Your search keyword '"FIELD crops"' showing total 18 results

1. Crop Producer. Ohio's Competency Analysis Profile.

Author

Ohio State Univ., Columbus. Vocational Instructional Materials Lab.

Abstract

This comprehensive and verified employer competency list was developed from a modified DACUM (Developing a Curriculum) process involving business, industry, labor, and community agency representatives from Ohio. This competency list contains six units (with or without subunits), competencies, and competency builders that identify the occupational, academic, and employability skills needed to enter the agricultural business as a crop producer. Within the outline are three levels of items: core (required, the basis for state vocational competency tests); advancing (needed to advance in an occupation); and futuring (needed to enter and remain in a given occupation 3 to 4 years from now). The units cover the following: (1) general safety precautions; (2) crop production; (3) agricultural mechanics; (4) business management; (5) marketing; and (6) employability skills. (KC)

Published

1991

2. CURRICULUM MATERIALS, DESCRIPTION AND PRICE LIST OF MATERIALS DEVELOPED BY THE OHIO VOCATIONAL AGRICULTURE CURRICULUM MATERIALS SERVICE.

Author

Ohio Vocational Agriculture Instructional Materials Service, Columbus.

Abstract

PAMPHLETS, SLIDES, TAPES, MANUALS, AND AN EXAMINATION ARE INCLUDED IN THIS CATALOG OF INSTRUCTIONAL MATERIALS FOR USE BY VOCATIONAL AGRICULTURE TEACHERS IN HIGH SCHOOL AND ADULT FARMER PROGRAMS. THE MATERIALS WERE DEVELOPED BY VOCATIONAL AGRICULTURE TEACHERS, CURRICULUM SPECIALISTS, TECHNICAL SPECIALISTS, AND AUDIOVISUAL PERSONNEL AND ARE CATEGORIZED UNDER FIELD CROPS, HORTICULTURE, ANIMAL SCIENCE, SOILS, AGRICULTURAL ENGINEERING, AGRICULTURAL ECONOMICS, FARMING PROGRAMS, CURRICULUM GUIDES, AND CAREERS. EACH ENTRY CONTAINS THE TITLE AGDEX CODE, DATE, PAGINATION, DESCRIPTION, AND PRICE. AN ORDER FORM IS INCLUDED. COPIES OF THIS DOCUMENT ARE AVAILABLE WITHOUT CHARGE FROM OHIO VOCATIONAL AGRICULTURE, INSTRUCTIONAL MATERIALS SERVICE, THE OHIO STATE UNIVERSITY, 2120 FYFFE ROAD, COLUMBUS, OHIO 43210. (JM)

Published

1968

3. Ohio grain crop response to sulfur fertilization.

Author

Fleuridor, Louceline, Fulford, Anthony, Lindsey, Laura E., Lentz, Ed, Watters, Harold, Dorrance, Anne, Minyo, Richard, Richer, Erich, Chaganti, Vijayasatya, Subburayalu, Sakthi, and Culman, Steven W.

Subjects

GRAIN yields, SOIL management, AGRICULTURAL productivity, FIELD crops, HARVESTING, SOYBEAN, WHEAT

Abstract

Continuous declines in atmospheric sulfur (S) deposition along with increased S removal rates with crop harvest has the potential to lead to S deficiency in Ohio field crops. As a result, S fertilization has become more common over the past decade. However, the extent of S deficiency is unknown, as inherent soil properties and management practices influence S availability and uptake. We conducted 96 replicated trials, from 2013 to 2021 to (1) examine the response of corn (Zea mays L.), soybean [Glycine max (L.) Merr], and wheat (Triticum aestivum L.) to S application on a wide range of Ohio soils and differing management practices and (2) determine the ability of Mehlich‐3 extractable S in soil, leaf S, and grain S concentrations to predict grain yield response to S fertilizer. Our results showed limited grain yield increases to S fertilization with an overall response rate of 7.3% (4 of 50 corn trials, 3 of 34 soybean trials, and 0 of 12 wheat trials). Sulfur fertilization increased leaf and grain S concentrations by 19.4% and 12% in corn, by 22.2% and 7.7% in soybean, and by 41.7% and 0% in wheat, respectively. These increases in leaf or grain S concentrations were not directly related to yield responses. Diagnostic tools of Mehlich‐3 soil S, leaf S, and grain S concentrations failed to predict yield response to S. We conclude that S deficiency is not widespread in Ohio soils and that optimizing grain crop production does not currently require S fertilization. Core Ideas: Sulfur (S) response trials were conducted in 27 counties in Ohio from 2013 to 2021.S fertilization increased grain yield in only seven out of 96 trials.S fertilization was likely to increase leaf and grain S concentrations.Tissue S and grain S concentrations failed to predict grain yield responses.Environments where S response occurred were not consistent. [ABSTRACT FROM AUTHOR]

