, 040501 horticulture, 010606 plant biology & botany

Abstract

A soil moisture sensor-based automated irrigation system was trialed in a commercial floriculture greenhouse to determine what benefits these types of systems may offer to herbaceous ornamental producers. Water use, crop quality and growth, and grower behavior toward adoption of the new technology were monitored, when all decision making related to system operation was carried out by the grower. Two cultivars of poinsettia (Euphorbia ×pulcherrima) and three cultivars of geranium (Pelargonium ×hortorum) were produced in side-by-side trials over the course of 2 years while comparing grower-controlled, sensor-based automated irrigation with traditional grower-managed (timer-based) irrigation. Plant quality was equivalent between irrigation treatments across all five trials. Differences in plant size were noted in four of the five trials between irrigation treatments, but in all instances these differences were not judged by the commercial grower to impact marketability of the crop. No reductions in irrigation water use were noted with the sensor-based irrigation system, which differed from previous research using this technology in ornamental production. Over the course of 2 years, the number of plants produced using sensor-based irrigation control was scaled up, indicating increasing confidence in, and adoption of, the technology. Managers at the facility found that sensor-based irrigation facilitated reallocation of labor from irrigation management, which was especially valuable during peak production and shipping periods. The payback period calculated from labor savings would be roughly 1.5 years if the sensor-based irrigation system was implemented throughout the facility.

Published

2018

17. Evaluation of Twenty-one Mountain Laurel Cultivars for Container and Landscape Performance in the Southeastern United States

Author

Matthew Chappell, Donglin Zhang, and He Li

Subjects

Horticulture, Geography, Cultivar, Container (type theory)

Abstract

Mountain laurel (Kalmia latifolia) is an outstanding ornamental shrub due to its attractive foliage and showy inflorescences. Breeding efforts have led to improved selections that have predominantly been developed and evaluated in the northeastern United States. Consequently, most cultivars have largely been dismissed as incompatible for the southeastern U.S. environmental conditions by nursery growers and consumers. This study was conducted over a 4-year period to evaluate 21 popular mountain laurel cultivars, primarily developed in the northeastern United States, for container and field performance in Georgia. All cultivars yielded considerable growth in the first year of container trials, indicating production of mountain laurel as a 1-year container crop is feasible. Cultivars displayed significantly different total growth index throughout the container trial. Fast-growing cultivars such as Bullseye and Ostbo Red yielded more than 100, 150, and 250 cm of growth index in 1, 2, and 4 years, respectively. Conversely, cultivars that grew slower, such as Firecracker and Tinkerbell, had less than 80, 115, and 180 cm in 1, 2, and 4 years, respectively. Cultivars were classified into five groups, using principal component analysis, that included dwarf habit with pink flower, dwarf habit with nonpink flower, nondwarf habit with green stem and white flower, nondwarf habit with pigment-patterned flower, and nondwarf habit with pink flower. In a field study, performance rating of 21 cultivars ranged from 2.0 to 4.8 (out of 5.0) in 2014 and from 2.0 to 5.0 in 2015. Ten cultivars that received the highest ratings over these 2 years were selected for a subsequent field trial in 2016. Cultivars showed overall decreased ratings (1.0–3.3) from the previous 2 years because of late spring planting. ‘Ostbo Red’, ‘Pristine’, and ‘Tinkerbell’ had higher performance ratings, more net growth, and less decrease in maximum quantum yield, which indicated suitable adaptation to southeastern U.S. environmental conditions. Nursery growers and consumers should benefit from regional cultivar trial information derived from this study. ‘Ostbo Red’, ‘Pristine’, and ‘Tinkerbell’ performed well across trials and therefore are recommended for southeastern U.S. landscapes based on superior container and field performance, leaf spot (caused by Mycosphaerella colorata) tolerance, and morphologic distinctions.

Published

2018

18. Posterior fossa medulloblastoma in an atypical extra-axial location: A case report

Author

Sajeev Ezhapilli, Joseph Fullmer, Matthew Chappell, and Elizabeth Presutto

Subjects

lcsh:Medical physics. Medical radiology. Nuclear medicine, medicine.medical_specialty, Abdominal pain, lcsh:R895-920, Extra axial, Posterior fossa, Fourth ventricle, 03 medical and health sciences, Extra-axial, 0302 clinical medicine, Medicine, Radiology, Nuclear Medicine and imaging, neoplasms, Medulloblastoma, Pediatric neoplasm, business.industry, medicine.disease, Cerebellopontine angle, nervous system diseases, stomatognathic diseases, Neuroradiology, Posterior fossa tumors, 030220 oncology & carcinogenesis, Pediatric Neoplasm, Radiology, medicine.symptom, Differential diagnosis, business, 030217 neurology & neurosurgery

Abstract

Medulloblastoma is the most common posterior fossa tumor of childhood typically within the fourth ventricle. However, extra-axial medulloblastoma in posterior fossa is an uncommon diagnosis. We report a case in a 33-month-old male who presented with repeated complaints of abdominal pain, intermittent emesis, and diarrhea, and diagnosed with right cerebellar extra-axial medulloblastoma, which was surgically resected. Majority of the reported extra-axial medulloblastoma in posterior fossa in the United States are located in the cerebellopontine angle. However, to the best of our knowledge, our case is the first to document medulloblastoma occurring exclusively in the cerebellar hemispheric extra-axial space rather than the cerebellopontine angle. Although the diagnosis can present as a radiological dilemma, a systematic multimodality imaging approach can aid in narrowing the differential diagnosis and timely management. In this case report, we will discuss the imaging characteristics, differential diagnosis, and management strategies, alongside a brief review of the world literature of extra-axial medulloblastoma. Keywords: Medulloblastoma, Pediatric neoplasm, Posterior fossa tumors, Extra-axial

Published

2018

19. Experiential Nursery Integrated Pest Management Workshop Series to Enhance Grower Practice Adoption

Author

Gary W. Knox, William E. Klingeman, Juang-Horng Chong, Matthew Chappell, S. Kris Braman, Frank A. Hale, Jeffrey F. Derr, Nicole Ward Gauthier, Alan S. Windham, Joseph C. Neal, Jean-Jacque Dubois, Anthony V. LeBude, and Amy Fulcher

Subjects

0106 biological sciences, Integrated pest management, 010602 entomology, Engineering management, 05 social sciences, 050501 criminology, Business, Horticulture, 01 natural sciences, Experiential learning, 0505 law

Abstract

Three, 2-day hands-on experiential learning workshops were presented in three southeastern United States cities in June 2014, by the Southern Nursery Integrated Pest Management (SNIPM) working group. Attendees were provided 4 hours of instruction including hands-on demonstrations in horticultural management, arthropods, plant diseases, and weeds. Participants completed initial surveys for gains in knowledge, skills, and abilities as well as their intentions to adopt various integrated pest management (IPM) practices after the workshop. After 3 years, participants were again surveyed to determine practice adoption. Respondents changed their IPM practice behavior because of attending the workshops. Those returning the survey set aside more time to scout deliberately for pests, plant diseases, and weeds; used a standardized sampling plan when scouting; and adopted more sanitation practices to prevent plant disease. Fewer horticultural management practices were adopted than respondents originally intended. Future emphasis should be placed on using monitoring techniques to estimate pest emergence, for example, traps and pheromone lures, as well as plant phenology and record keeping. However, more work is needed to highlight both the immediate and long-term economic benefits of IPM practice adoption in southeastern U.S. nursery production.