Published

2023

4. Field Sampling Methods for Asiatic Garden Beetle (Coleoptera: Scarabaeidae) Adult Movement and Flight in the Great Lakes Region.

Author

Pekarcik, Adrian J., Raudenbush, Amy L., Akred, Kyle J., Richer, Eric, and Tilmon, Kelley J.

Subjects

*SCARABAEIDAE, *BEETLES, *PITFALL traps, *SAMPLING methods, *ETHYLENE glycol, *PHEROMONE traps

Abstract

The Asiatic garden beetle, Maladera formosae (Brenske) (Coleoptera: Scarabaeidae), was introduced into the US in 1921 and recently has become a significant early-season pest of field corn in Ohio, Indiana, and Michigan, USA. Adults emerge from the soil in mid-summer, feed, mate, and lay eggs in the crop soil. Although adult feeding causes no apparent damage in field crops, these beetles are responsible for laying eggs that hatch into the grubs that overwinter and feed on corn the following spring. The objective of this study was to evaluate sampling methods used for other annual white grub species for their efficacy with M. formosae adults in a corn-soybean production system. We performed 2 experiments to first evaluate pitfall traps and sticky cards for sampling beetle emergence, then evaluate antifreeze milkjug traps and blacklight traps for sampling beetle flight. Pitfall traps were effective at capturing beetles, but not sticky cards. Peak abundance was observed between 28 Jun and 5 Jul. Flying adults were predominately attracted to the blacklight trap and nearly 100 times more adults were trapped in the blacklight compared to the milkjug traps. Flying beetles were more attracted to milkjug traps containing propylene glycol antifreeze than water or ethylene glycol antifreeze. These findings may provide economical tools for monitoring adult flight movement and flight. El escarabajo asiático de jardín, Maladera formosae (Brenske) (Coleoptera: Scarabaeidae), se introdujo en los EE. UU. en 1921 y recientemente se ha convertido en una plaga importante de la época temprana del maíz en Ohio, Indiana, y Michigan, EE. UU. Los adultos emergen del suelo en el medio del verano, se alimentan, se aparean y ponen huevos en el suelo de cultivo. Aunque la alimentación de los adultos no causa daños aparentes en los cultivos de campo, estos escarabajos son responsables de poner huevos que se convierten en larvas que pasan el invierno y se alimentan del maíz en la primavera siguiente. El objetivo de este estudio fue evaluar la eficacia de los métodos de muestreo utilizados para otras especies anuales de gallina ciega sobre los adultos de M. formosae en un sistema de producción de maíz y soja. Realizamos dos experimentos para evaluar primero las trampas de caída y las tarjetas adhesivas para muestrear la emergencia de escarabajos, luego evaluar las trampas de leche anticongelante y las trampas de luz negra para muestrear el vuelo de los escarabajos. Las trampas de caída fueron efectivas para capturar escarabajos, pero no las tarjetas adhesivas. Se observó la abundancia máxima entre el 28 de junio y el 5 de julio. Los adultos voladores se sintieron atraídos predominantemente por la trampa de luz negra y casi 100 veces más adultos quedaron atrapados en la luz negra en comparación con las trampas de jarras de leche. Los escarabajos voladores fueron más atraídos por las trampas de jarras de leche que contenían anticongelante de propilenglicol que el agua o el anticongelante de etilenglicol. Estos hallazgos pueden proporcionar herramientas económicas para monitorear el vuelo y el movimiento de los adultos. [ABSTRACT FROM AUTHOR]

Published

2023

5. Soil degradation and crop yield declines persist 5 years after pipeline installations.

Author

Brehm, Theresa and Culman, Steve

Subjects

*SOIL degradation, *CROP yields, *UNDERGROUND pipelines, *SOYBEAN, *FIELD crops, *SOIL corrosion

Abstract

Degradation of natural resources, including increased soil compaction, soil horizon mixing, and decreased crop yields have been common outcomes of underground pipeline installation. However, most of the research documenting the impacts of pipeline installation on soil and crops was conducted before contemporary best management practices were developed and implemented. The objective of this study was to evaluate the impact of pipeline installation on soils and field crops after a 4‐ to 5‐year remediation period, coinciding with the end of landowner compensation and when sites are considered fully remediated by pipeline companies. We report soil properties and corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] yields from three independently operated pipelines at 29 sites across 8 Ohio counties. We observed significant degradation in soil physical properties, such as surface penetration resistance (15.3% increase) and mean weight diameter of soil aggregates (13.6% decrease) in right‐of‐way (ROW) areas compared with adjacent (ADJ) areas, respectively. Soils in ROW showed evidence of soil horizon mixing, with 25.0 g kg−1 higher clay compared with ADJ areas. Soil degradation resulted in decreases of 23.8% and 19.5% in corn yields and 7.4% and 12.5% in soybean yields during 2020 and 2021, respectively. Widespread disturbance persisted 5 years following pipeline installation in soil physical, chemical, and biological properties. Current best management practices of pipeline installation and remediation employed by three companies were insufficient to combat widespread soil degradation and crop yield loss. Core Ideas: Three underground pipelines were evaluated within 5 years of installation in Ohio at 29 farms.Soil degradation persisted after the remediation period, particularly with soil physical properties.Corn yields were 23.8% and 19.5% lower over pipeline right‐of‐way (ROW) areas in 2020 and 2021, respectively.Soybean yields were 7.4% and 12.6% lower over pipeline ROW areas in 2020 and 2021, respectively.Pipeline installation and remediation best management practices were insufficient to prevent soil degradation. [ABSTRACT FROM AUTHOR]

Published

2023

6. Defoliation level and timing affect popcorn yield traits in the Midwestern United States.

Author

de Vasconcelos Gomes, Victor Emmanuel, Lee, Corinne, Lindsey, Alexander, Novais, Wanderson, Koirala, Nasib, Zarnstorff, Mark, Houx, James, McMechan, Justin, Ortez, Osler, and Knoell, Elliot

Subjects

*DEFOLIATION, *POPCORN, *LEAF area, *PLANT populations, *CROP insurance, *FIELD crops

Abstract

Popcorn [ Zea mays (L.) var. Everta] is an important field crop in the Midwestern United States. However, hailstorms are a major threat to ensuring high yield because of their effects on leaf photosynthesis, pollination, and stalk lodging. A multi-state study spanning six site-years (2020–2023) was conducted in two locations (Ohio and Nebraska) to determine how defoliation intensity at different stages affects yield loss in popcorn and compare these losses with current values in the National Crop Insurance Service (NCIS) Corn Loss Instructions. At each location the study was conducted in a randomized complete block design with four replicates. The treatments consisted of the combination of four levels of leaf loss (25, 50, 75 and 100 % leaf blade area removal) imposed at five developmental stages: V8 (10-leaf), V13 (15-leaf), VT, R2, and R4. The evaluated traits were plant population, grain yield, stalk lodging, and 100-kernel weight. All evaluated traits were affected by defoliation, except plant population. The treatments 100 % defoliation at VT and R2 stages were the most damaging in terms of grain yield reduction, number of ears per plant and 100-kernel weight for both locations. In Ohio, the greatest stalk lodging was observed at 100 %-R2 and in Nebraska, at 75 %-VT. For both locations, the actual yield losses in the defoliated treatments were lower than values currently listed in the NCIS Popcorn Leaf Loss Chart. These results indicate leaf loss chart values should be updated to accurately reflect yield losses from popcorn defoliation events. This evaluation did not impose damage to stalks (e.g., bruising) or to plant whorls as may be expected in natural events. Future research should incorporate other forms of plant damage such as those described to provide a better emulation of hail damage. • Popcorn plants are most sensitive to defoliation at the VT stage. • Yield losses can exceed 90 % when leaf loss is 100 % at the VT stage. • Yield loss estimates in loss instructions are similar or greater to those observed. [ABSTRACT FROM AUTHOR]

Published

2024

7. Picarbutrazox Effectiveness Added to a Seed Treatment Mixture for Management of Oomycetes that Impact Soybean in Ohio.