Published

2017

20. Advancing Integrated Pest Management Adoption and Achieving Extension Impact: A Working Group Success Story

Author

Frank A. Hale, Gary W. Knox, Jeffrey F. Derr, Francesca Peduto Hand, S. Christopher Marble, Juang-Horng Chong, Nicole Ward Gauthier, Winston Dunwell, Matthew Chappell, Anthony V. LeBude, Steve Frank, S. Kris Braman, Amy Fulcher, Adam G. Dale, Jean Williams-Woodward, Sarah A. White, and William E. Klingeman

Subjects

Integrated pest management, Extension (metaphysics), Group (mathematics), 05 social sciences, 050501 criminology, Operations management, Business, Horticulture, 0505 law

Abstract

Extension and research professionals in the southeastern United States formed the Southern Nursery Integrated Pest Management working group (SNIPM) to foster collaboration and leverage resources, thereby enhancing extension programming, increasing opportunity, and expanding the delivery of specialized expertise to nursery crop growers across a region. Building a productive and lasting working group requires attracting a group of research and extension faculty with complementary expertise, listening to stakeholders, and translating stakeholder needs into grant priorities to help solve problems, all hallmarks of effective teamwork principles. SNIPM has now grown to include 10 U.S. states and 11 institutions and has been awarded seven grants totaling $190,994 since 2009. A striking benefit of working group membership was observed over time: synergy. Greater awareness of individual expertise among SNIPM members, each of whom were focused on different aspects of the nursery production system stimulated multistate extension publications, electronic books (eBooks), mobile device applications (apps), popular press articles, and spin-off research projects when separate foci were combined and directed toward complex challenges. Deliverables achieved from this faculty collaboration include nine peer-reviewed publications, four manuals and books and 23 book chapters, and a combined total of 11 abstracts, conference proceedings and extension publications. To date, the return on investment for SNIPM is one deliverable produced to every $2265.89 in grant funding. SNIPM has also been honored with multiple American Society for Horticultural Science publication awards as well as the Southern Region Integrated Pest Management Center Bright Idea Award for the quality and originality of their project outputs. Continuing to work together toward common goals that bridge technology and serve the nursery industry while supporting each individual member’s program will be crucial to the long-term success of this working group.

Published

2017

21. Assessing Impact of Coordinated Comprehensive Regional Extension Publications: A Case Study of the Southern Nursery Integrated Pest Management Working Group

Author

Jean-Jacques B. Dubois, Matthew Chappell, Sarah A. White, Gary W. Knox, Amy Fulcher, and Anthony V. LeBude

Subjects

0106 biological sciences, Integrated pest management, 010602 entomology, Geography, Group (mathematics), Regional Extension, Horticulture, 01 natural sciences, Environmental planning, 010606 plant biology & botany

Abstract

In 2014, the Southern Nursery Integrated Pest Management (SNIPM) Working Group published both print and electronic versions of IPM for Shrubs in Southeastern U.S. Nursery Production: Volume I. Five hundred print books (of 3000 copies) were distributed to commercial ornamental growers and extension educators in return for their participation in a follow-up survey. The survey was administered to determine the value of book contents, savings that growers realized from using the book, perceived value of the book had users been asked to pay for it, and demographic information. The survey response rate was 46.2%, with respondents from 18 states. Of 243 respondents, 194 (79.8%) had used the book. Entomology information was most used and most useful, followed by plant pathology, weed science, and cultural information. Collective savings attributed to book use totaled $408,832/year for the 194 nurseries that used the book. Applying the use rate (79.8%) identified in this survey, this represents $5.62 million in savings per year for the 3000 printed books, of which 2394 are estimated to have been used. Savings varied by the type and size of operation. Larger operations had greater savings per year. Container growers saved $44.15/acre and field growers $28.37/acre. The price that growers were willing to pay for the book also varied by operation type and size. Extension educators and growers were willing to pay an average of $41.20, with an additional $0.063/acre for container growers and $0.126/acre for field growers. Return on investment for the U.S. Department of Agriculture grant funding for the project was $187.60 per dollar of funding. This survey demonstrates that collaborative efforts can produce high-value deliverables with significant regional and/or national impact.

Published

2017

22. Utilization ofKalmia latifoliaL. germplasm as ornamentals

Author

Donglin Zhang, H. Li, and Matthew Chappell

Subjects

Germplasm, Genetic diversity, Kalmia, biology, 06 humanities and the arts, Horticulture, biology.organism_classification, 060105 history of science, technology & medicine, Agronomy, Plant morphology, Ornamental plant, 0601 history and archaeology, Cultivar, Plant breeding, Woody plant

Published

2017

23. Ornamental plant breeding and evaluation at The University of Georgia

Author

J.M. Ruter, Matthew Chappell, C. Robacker, and Donglin Zhang

Subjects

Agronomy, Ornamental plant, Plant breeding, Horticulture, Biology, Woody plant

Published

2017

24. Impact of Substrate Volumetric Water on Pythium aphanidermatum Infection in Petunia ×hybrida: A Case Study on the Use of Automated Irrigation in Phytopathology Studies

Author

Paul A. Thomas, Marc W. van Iersel, Matthew Chappell, Jean Williams-Woodward, and William D. Wheeler

Subjects

0106 biological sciences, Irrigation, Substrate (chemistry), 04 agricultural and veterinary sciences, Plant Science, Horticulture, Biology, biology.organism_classification, 01 natural sciences, Monitoring and control, Petunia hybrida, 040501 horticulture, Pythium aphanidermatum, 0405 other agricultural sciences, Water content, 010606 plant biology & botany

Abstract

Real-time irrigation monitoring and control afforded by dielectric soil moisture sensors allows for precise substrate volumetric water content (VWC) to be maintained under dynamic experimental conditions. A case study was conducted with Petunia ×hybrida ‘Dreams Red’ grown using a sensor-based irrigation system with half of the plants infected with Pythium aphanidermatum. Four soilless substrate moisture profiles were maintained postinoculation, with VWCs set at 0.2, 0.3, and 0.4 m3/m3, as well as a cyclic soil moisture profile that underwent a 0.25-m3/m3 change in VWC (0.18 to 0.43 m3/m3) between irrigation events. Once established, half of the plants in each trial were inoculated and grown out for one month under the defined irrigation regimes. The probability of root infection was lowered when VWC was maintained at 0.2 m3/m3 compared with 0.4 m3/m3 and cyclic (0.18 to 0.43 m3/m3) VWC. Mortality and biomass were unaffected by irrigation regime in both uninoculated and inoculated treatments. The soil moisture-sensor-based automated irrigation system was successfully able to maintain programmed irrigation profiles throughout the trial, under dynamic greenhouse conditions, increasing trust in the data and resulting conclusions of the study.

Published

2017

25. Demonstrated benefits of using sensor networks for automated irrigation control in nursery and greenhouse production systems

Author

William L. Bauerle, Andrew G. Ristvey, John D. Lea-Cox, D. Kohanbash, M.W. van Iersel, George Kantor, Bruk E. Belayneh, Lauren Crawford, Matthew Chappell, John C. Majsztrik, T. Martin, and Erik Lichtenberg

Subjects

Irrigation control, Environmental science, Greenhouse production, Agricultural engineering, Horticulture, Water resource management, Wireless sensor network

Published

2017

26. Optimizing growth, quality, and profits through precision irrigation in ornamental plant production

Author

M.W. van Iersel, Matthew Chappell, and Paul A. Thomas

Subjects

Engineering, Agroforestry, business.industry, media_common.quotation_subject, 0208 environmental biotechnology, 04 agricultural and veterinary sciences, 02 engineering and technology, Agricultural engineering, Horticulture, 040501 horticulture, 020801 environmental engineering, Precision irrigation, Ornamental plant, Production (economics), Quality (business), 0405 other agricultural sciences, business, media_common

Published

2016

27. Surveying Changes in Sectional Tissue Nutrient Concentrations of Hibiscus acetosella ‘Panama Red’ during Adventitious Root Formation

Author

Michael T. Martin, Jerry W. Davis, Matthew Chappell, and Geoffrey M. Weaver

Subjects

Root formation, Panama, Nutrient, Hibiscus acetosella, Botany, Horticulture, Biology, biology.organism_classification

Abstract

A study was conducted to observe changes in mineral element concentrations within different sections of leafy stem cuttings of Hibiscus acetosella ‘Panama Red’ (PP20121) during a 21-day propagation period under standard industry propagation conditions. Concentrations of 13 mineral elements were analyzed in leaves, lower stems (below substrate), upper stems (above substrate), and roots at 3-day intervals. Before root emergence (day 0–6), P, K, Zn, Ca, and Mg concentrations decreased in the shoots (including upper stems and leaves), whereas Zn, Ca, and B concentrations decreased in the lower stems. Sulfur increase occurred in lower stems before root emergence. After rooting (day 9–21), N, P, Zn, Fe, Cu, and Ni concentrations decreased in the roots; K, S, B, and Mg concentrations increased. In the lower stems, N, P, K, S, and Zn concentrations decreased, whereas B increased. Potassium concentration decreased in the leaves; P, K, S, and Zn decreased in the upper stems. Calcium and Mg increased in leaves. This study indicates specific nutrients are important in adventitious rooting, and that it is important to analyze rooting as a function of fine-scale temporal measurements and fine-scale sectional measurements.

Published

2016

28. Assessing Genetic Diversity and Population Structure of Kalmia latifolia L. in the Eastern United States: An Essential Step towards Breeding for Adaptability to Southeastern Environmental Conditions

Author

Matthew Chappell, He Li, and Donglin Zhang

Subjects

0106 biological sciences, 0301 basic medicine, Germplasm, Range (biology), Geography, Planning and Development, TJ807-830, Management, Monitoring, Policy and Law, Biology, TD194-195, 01 natural sciences, Analysis of molecular variance, Renewable energy sources, 03 medical and health sciences, GE1-350, breeding for adaptability, Genetic diversity, Environmental effects of industries and plants, Kalmia, Renewable Energy, Sustainability and the Environment, Ecology, ornamental, Dendrogram, UPGMA, food and beverages, population structure, Small population size, genetic diversity, Building and Construction, biology.organism_classification, Environmental sciences, 030104 developmental biology, genetic differentiation, germplasm resources, human activities, 010606 plant biology & botany

Abstract

Kalmia latifolia L. (mountain laurel), an attractive flowering shrub, is considered to be a high-value ornamental plant for the eastern United States. Limited information on the genetic diversity and structure of K. latifolia is available, which obstructs efficient germplasm utilization and breeding for adaptability to southeastern environmental conditions. In this study, the genetic diversity of 48 wild K. latifolia plants sampled from eight populations in the eastern U.S. was assessed using eight inter simple sequence repeat (ISSR) markers. A total of 116 bands were amplified, 90.52% of which (105) were polymorphic. A high level of genetic diversity at the species level was determined by Nei&rsquo, s gene diversity (0.3089) and Shannon&rsquo, s information index (0.4654), indicating that K. latifolia was able to adapt to environmental changes and thus was able to distribute over a wide latitudinal range. In terms of the distribution of genetic diversity, Nei&rsquo, s genetic differentiation and analysis of molecular variance (AMOVA) showed 38.09% and 29.54% of diversity existed among populations, respectively, elucidating a low-to-moderate level of among-population genetic differentiation. Although a relatively large proportion of diversity was attributed to within-population variation, low diversity within populations (mean genetic diversity within populations (HS) = 0.19) was observed. Both STRUCTURE and unweighted pair group method with arithmetic mean (UPGMA) dendrograms exhibited the clustering of populations that inhabit the same geographic region, and four clusters correlated with four geographic regions, which might be attributed to insect pollination, small population size, and environmental conditions in different habitats. These results function as an essential step towards better conserving and utilizing wild K. latifolia resources, and hence promoting its genetic improvement and breeding for adaptability to southeastern environmental conditions.

Published

2020

29. WIRELESS SENSORS NETWORKS FOR OPTIMIZATION OF IRRIGATION, PRODUCTION, AND PROFIT IN ORNAMENTAL PRODUCTION

Author

M.W. van Iersel, Jongyun Kim, John D. Lea-Cox, and Matthew Chappell

Subjects

Irrigation, business.industry, Soil moisture sensor, Ornamental plant, Economics, Wireless, Agricultural engineering, Horticulture, business, Agricultural economics, Profit (economics)

Published

2014

30. EFFECT OF IRRIGATION DURATION AND FERTILIZER RATE ON PLANT GROWTH, SUBSTRATE SOLUTION EC AND LEACHING VOLUME

Author

K. Whitaker, M.W. van Iersel, John M. Ruter, Amanda Bayer, and Matthew Chappell

Subjects

Plant growth, Irrigation, Agronomy, Chemistry, engineering, Fertilizer, Horticulture, Leaching (agriculture), engineering.material

Published

2014

31. Water Use of Hydrangea macrophylla and Gardenia jasminoides in Response to a Gradually Drying Substrate

Author

Marc W. van Iersel, Lucas O’Meara, and Matthew Chappell

Subjects

Hydrangea macrophylla, Horticulture, biology, Chemistry, Substrate (chemistry), Gardenia jasminoides, biology.organism_classification, Water use