Author

Dorrance AE, Vargas A, Navarro-Acevedo K, Wijertatne S, Myers J, and Paredes JA

Subjects

Ohio, Rhizosphere, Glycine max microbiology, Fungicides, Industrial pharmacology, Plant Diseases prevention & control, Plant Diseases microbiology, Plant Diseases parasitology, Seeds microbiology, Oomycetes drug effects

Abstract

None of the current oomycota fungicides are effective towards all species of Phytophthora , Phytopythium , Globisporangium , and Pythium that affect soybean seed and seedlings in Ohio. Picarbutrazox is a new oomyceticide with a novel mode of action towards oomycete pathogens. Our objectives were to evaluate picarbutrazox to determine (i) baseline sensitivity (EC 50 ) to 189 isolates of 29 species, (ii) the efficacy with a base seed treatment with three cultivars with different levels of resistance in 14 field environments; and (iii) if the rhizosphere microbiome was affected by the addition of the seed treatment on a moderately susceptible cultivar. The mycelial growth of all isolates was inhibited beginning at 0.001 μg, and the EC 50 ranged from 0.0013 to 0.0483 μg of active ingredient (a.i.)/ml. The effect of seed treatment was significantly different for plant population and yield in eight of 14 and six of 12 environments, respectively. The addition of picarbutrazox at 1 and 2.5 g of a.i./100 kg seed to the base seed treatment compared to the base alone was associated with higher plant populations and yield in three and one environments, respectively. There was limited impact of the seed treatment mefenoxam 7.5 g of a.i. plus picarbutrazox 1 g of a.i./100 kg seed on the oomycetes detected in the rhizosphere of soybean seedlings collected at the V1 growth stage. Picarbutrazox has efficacy towards a wider range of oomycetes that cause disease on soybean, and this will be another oomyceticide tool to combat early season damping-off in areas where environmental conditions highly favor disease development., Competing Interests: The author(s) declare no conflict of interest.

Published

2024

8. Do soil test levels and fertilization with phosphorus and potassium impact field crop tissue concentrations?

Author

Zone, Phoo Pye, Culman, Steve W., Haden, Van R., Lindsey, Laura E., Fulford, Anthony M., and Zhao, Kaiguang

Subjects

FIELD crops, SOIL testing, WHEAT, SOYBEAN, CORN, PLANT fertilization

Abstract

Soil testing and plant tissue nutrient concentrations form the basis for fertilizer recommendations in Ohio. The response of crop phosphorus (P) and potassium (K) nutrient concentrations to soil test levels and fertilizer applications influences fertilizer recommendations but have not been rigorously evaluated in this region. The objective of our study was to determine the effects of (a) soil test P and K levels and (b) P and K fertilization on mid‐season leaf and grain P and K concentrations of corn (Zea mays L.), soybean [Glycine max (L.) Merr.], and wheat (Triticum aestivum L.). From 2014–2018, we conducted 186 on‐farm trials (99 P, 87 K trials) over a diversity of soil types, crop genetics, and management histories in 39 counties throughout Ohio. Soil test P and K levels, mid‐season leaf P and K concentrations, and grain P and K concentrations were measured on randomized and replicated plots. Both leaf and grain nutrient concentrations generally increased with the soil test levels, but the relationships were weak in all three crops. Fertilization of P and K marginally but consistently increased leaf tissue concentrations in all crops but had a lesser effect on grain P and K concentrations. Our data suggest that current sufficiency ranges for corn, soybean, and wheat are too high and need revision. Collectively, our results show that crop P and K tissue concentrations are positively, but weakly related to soil test levels and fertilization, and this information has important implications for future development of nutrient management frameworks in Ohio. [ABSTRACT FROM AUTHOR]

Published

2020

9. Legacy phosphorus concentration–discharge relationships in surface runoff and tile drainage from Ohio crop fields.

Author

Osterholz, William R., Hanrahan, Brittany R., and King, Kevin W.

Subjects

FIELD crops, DRAINAGE, ALGAL blooms, TILES, WATER, PHOSPHORUS, RUNOFF, PHOSPHORUS cycle (Biogeochemistry)

Abstract

Legacy phosphorus (P) in agricultural soils can be transported to surface waters via runoff and tile drainage, where it contributes to the development of harmful and nuisance algal blooms and hypoxia. However, a limited understanding of legacy P loss dynamics impedes the identification of mitigation strategies. Edge‐of‐field data from 41 agricultural fields in northwestern Ohio, USA, were used to develop regressions between legacy P concentrations (C) and discharge (Q) for two P fractions: total P (TP) and dissolved reactive P (DRP). Tile drainage TP concentration (CTP) and DRP concentration (CDRP) both increased as Q increased, and CTP tended to increase at a greater rate than CDRP. Surface runoff showed greater variation in C–Q regressions, indicating that the response of TP and DRP to elevated Q was field specific. The relative variability of C and Q was explored using a ratio of CVs (CVC/CVQ), which indicated that tile drainage TP and DRP losses were chemodynamic, whereas losses via surface runoff demonstrated both chemodynamic and chemostatic behavior. The chemodynamic behavior indicated that legacy P losses were strongly influenced by variation in P source availability and transport pathways. In addition, legacy P source size influenced C, as demonstrated by a positive relationship between soil‐test P and the CTP and CDRP in both tile drainage and surface runoff. Progress towards legacy P mitigation will require further characterization of the drivers of variability in CTP and CDRP, including weather‐, soil‐, and management‐related factors. [ABSTRACT FROM AUTHOR]

Published

2020

10. Virulence Phenotypes of the Wheat Leaf Rust Pathogen, Puccinia triticina , in the United States from 2018 to 2020.

Author

Kolmer JA and Fajolu O

Subjects

Ohio, Phenotype, Puccinia, Triticum microbiology, United States, Virulence genetics, Basidiomycota genetics, Plant Diseases microbiology

Abstract

Collections of wheat leaves infected with the leaf rust fungus, Puccinia triticina , were obtained from the southeastern states, the Ohio Valley, the Great Plains, and Washington in 2018, 2019, and 2020 to determine the prevalent virulence phenotypes in the wheat-growing regions of the United States. In the hard red winter wheat region of the southern and mid Great Plains, MNPSD and MPPSD were the two most common phenotypes in 2018 and 2019. In 2020, BBBQD with high virulence to durum wheat was the most common phenotype in the southern Great Plains. In the hard red spring wheat region of the northern Great Plains, MNPSD, MPPSD, MBDSD, and TBBGS were the predominant phenotypes. In the soft red winter wheat region of the southeastern states and Ohio Valley region, MBTNB, MCTNB, and MNPSD were the three most common phenotypes. Collections in Washington had phenotypes LBDSG, LCDSG, LCDJG, and MBDSB that were not found in any other region. Isolates with virulence to the leaf rust resistance ( Lr ) gene Lr11 were most frequent in the southeastern states and Ohio Valley regions. The frequency of isolates with virulence to the Lr39 gene was highest in the Great Plains region and frequency of isolates with virulence to the Lr21 gene was highest in the northern Great Plains region. Selection of virulence phenotypes by Lr genes in the different market classes of wheat, combined with the effects of clonal reproduction, overwintering in southern regions, and low migration between the Great Plains region and eastern wheat-producing regions, has maintained the different P . triticina populations in the United States.

Published

2022

11. Select Nontarget Arthropod Abundance in Transgenic and Nontransgenic Field Crops in Ohio.

Author

Jasinski, James R., Eisley, James B., Young, Curtis E., Kovach, Joseph, and Willson, Harold

Subjects

ARTHROPODA, FIELD crops

Abstract

Nontarget arthropod populations were monitored in both transgenic and nontransgenic corn and soybean fields in western and central Ohio. A total of 24 fields, 12 eom and 12 soybean, were inspected weekly from late June through mid August. Half of the cornfields were Bacillus thuringiensis (Bt) hybrids and half of the soybean fields were Roundup Beady (BB). Sweep net samples in soybean fields and unbaited Pheroeon AM yellow sticky traps in both soybean and cornfields were used to collect nontarget arthropods. Soil samples were also taken from all 24 fields to compare soil mite populations. A select group of 15 readily identifiable arthropods composed mainly of beneficial insects commonly found in field crops, were recorded in weekly sweep net and sticky trap samples for later analysis. Sweep net data from soybean fields revealed no significant differences in nontarget arthropods. Yellow sticky trap data from soybean and eom fields found significantly more green lacewing adults (Chrysopa spp.) in six pooled non-RR soybean fields, significantly more rove beetles in one non-Bt cornfield, and significantly more Orius spp. in one Bt cornfield. There were also significantly more soil inhabiting mites at one non-RR soybean field. Based on the abundance of these arthropod populations in paired transgenic and nontransgenic fields, few negative effects on the 15 nontarget arthropods selected can be directly associated with transgenic soybean and corn crops in Ohio. [ABSTRACT FROM AUTHOR]