Abstract

As a result of the lack of quantitative data regarding specific water requirements of ornamental species, precision irrigation can be a difficult task for nursery growers. One challenge for growers is that it is not clear how much of the water in soilless substrates is actually available for plant uptake. Substrate moisture release curves (MRC) have been used to predict the amount of plant-available water in soilless substrates, yet there is little information about whether there are differences among species in their ability to extract water from substrates. The objectives of this study were to determine 1) the hydraulic properties of a composted pine bark substrate; and 2) how water uptake in Hydrangea macrophylla and Gardenia jasminoides was affected by decreasing substrate volumetric water content (VWC). As the substrate VWC decreased from 0.38 to 0.17 m3·m−3, substrate matric potential decreased from –4.0 to –69 kPa, whereas hydraulic conductivity decreased from 0.115 to 0.000069 cm·d−1. To measure plant water uptake in a drying substrate, growth chambers were used to provide stable environmental conditions that included continuous lighting to prevent diurnal fluctuations in water use. Water use by H. macrophylla ‘Fasan’ started to decrease at a higher VWC (0.28 m3·m−3) than G. jasminoides ‘Radicans’ (0.20 m3·m−3). Plant water uptake stopped at a VWC of 0.16 m3·m−3 in H. macrophylla and 0.12 m3·m−3 in G. jasminoides. The results show that H. macrophylla is less adept at extracting water from a drying substrate than G. jasminoides. Traditionally, plant-available water in soilless substrates has been studied using substrate MRCs. Our data suggest that substrate hydraulic conductivity may be an important factor controlling water availability to the plants. In addition, there are important differences among species that cannot be detected by only looking at substrate hydraulic properties.

Published

2014

32. Implementation of Wireless Sensor Networks for Irrigation Control in Three Container Nurseries

Author

Paul A. Thomas, Matthew Chappell, Marc W. van Iersel, John M. Ruter, and Sue K. Dove

Subjects

Irrigation, Agriculture, business.industry, Computer science, Sustainability, Irrigation scheduling, Agricultural engineering, Horticulture, Leaching (agriculture), Irrigation management, business, Wireless sensor network, Water content

Abstract

Water quality and quantity are increasingly important concerns for agricultural producers and have been recognized by governmental and nongovernmental agencies as focus areas for future regulatory efforts. In horticultural systems, and especially container production of ornamentals, irrigation management is challenging. This is primarily due to the limited volume of water available to container-grown plants after an irrigation event and the resultant need to frequently irrigate to maintain adequate soil moisture levels without causing excessive leaching. To prevent moisture stress, irrigation of container plants is often excessive, resulting in leaching and runoff of water and nutrients applied to the container substrate. For this reason, improving the application efficiency of irrigation is necessary and critical to the long-term sustainability of the commercial nursery industry. The use of soil moisture sensing technology is one method of increasing irrigation efficiency, with the on-farm studies described in this article focusing on the use of capacitance-based soil moisture sensors to both monitor and control irrigation events. Since on-farm testing of these wireless sensor networks (WSNs) to monitor and control irrigation scheduling began in 2010, WSNs have been deployed in a diverse assortment of commercial horticulture operations. In deploying these WSNs, a variety of challenges and successes have been observed. Overcoming specific challenges has fostered improved software and hardware development as well as improved grower confidence in WSNs. Additionally, growers are using WSNs in a variety of ways to fit specific needs, resulting in multiple commercial applications. Some growers use WSNs as fully functional irrigation controllers. Other growers use components of WSNs, specifically the web-based graphical user interface (GUI), to monitor grower-controlled irrigation schedules.

Published

2013

33. Sensors for Improved Efficiency of Irrigation in Greenhouse and Nursery Production

Author

Marc W. van Iersel, Matthew Chappell, and John D. Lea-Cox

Subjects

Irrigation, Process (engineering), Agroforestry, Computer science, Real-time computing, Production (economics), Greenhouse, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Profitability index, Irrigation efficiency, Troubleshooting, Horticulture

Abstract

The use of sensors can provide quantitative information to help guide and automate the decision-making process for irrigation. This article provides an overview of the most common sensors that can be used for this purpose. Such sensors include those that are commonly used for weather stations as well as sensors to monitor the water status of the soil or substrate, and sensors that can be used to monitor and troubleshoot irrigation systems. Although collecting data with sensors is relatively easy, data are only useful if the sensors are used correctly and the limitations of sensors are understood. Optimizing the value of the collected data requires selecting the best sensor(s) for a particular purpose, determining the optimal number of sensors to be deployed, and assuring that collected data are as accurate and precise as possible. We describe general sensing principles and how these principles can be applied to a variety of sensors. Based on our experience, proper use of sensors can result in large increases in irrigation efficiency and improve the profitability of ornamental production in greenhouses and nurseries.

Published

2013

34. Defining a Protocol for Vegetative Propagation of Baptisia, Eupatorium and Thermopsis

Author

Michael T. Martin, Matthew Chappell, and Susan M. Hawkins

Subjects

biology, Vegetative reproduction, Threatened species, Ornamental plant, Botany, Thermopsis, Endangered species, Eupatorium, Horticulture, Environmental Science (miscellaneous), biology.organism_classification, Baptisia, Sexual reproduction

Abstract

We determined that highly successful vegetative propagation is possible for Baptisia, Thermopsis and Eupatorium. This is significant because vegetative propagation of these native genera has not been widely practiced in commercial ornamental production. Seed propagation has been utilized over vegetative propagation due to historically low rooting percentages and reduced crowning (bud formation at the root-shoot union) when vegetative propagation is employed. However, vegetative propagation can enable the production of ornamental nursery stock quicker and with greater uniformity in finishing time compared to seed propagation. Vegetative propagation can also facilitate the perpetuation of threatened or endangered species that have small or isolated populations (limited sexual reproduction) or can be used to build numbers of phenotypically superior individuals without wild digging. Four model species representing three native herbaceous genera that include multiple threatened or endangered species were used in the study. Four concentrations of K-IBA (potassium salt of Indole-3-butyric acid) were examined along with 28 and 56 days in a propagation environment to determine the best rooting percentage and root quality for each species. An economic analysis was conducted to test the efficacy of treatment with K-IBA versus double-sticking two untreated cuttings. In addition to developing a commercially viable propagation protocol for these three species, we also determined that treatment with K-IBA is not necessary for successful propagation of the majority of these species, but that more time in a commercial propagation environment leads to higher rooting percentages at a reduced propagation cost.