Published

2003

12. Natural Occurrence of Maize Gibberella Ear Rot and Contamination of Grain with Mycotoxins in Association with Weather Variables.

Author

Dalla Lana F, Madden LV, and Paul PA

Subjects

Food Contamination analysis, Ohio, Weather, Zea mays, Gibberella, Mycotoxins

Abstract

Gibberella ear rot (GER) severity (percent area of the ear diseased) and associated grain contamination with mycotoxins were quantified in plots of 15 to 16 maize hybrids planted at 10 Ohio locations from 2015 to 2018. Deoxynivalenol (DON) was quantified in grain samples in all 4 years, whereas nivalenol, 3-acetyldeoxynivalenol, and 15-acetyldeoxynivalenol (15ADON) were quantified only in the last 2 years. Only DON and 15ADON were detected. The highest levels of GER and DON contamination were observed for 2018, followed by 2016 and 2017. No GER symptoms or DON were detected in 2015. Approximately 41% of the samples from asymptomatic ears had detectable levels of DON, and 7% of these samples from 2016 had DON > 5 ppm. Associations between DON contamination and 43 variables representing summaries of temperature (T), relative humidity (RH), rainfall (R), surface wetness, and T-RH combinations for different window lengths and positions relative to R1 growth stage were quantified with Spearman correlation coefficients ( r ). Fifteen-day window lengths tended to show the highest correlations. Most of the variables based on T, R, RH, and T-RH were significantly correlated with DON for the 15-day window, as well as other windows. For moisture-related variables, there generally was a negative correlation before R1, changing to a positive correlation after R1. Results showed that GER and DON can be frequently found in Ohio maize fields, with the risk of DON being associated with multiple weather variables, particularly those representing combinations of T between 15 and 30°C and RH > 80 summarized during the 3 weeks after R1.

Published

2021

13. Occurrence and High-Throughput Sequencing of Viruses in Ohio Wheat.

Author

Hodge BA, Paul PA, and Stewart LR

Subjects

Edible Grain, High-Throughput Nucleotide Sequencing, Ohio, United States, Luteovirus, Plant Diseases

Abstract

Ohio is a leading producer of soft red winter wheat in the United States. Many viruses impact wheat production, but there is a lack of contemporary information on the distribution and potential impact of wheat viruses in Ohio. To address this knowledge gap, we created a comprehensive dataset of viruses identified by high-throughput sequencing (HTS) and their incidence in field sites sampled across the state. Samples were collected from 103 field sites in surveys conducted in 2012, 2016, and 2017 and subjected to RNA HTS, reverse transcription (RT) PCR, or enzyme-linked immunosorbent assay to assess virus sequence diversity, prevalence, and incidence within fields. Partial and complete virus sequences were assembled and detection validated by RT-PCR. Assembled sequences were compared with previously known virus sequences, and novel sequences were validated by Sanger sequencing. The viruses detected most often included barley yellow dwarf virus (BYDV), cereal yellow dwarf virus (CYDV), wheat streak mosaic virus (WSMV), and wheat spindle streak mosaic virus (WSSMV). These viruses were detected at 67, 69, 55, and 28% of the field sites sampled, with mean incidences of 18, 19, 20, and 49%, respectively, within fields where they were detected. Brome mosaic virus (BMV) and cocksfoot mottle virus (CfMV) were also viruses of potential importance detected in Ohio, found in 26 and 17% of the field sites sampled, respectively. Based on results from logistic regression analyses, the presence of BYDV, CYDV, WSMV, and WSSMV was associated with the presence of volunteer wheat, BYDV and CfMV with monocots as the previous crop, and BMV with the presence of nearby corn fields ( P < 0.10). For six viruses, there was evidence of spatial clustering in at least one field site and the variance of mean incidence was higher at the county level than at the regional spatial level. This finding suggests that county- and site-specific factors influenced the incidence and spatial pattern of some viruses. The results of this study provide a snapshot of viruses present in Ohio wheat and insights into their biology, potential risks to wheat production, and possible management strategies.

Published

2020

14. The Efficacy of Ethaboxam as a Soybean Seed Treatment Toward Phytophthora , Phytopythium , and Pythium in Ohio.

Author

Scott K, Eyre M, McDuffee D, and Dorrance AE

Subjects

Ohio, Plant Diseases, Seeds, Glycine max, Thiazoles, Thiophenes, Phytophthora, Pythium

Abstract

Phytophthora , Phytopythium , and Pythium species that cause early-season seed decay and pre-emergence and post-emergence damping off of soybean are most commonly managed with seed treatments. The phenylamide fungicides metalaxyl and mefenoxam, and ethaboxam are effective toward some but not all species. The primary objective of this study was to evaluate the efficacy of ethaboxam in fungicide mixtures and compare those with other fungicides as seed treatments to protect soybean against Pythium , Phytopythium , and Phytophthora species in both high-disease field environments and laboratory seed plate assays. The second objective was to evaluate these seed treatment mixtures on cultivars that have varying levels and combinations of resistance to these soilborne pathogens. Five of eight environments received adequate precipitation in the 14 days after planting for high levels of seedling disease development and treatment evaluations. Three environments had significantly greater stands, and three had significantly greater yield when ethaboxam was used in the seed treatment mixture compared with treatments containing metalaxyl or mefenoxam alone. Three fungicide formulations significantly reduced disease severity compared with nontreated in the seed plate assay for 17 species. However, the combination of ethaboxam plus metalaxyl in a mixture was more effective than either fungicide alone against some Pythium and Phytopythium species. Overall, our results indicate that the addition of ethaboxam to a fungicide seed treatment is effective in reducing seed rot caused by these pathogens commonly isolated from soybean in Ohio but that these effects can be masked when cultivars with resistance are planted.

Published

2020

15. Wet weather putting a scare into Ohio's pumpkin growers.

Author

Vanac, Mary

Subjects

PUMPKINS, WEATHER, FIELD crops, CASH crops

Abstract

Near-record amounts of rain in late spring may have cast an evil spell on Ohio's harvest of bright orange jack-o'-lanterns this year. For Krieger's Health Foods Market in Cuyahoga Falls, the Ohio pumpkin harvest is a bit iffy. [Extracted from the article]

Published

2019

16. Registration of 'Ohio FG3' Soybean.

Author

St. Martin, S.K., Mills, G.R., Fioritto, R.J., McIntyre, S.A., Dorrance, A.E., and Cooper, R.L.

Subjects

*FORAGE plants, *SOYBEAN, *FIELD crops, *CROP science, *FARM produce

Abstract

Presents information on the 'Ohio FG3' soybean. Development by the Ohio Agricultural Research and Development Center; Release for the food-type market in August 2001 due to its high seed yield; Genetic resistance to Phytophthora root and stem rot.

Published

2004

17. Back To The Land.

Author

Drotleff, Laura

Subjects

*FARM produce, *FOOD crops, *TOURISM, *FIELD crops

Abstract

The article provides information on Our Ohio, an initiative sponsored by the Ohio Farm Bureau Federation (OFBF). The initiative aims to connect the state's residents with the stewards of its land by promoting agricultural products and tourism in Ohio. Our Ohio was launched in 2005 with the tagline "Grow It. Know It. Live It."

Published

2007

18. Corn Brio.

Author

Fleming, Lee

Subjects

FARMS, OHIO description & travel, FIELD crops, CORNCOBS, OSAGE orange

Abstract

The article presents information about the Field of Corn, the field of life-sized corncobs rising in a Dublin, Ohio, park. When artist Malcolm Cochran saw the site, the 1.5-acre plot segregated from nearby corporate headquarters buildings by two roads had a single distinguishing characteristic, a short row of mature Osage orange trees planted in the 19th century. Furthermore, Cochran's 109 concrete corncobs are the most striking aspect of the park but not the only visual punctuation.

Published

1995