Published

2013

35. Developing a Mobile Application as an Extension Education Tool: A Case Study Using IPMPro

Author

Anthony V. LeBude, Alan S. Windham, Frank A. Hale, Craig Adkins, William E. Klingeman, Karen Rane, Juang-Horng Chong, Winston Dunwell, Amy Fulcher, Jean Williams-Woodward, Stanton A. Gill, Sarah A. White, Matthew Chappell, Steven D. Frank, Jeffrey F. Derr, Joseph C. Neal, and S. Kristine Braman

Subjects

Computer science, business.industry, Extension (predicate logic), Horticulture, Software engineering, business

Abstract

With increased mobile device usage, mobile applications (apps) are emerging as an extension medium, well suited to “place-less” knowledge transfer. Conceptualizing, designing, and developing an app can be a daunting process. This article summarizes the considerations and steps that must be taken to successfully develop an app and is based on the authors’ experience developing two horticulture apps, IPMPro and IPMLite. These apps provide information for major pests and plant care tasks and prompt users to take action on time-sensitive tasks with push notifications scheduled specifically for their location. Topics such as selecting between a web app and a native app, choosing the platform(s) for native apps, and designing the user interface are covered. Whether to charge to download the app or have free access, and navigating the intra- and interinstitutional agreements and programming contract are also discussed. Lastly, the nonprogramming costs such as creating, editing, and uploading content, as well as ongoing app management and updates are discussed.

Published

2013

36. Testing, Promoting, and Launching a Mobile Application as an Extension Tool: A Case Study with IPMPro

Author

Jeffrey F. Derr, Stanton A. Gill, Alan S. Windham, Winston Dunwell, Joseph C. Neal, S. Kristine Braman, Frank A. Hale, Jean Williams-Woodward, Juang-Horng Chong, Craig Adkins, Karen Rane, Sarah A. White, Steven D. Frank, Matthew Chappell, Amy Fulcher, Anthony V. LeBude, and William E. Klingeman

Subjects

Process management, Computer science, Push technology, Bulk purchasing, Horticulture, Android (operating system), Beta testing, Focus group, Mobile device

Abstract

Mobile device applications (apps) have the potential to become a mainstream delivery method, providing services, information, and tools to extension clientele. Testing, promoting, and launching an app are key components supporting the successful development of this new technology. This article summarizes the considerations and steps that must be taken to successfully test, promote, and launch an app and is based on the authors’ experience developing two horticulture apps, IPMPro and IPMLite. These apps provide information for major pests and plant care tasks and prompt users to take action on time-sensitive tasks with push notifications scheduled specifically for their location. App testing and evaluation is a continual process. Effective tactics for app testing and evaluation include garnering focus group input throughout app development and postlaunch, in-house testing with simulators, beta testing and the advantages of services that enhance information gained during beta testing, and postlaunch evaluations. Differences in promotional and bulk purchasing options available among the two main device platforms, Android and iOS, are explored as are general preparations for marketing the launch of a new app. Finally, navigating the app submission process is discussed. Creating an app is an involved process, but one that can be rewarding and lead to a unique portal for extension clientele to access information, assistance, and tools.

Published

2013

37. Water Use and Growth of Hibiscus acetosella ‘Panama Red’ Grown with a Soil Moisture Sensor-controlled Irrigation System

Author

Matthew Chappell, Marc W. van Iersel, Amanda Bayer, Imran Mahbub, and John M. Ruter

Subjects

Irrigation, Water conservation, Horticulture, Soil moisture sensor, Environmental science, Greenhouse, Water-use efficiency, Water content, Water use, Tifton

Abstract

Efficient water use is becoming increasingly important for horticultural operations to satisfy regulations regarding runoff along with adapting to the decreasing availability of water to agriculture. Generally, best management practices (BMPs) are used to conserve water. However, BMPs do not account for water requirements of plants. Soil moisture sensors can be used along with an automated irrigation system to irrigate when substrate volumetric water content (θ) drops below a set threshold, allowing for precise irrigation control and improved water conservation compared with traditional irrigation practices. The objective of this research was to quantify growth of Hibiscus acetosella ‘Panama Red’ (PP#20,121) in response to various θ thresholds. Experiments were performed in a greenhouse in Athens, GA, and on outdoor nursery pads in Watkinsville and Tifton, GA. Soil moisture sensors were used to maintain θ above specific thresholds (0.10, 0.15, 0.20, 0.25, 0.30, 0.35, 0.40, and 0.45 m3·m−3). Shoot dry weight increased from 7.3 to 58.8 g, 8.0 to 50.6 g, and from 3.9 to 35.9 g with increasing θ thresholds from 0.10 to 0.45 m3·m−3 in the greenhouse, Watkinsville, and Tifton studies, respectively. Plant height also increased with increasing θ threshold in all studies. Total irrigation volume increased with increasing θ threshold from 1.9 to 41.6 L/plant, 0.06 to 23.0 L/plant, and 0.24 to 33.6 L/plant for the greenhouse, Watkinsville, and Tifton studies, respectively. Daily light integral (DLI) was found to be the most important factor influencing daily water use (DWU) in the greenhouse study; DWU was also found to be low on days with low DLI in nursery studies. In all studies, increased irrigation volume led to increased growth; however, water use efficiency (grams of shoot dry weight produced per liters of water used) decreased for θ thresholds above 0.35 m3·m−3. Results from the greenhouse and nursery studies indicate that sensor-controlled irrigation is feasible and that θ thresholds can be adjusted to control plant growth.

Published

2013

38. Modeling Daily Water Use of Hydrangea macrophylla and Gardenia jasminoides as Affected by Environmental Conditions

Author

Lucas O’Meara, Marc W. van Iersel, and Matthew Chappell

Subjects

Canopy, Crop coefficient, Irrigation, Horticulture, Hydrangea macrophylla, biology, Vapour Pressure Deficit, Daily light integral, Irrigation scheduling, Cultivar, biology.organism_classification, Mathematics

Abstract

Irrigation is an essential component of ornamental plant production, yet relatively little is known about how much water nursery crops require to maintain optimal growth rates. Our objectives were to precisely determine the daily water use (DWU) of Hydrangea macrophylla and Gardenia jasminoides grown in 6-L containers, quantify how this is affected by environmental conditions, develop a quantitative model describing DWU, evaluate this model with an independent data set, and determine the feasibility of using crop coefficients (Kc) for irrigation scheduling. In 2010, we quantified the DWU of two Hydrangea macrophylla cultivars, Fasan and Pia. There was little difference in DWU of the two cultivars, which ranged from 50 to 300 mL/plant/day depending on plant age and environmental (hoophouse) conditions. In 2010, daily light integral (DLI) had the greatest influence on DWU with DWU increasing with increasing DLI. The combination of plant age, final leaf area, DLI, and their interactions explained 83.2% and 90.8% of day-to-day variation in DWU of ‘Fasan’ and ‘Pia’, respectively. In July 2011, a follow-up study was conducted using Hydrangea macrophylla ‘Fasan’ and Gardenia jasminoides ‘Radicans’. DWU of ‘Fasan’ ranged from 50 to 200 mL/plant/day and DWU of ‘Radicans’ ranged from 50 to 560 mL/plant/day. The lower DWU of ‘Fasan’ in 2011 compared with 2010 was the result of stunted growth of the hydrangeas, a result of elevated temperatures within the hoophouse during the plants initial growth flush. Vapor pressure deficit (VPD) explained more of the daily fluctuations in DWU in 2011 compared with 2010. Predicting DWU of the 2011 ‘Fasan’ crop using 2011 environmental conditions and the model developed using the 2010 data resulted in DWU estimates that were on average 64% too high. This discrepancy is likely the result of slower overall growth rate and a 15.4% reduction in ‘Fasan’ total growth in 2011 compared with 2010 and points to the challenges of modeling DWU. There were distinct seasonal changes in Kc values for the crops, but the trends differed between 2010 and 2011. Our results suggest that an accurate measure of canopy size may improve performance of predictive water use models.

Published

2013

39. Scarification and Germination of Amsonia tabernaemontana (Walt.) Seeds

Author

Lindsay R. Opie, Michael T. Martin, and Matthew Chappell

Subjects

biology, Apocynaceae, food and beverages, Horticulture, Environmental Science (miscellaneous), biology.organism_classification, chemistry.chemical_compound, Amsonia tabernaemontana, chemistry, Germination, Seed treatment, Botany, Tabernaemontana, Dormancy, Imbibition, Scarification

Abstract

Eastern bluestar [Amsonia tabernaemontana Walt. (Apocynaceae)] is a herbaceous perennial native to the Eastern United States, yet poor seed germination has inhibited its adoption into commercial product mixes. Germination of A. tabernaemontana seeds at a high percentage was demonstrated in this study. Using the best seed treatment protocol developed in this study, A. tabernaemontana germinated at 70.4% during a 28 day period. This protocol included mechanical scarification followed by imbibation for 48 hr at 24C (72F). Seeds receiving no scarification and no imbibition germinated at 0% during this same 28 day period. Seeds were dissected to determine the best method for seed coat scarification. These dissections showed embryos were arranged longitudinally within seeds and that mechanically removing 1–2 mm (0.04–0.08 in) of the seed coat terminus to expose the embryo was the best scarification method. Imbibition curves were developed for scarified and control (unscarified) seeds to explain dormancy mechanism(s) for A. tabernaemontana seeds. Water was imbibed at a similar rate (P = 0.5217) for all treatments and mechanically scarified seeds germinated at rates higher than unscarified seeds as shown in germination curves, indicating mechanical dormancy is the primary hindrance to germination of this species.

Published

2013

40. Optimizing Plant Health and Pest Management of Lagerstroemia spp. in Commercial Production and Landscape Situations in the Southeastern United States: A Review

Author

Gary Knox, S. Kristine Braman, Jean Williams-Woodward, and Matthew Chappell

Subjects

Integrated pest management, biology, Agroforestry, Lagerstroemia subcostata, Horticulture, Environmental Science (miscellaneous), Lagerstroemia indica, biology.organism_classification, Deciduous, Genus, Ornamental plant, Botany, Lagerstroemia, Cultivar

Abstract

Lagerstroemia is a genus of plants comprised of deciduous shrubs or small trees native to China southward into Southeast Asia. L. indica, the oldest and most widespread species in cultivation in the United States, has been cultivated as an ornamental for centuries and was introduced to the Southeastern U.S. over 175 years ago. Much has been disseminated on the culture and commercial production of crapemyrtle species and cultivars; including plant forms and function, adaptability to macro and micro environment, growth and floral characteristics, and commercial production and landscape culture and maintenance. Since the introduction of L. indica in the United States, L. fauriei, L. subcostata and L. limii have also been introduced. However, since the mid 1970s, interspecific hybrids between L. indica × L. fauriei comprise the majority of new cultivar introductions. Breeding efforts have resulted in 133 commercially available cultivars as of December 2011 that include cultivars with ever improving form and flowering, new flower colors, ornamental bark, ornamental foliage, and disease tolerance. However, there is a wide range among cultivars of tolerance to key pests and diseases such as powdery mildew, Cercospora leaf spot, flea beetle and Japanese beetle. A large number of pests and plant pathogens also negatively affect crapemyrtle health including granulate ambrosia beetle, crapemyrtle aphid, bark scale, bacterial leaf spot, sooty mold and soil-borne root and crown diseases. This review focuses on crapemyrtle culture, in both commercial and landscape settings, with an emphasis on optimizing plant health through the discussion of major abiotic and biotic stressors and cultivar variation in tolerance to these stressors.

Published

2012

41. Stakeholder Vision of Future Direction and Strategies for Southeastern U.S. Nursery Pest Research and Extension Programming

Author

Juang-Horng Chong, Sarah A. White, Steven D. Frank, Jean Williams-Woodward, Craig Adkins, Amy Fulcher, Frank A. Hale, Andrew F. Senesac, Alan S. Windham, Matthew Chappell, Joseph C. Neal, William E. Klingeman, Kelly Ivors, Gregory R. Armel, and Anthony V. LeBude

Subjects

Integrated pest management, Engineering, Government, business.industry, Environmental resource management, Stakeholder, Information technology, Plant Science, Management, Monitoring, Policy and Law, Focus group, Agriculture, Insect Science, Resource allocation, Production (economics), business, Agronomy and Crop Science

Abstract

Extension and research professionals worked with a focus group of 10 nursery owners and managers across a five-state region (Georgia, Kentucky, North Carolina, South Carolina, Tennessee) in the southeastern United States to prioritize diverse nursery pests and production issues that are related to container and field production. A second focus group meeting, focused on technology, was followed by a survey that asked nursery growers to prioritize potential inputs and uses of information technology and the features they most valued, for example, that might be included within a nursery-specific mobile device application. The resulting prioritization highlights common challenges faced by growers across the southeastern United States in managing major plant diseases, arthropod pests, and weeds; as well as documenting emerging critical issues of nonpest related production issues, regulatory constraints, and technological needs. The focus group and survey format effectively identified grower needs that will help inform nursery producers and guide university Extension and research professionals, university administrators, industry associations, and state and federal government officials toward efficient resource allocation. These prioritizations explain the current state-of-need across a diverse agricultural industry segment and will help further refine future strategic action plans for nursery integrated pest management (IPM) and emerging critical nursery crop pest issues.

Published

2012

42. Using Native Plants in traditional design contexts: Smilax Smallii Provides an Example

Author

Joanna Dunholter Schwevens, Matthew Chappell, and Brad E. Davis

Subjects

Geography, biology, Agroforestry, Botany, Cultural values, Smilax smallii, Vernacular, Smilacaceae, Ecosystem, Native plant, biology.organism_classification, Environmental quality, Preference

Abstract

We have observed that cultural values and traditions exert powerful influences over plant preference and use of native plants in traditional landscape designs. Growers of native plants, in turn, can potentially utilize local conventions as entry points for clients who are unsure of how to incorporate native plants into their own landscapes. In this way native plants may fit into a design vernacular that is accepted by local keepers of tradition and is supportive of local ecosystems and greater environmental quality. We describe Smilax smallii Morong (Smilacaceae) as an example of a plant that can fill this role.

Published

2012

43. A Unique Pedagogical Approach to Voting and Public Goods

Author

Douglas A. Schuler, L. Scott Baggett, and Matthew Chappell

Subjects

Class (computer programming), Sociology and Political Science, business.industry, Disapproval voting, Debriefing, media_common.quotation_subject, Public policy, Public good, Public relations, Democracy, Politics, Voting, Political science, ComputingMilieux_COMPUTERSANDEDUCATION, business, media_common

Abstract

Fourth grade students at a public elementary school in Houston, Texas, participated in a one-week exercise intended to mimic the process of creating a public good through a democratic process. The exercise involved students in four separate classes designing a class party with different characteristics (theme, music, and food) through a voluntary but personally costly voting procedure. The students then held the party that they had created. A formal assessment of learning objectives and a debriefing were also part of the exercise. Some ideas investigated include the disconnection between the actual party's characteristics and the revealed preferences of the students during the debriefing—a lesson of collective action—and the satisfaction and learning outcomes experienced by a minority of students as the result of being political activists and having their preferences realized in the makeup of their class party.

Published

2010

44. Development of an Embryo Rescue Protocol for Butterfly Weed

Author

Matthew Chappell, Mary Lewis, Donglin Zhang, and Rebekah C. Maynard

Subjects

business.industry, food and beverages, Horticulture, Biology, native plant, lcsh:Plant culture, asclepias tuberosa, Biotechnology, Embryo rescue, autotrophic embryo, germination percent, Butterfly, lcsh:SB1-1110, asclepiadaceae, Weed, business, Protocol (object-oriented programming)

Abstract

We documented a successful embryo rescue (ER) protocol for butterfly weed (Asclepias tuberosa), a member of the milkweed family (Asclepiadaceae). Milkweed (Asclepias sp.) includes more than 100 species native to the United States, is an important pollinator plant, and has many commercially desirable traits. However, there is little commercial production outside of native plant nurseries because milkweed species are typically seed-grown and suffer from low seed set during pollination, late-term abortion of seed pods, and nonuniform germination. This project determined the optimal growing media (study one) and embryo maturity (study two) to recover mature seedlings from excised embryos and compared the results to those of traditional methods of seed germination (in soilless substrate). Study one investigated three different media: Murashige and Skoog (MS) medium at full strength and half strength and woody plant medium. MS medium at half strength was optimal for butterfly weed germination and maturation, with greater root and shoot lengths at the time of harvest. In study two, the effects of MS medium at half strength on embryo maturation 90, 60, and 30 days after pollination (DAP) were investigated. The optimal time to harvest embryos was 60 DAP; embryos at 30 DAP were capable of germination but not maturation. A mean germination rate of 97.4% was observed when using embryo rescue, but it was 72.3% with mature seed germinated in soilless substrate typical of commercial production. A similar increase in germination rates was observed for all embryo maturities when compared with seed germinated using soilless substrate. The protocol developed for this study should help to standardize production, reduce propagation time, and improve the commercial acceptance and profitability of milkweed.

Published

2009

45. Genetic Diversity of Seven Deciduous Azalea Species (Rhododendron spp. section Pentanthera) Native to the Eastern United States

Author

Matthew Chappell, Carol D. Robacker, and Tracie M. Jenkins

Subjects

education.field_of_study, Genetic diversity, Ecology, Population, Introgression, Horticulture, Biology, Analysis of molecular variance, Intraspecific competition, Deciduous, Genetic variation, Genetics, education, Azalea

Abstract

Despite the ecologic and economic importance of native deciduous azaleas (Rhododendron L. section Pentanthera G. Don), our understanding of interspecific variation of North American deciduous azalea species comes principally from morphologic studies. Furthermore, little is known concerning intraspecific or interpopulation genetic variation. With ever-increasing loss and fragmentation of native azalea habitat in the eastern United States due to anthropogenic activity, it is imperative that an understanding of natural genetic variation among and within species and populations is acquired. The present study addresses questions of genetic diversity through the use of amplified fragment length polymorphism (AFLP) analysis. Twenty-five populations of seven species of native azalea were analyzed using three primer pairs that amplified a total of 417 bands. Based on analysis of molecular variance (AMOVA) and estimates of Nei's coefficients of gene diversity (H S, H T, and G ST), the majority of variation found in deciduous azalea occurs within populations. Variation both among species and among population was low, likely the effect of common ancestry as well as frequent introgression among members (and populations) of section Pentanthera. The latter was evident in four populations of R. prunifolium (Small) Millais and R. canescens (Michaux) Sweet that were highly related to R. austrinum (Small) Rehder and R. viscosum (L.) Torrey, respectively. Despite these outliers, most populations were grouped into species based on Nei's unbiased genetic distances viewed as an unweighted pair group method with arithmetic mean (UPGMA) phenogram. The significance of these results is discussed in relation to breeding in section Pentanthera.

Published

2008

46. Pruning Leads to Increased Incidence of Freezing Damage in Abelia Hybrids

Author

Carol D. Robacker, Matthew Chappell, and Orville M. Lindstrom

Subjects

Incidence (epidemiology), fungi, Significant difference, Abelia, Horticulture, Environmental Science (miscellaneous), Biology, biology.organism_classification, nervous system, Hardiness (plants), Hardiness zone, Pruning, Cold tolerant, Hybrid

Abstract

North of USDA hardiness zone 7B, abelia suffers from freeze damage. Cultural factors may impact abelia's level of cold hardiness. To determine whether mid-season pruning affects the level of freeze damage, six abelia genotypes were tested in Griffin, GA. Plants were established in replicated field plots in 2001 and on July 3–4, 2003, half the individuals of each genotype were severely pruned. Laboratory freeze tests were conducted monthly on pruned and unpruned plants of each genotype from October 2003 to April 2004. Over the winter, all genotypes with exception of ‘Canyon Creek’ were significantly more cold tolerant in unpruned compared to pruned treatments. Analysis of each month independently revealed a significant difference among genotype-pruning treatment combinations from December 2003 to February 2004. Results for October and November 2003 and March and April 2004 were not significant due to an absence of cold hardiness. These results indicate that mid-season pruning of abelia may significantly reduce cold hardiness and lead to serious stem dieback in pruned plants.

Published

2006

47. Leaf Wax Extracts of Four Deciduous Azalea Genotypes Affect Azalea Lace Bug (Stephanitis pyrioides Scott) Survival Rates and Behavior

Author

Carol D. Robacker and Matthew Chappell

Subjects

Wax, biology, Heteroptera, Horticulture, biology.organism_classification, Tingidae, Epicuticular wax, Deciduous, Ericaceae, visual_art, Botany, Genetics, visual_art.visual_art_medium, Ericales, Azalea

Abstract

Azaleas (Ericales: Ericaceae: Rhododendron L.) are a staple plant in many landscapes of the United States and are largely resistant to predation by insects, with the exception of azalea lace bug [ALB (Heteroptera: Tingidae: Stephanitis pyrioides)]. Within deciduous azalea (Rhododendron: section Pentanthera G. Don) varying levels of resistance to ALB are observed with a continuous distribution from susceptible to highly resistant. In this study, epicuticular leaf wax from two ALB-resistant [R. canescens Michaux and R. periclymenoides (Michaux) Shinners] and two ALB-susceptible (`Buttercup' and `My Mary') deciduous azalea genotypes was extracted and re-applied to fresh azalea foliage. Leaf wax extracted from ALB-resistant genotypes and applied to ALB-susceptible genotypes conferred a high level of resistance to both ALB feeding and oviposition in the treated ALB-susceptible genotypes. Conversely, leaf wax extracted from ALB-susceptible genotypes and applied to ALB-resistant genotypes conferred susceptibility to the treated ALB-resistant genotypes. However, the effect was much less substantial than the effect of resistant wax extracts on susceptible genotypes and confined to ALB oviposition. When applied to the same genotype from which the extract was collected, leaf wax extract from ALB-susceptible genotypes had no effect on susceptibility, whereas resistant wax extract had a moderate effect on ALB oviposition rate. The results indicate that leaf wax serves as a primary mechanism of resistance of deciduous azalea to ALB.

Published

2006

48. Assessing the integrated pest management practices of southeastern US ornamental nursery operations

Author

Frank A. Hale, Steve Frank, Sarah A. White, Winston Dunwell, Kris Braman, Alan S. Windham, Amy Fulcher, Matthew Chappell, Craig Adkins, Jean Williams-Woodward, Juang-Horng Chong, Kelly Ivors, William E. Klingeman, Joseph C. Neal, and Anthony V. LeBude

Subjects

Integrated pest management, Insecta, business.industry, Agriculture, General Medicine, Growing degree-day, Insect Control, Southeastern United States, Biotechnology, Trees, Agricultural science, Intervention (law), Geography, Insect Science, Ornamental plant, Workforce, Animals, Humans, PEST analysis, Natural enemies, business, Agronomy and Crop Science, Augmentative, Plant Diseases

Abstract

BACKGROUND: The Southern Nursery Integrated Pest Management (SNIPM) working group surveyed ornamental nursery crop growers in the southeastern United States to determine their pest management practices. Respondents answered questions about monitoring practices for insects, diseases and weeds, prevention techniques, intervention decisions, concerns about IPM and educational opportunities. Survey respondents were categorized into three groups based on IPM knowledge and pest management practices adopted. RESULTS:Thethreegroupsdifferedintheuseofstandardizedsamplingplansforscoutingpests,inmonitoringtechniques,e.g. sticky cards, phenology and growing degree days, in record-keeping, in the use of spot-spraying and in the number of samples sent to a diagnostic clinic for identification and management recommendation. CONCLUSIONS: Stronger emphasis is needed on deliberate scouting techniques and tools to monitor pest populations to provideearlierpestdetectionandgreaterflexibilityofmanagementoptions.MostrespondentsthoughtthatIPMwaseffective and beneficial for both the environment and employees, but had concerns about the ability of natural enemies to control insectpests,andabouttheavailabilityandeffectivenessofalternativestochemicalcontrols.Researchandfielddemonstration is needed for selecting appropriate natural enemies for augmentative biological control. Two groups utilized cooperative extension almost exclusively, which would be an avenue for educating those respondents. c � 2012 Society of Chemical Industry

Published

2011

49. Monitoring Substrate Water Content in Nurseries: More Efficient Irrigation and Reducing Leaching and Runoff

Author

Marc W. van Iersel, Matthew Chappell, Sheryl Wells, Paul A. Thomas, and John M. Ruter

Subjects

Water conservation, Irrigation, Deficit irrigation, Environmental engineering, Farm water, engineering, Environmental science, Fertilizer, Leaching (agriculture), engineering.material, Surface runoff, Water content

Abstract

Excessive irrigation in nurseries is common and can result in leaching and runoff of fertilizer salts and nutrients and pesticides, especially when plants are grown in containers. One major obstacle to improving irrigation practices in nurseries is that it is difficult for growers to determine exactly when their crops need water and how much water needs to be applied. We have installed a wireless sensor network in a commercial nursery that allows growers to monitor substrate water content. This information can then be used to improve decision-making regarding irrigation frequency and volume. Our results show that soil moisture sensors can be used to track changes in substrate water content, and that the sensors respond quickly to irrigation events. Leaching can be detected from a rapid decrease in substrate water content following irrigation. In a related study, we used soil moisture sensors to control irrigation of container grown hydrangea and gardenia. Irrigation control using soil moisture sensors was deemed practical. Leaching of fertilizer was reduced with more efficient irrigation. Wireless networks have potential for irrigation monitoring and control in container nurseries. Benefits of this technology include water savings, reductions in runoff of agrochemicals, lessening of disease pressure, and ultimately facilitating significant financial savings.

Published

2011

50. Border Patrol: Epicuticular Leaf Wax Mediates Resistance of Azalea Genotypes (Rhododendron spp.) to Azalea Lace Bug [Stephanitis pyrioides (Scott)]

Author

Sherrod Baden, Matthew Chappell, Allen W. Byous, and Carol D. Robacker

Subjects

Wax, Resistance (ecology), visual_art, Botany, visual_art.visual_art_medium, Stephanitis pyrioides, Horticulture, Biology, Azalea

Abstract

Azalea lace bug (ALB) is a significant pest on azalea, with feeding injury causing speckling and discoloration on affected leaves. Feeding damage also results in a reduction of stomatal gas exchange and leaf chlorophyll content, postulated to diminish growth and flowering rates. In azalea, specific lipid components of the plant cuticle have been implicated in ALB resistance of R. canescens. In this study, epicuticular leaf wax was extracted from the leaves of four azalea genotypes, divided into two groups: a resistant group including R. periclymenoides and `Fourth of July' and a susceptible group including R. austrinum and `My Mary'. Leaf wax was extracted and resuspended in solution for application to all entries in a full diallel manner, including controls of solution only and no treatment. Each genotype–solution treatment included 10 replications. The leaf wax solution was applied to each replication (leaf) by painting the solution on one side of the midrib, yet on both abaxial and adaxial surfaces. Two leaves attached to a stem and four female adult ALB were placed in separate 32-mL sealed cups. Experimental conditions were 24 °C and 12-hour daylength for 96 h, at which time the number of live adults, frass spots, and eggs were counted. Data revealed that application of leaf wax solution had an impact on the level of frass and egg deposition by ALB in both resistant and susceptible genotypes. The effect was most pronounced when a solution of resistant genotypes was placed on susceptible genotypes, as the application resulted in lower numbers of frass spots and eggs compared to the nil control. However, an increase in frass and eggs was observed when extract of susceptible genotypes was applied to resistant genotypes.

Published

2005