Life Sciences Commons^™

Corn Response To Competition: Growth Alteration Vs. Yield Limiting Factors, Sharon A. Clay, David E. Clay, D. P. Horvath, J. Pullis, C. Gregg Carlson, Stephanie A. Hansen, Graig Reicks

Agronomy, Horticulture and Plant Science Faculty Publications

Competition mechanisms among adjacent plants are not well understood. This study compared corn growth and yield responses to water, N, and shade at 74,500 plants ha⁻¹ (1×) with responses to water and N when planted at 149,000 plant ha⁻¹ Plant biomass, leaf area, chlorophyll content, reflectance, and enzyme expression (transcriptome analysis) were measured at V-12. Grain and stover yields were measured with grain analyzed for ¹³C isotopic discrimination (Δ) and N concentration. At V-12, 60% shade plants had increased chlorophyll and reduced leaf area and height compared to full sun plants. In the 2× treatment, plants had …

Best Management Practices For Corn Production In South Dakota: Websites With Related Information, David E. Clay, Kurtis D. Reitsma

SDSU Extension Circulars

No abstract provided.

Best Management Practices For Corn Production In South Dakota: Recordkeeping, James A. Wilson, Kurtis D. Reitsma, David E. Clay

SDSU Extension Circulars

Recordkeeping is an important component of all crop production systems. The time that is spent maintaining careful records can help to improve the production, profit, and overall efficiency of the production enterprise. Records provide information needed to identify successes and failures.

Best Management Practices For Corn Production In South Dakota: Corn Drying And Storage, Richard E. Nicolai

SDSU Extension Circulars

The goal for a corn drying and storage system is to maintain grain quality without impeding harvesting or shipping. This chapter describes the factors that influence grain quality, proper handling techniques, drying procedures, storage management, and safety precautions.

Best Management Practices For Corn Production In South Dakota: Corn Grain Harvest, Daniel S. Humberg, Richard E. Nicolai, Kurtis D. Reitsma

SDSU Extension Circulars

Corn (grain) harvest can begin when grain moisture drops below 30%. However, most producers will allow corn to dry in the field until grain moisture is between 18 to 25%. Harvesting corn when grain moisture levels are high can result in excessive drying costs, kernel damage, and harvest loss from improper threshing. Allowing corn to stay in the field too long can result in excess harvest loss from stalk lodging, ear drop, or kernel shattering. An optimal harvest depends not only on the condition of the crop but also on the proper maintenance and adjustment of harvest and grain handling …

Best Management Practices For Corn Production In South Dakota: Corn Insect Pests, Michael A. Catangui, Billy W. Fuller, B. Wade French

SDSU Extension Circulars

Historically, the major corn insect pests have been corn rootworms (northern and western), European corn borer, and black cutworm. Bt-corn hybrids are effective against most of these pests. However, Bt-corn hybrids are not effective against corn leaf aphid, corn root aphid, sap beetles, corn rootworm adults, grasshoppers, white grubs, wireworms, seed corn beetle, and seed corn maggots. These insect pests can reduce corn yields. This chapter discusses the management and biology of important corn insect pests commonly observed in South Dakota.

Best Management Practices For Corn Production In South Dakota: Soil Fertility, David E. Clay, Kurtis D. Reitsma

SDSU Extension Circulars

Corn requires sufficient amounts of at least 14 nutrients for optimal production (fig. 7.1). Soil fertility strategies should consider soil residual plant nutrients, cost of fertilizer relative to the value of corn, and management techniques that increase efficiency.

Best Management Practices For Corn Production In South Dakota: Corn Diseases In South Dakota, Martin A. Draper, Marie A. Langham, Sharon Clay, Bradley E. Ruden

SDSU Extension Circulars

Corn diseases can be separated into 1) seed and seedling diseases, 2) root-infecting nematodes, 3) leaf diseases, 4) rusts, 5) stalk rots, and 6) ear and grain molds. Yield losses can result from diseases directly reducing yields or from harvestability, spoilage, or marketing and/or use issues associated with mycotoxin contamination. See Table 9.1 for corn disease management information. Attention to optimal seed quality, hybrid selection, seed treatments, weed and insect control, crop rotation, soil fertility, irrigation, and prompt harvest can reduce disease impacts. This chapter discusses aspects of recognizing and managing South Dakota corn diseases.

Best Management Practices For Corn Production In South Dakota: Weeds And Herbicide Injury In Corn, Sharon Clay, Mike J. Moechnig

SDSU Extension Circulars

This chapter addresses weed problems and herbicide injuries that commonly occur in South Dakota corn production. Photographs and information are provided to assist producers in managing weed pressure and to help identify herbicide injury symptoms resulting from improper application, unintentional exposure, or adverse environmental conditions.

Best Management Practices For Corn Production In South Dakota: Useful Calculations: Corn Yields And Storage Requirements, Kurtis D. Reitsma, David Clay, Sharon Clay, C. Gregg Calson

SDSU Extension Circulars

No abstract provided.

Best Management Practices For Corn Production In South Dakota, David Clay, Kurtis D. Reitsma, Sharon Clay

SDSU Extension Circulars

Table of Contents:

Introduction [Page] 1

1. Corn Growth and Development [Page] 3

2. Corn Hybrid Selection [Page] 9

3. Corn Planting Guide [Page] 13

4. Seasonal Hazards—Frost, Hail, Drought, and Flooding [Page] 17

5. Tillage, Crop Rotations, and Cover Crops [Page] 21

6. Irrigation and Salt Management [Page] 31

7. Soil Fertility [Page] 39

8. Corn Insect Pests [Page] 49

9. Corn Diseases in South Dakota [Page] 59

10. Weeds and Herbicide Injury in Corn [Page] 71

11. Corn Grain Harvest [Page] 93

12. Corn Drying and Storage [Page] 99

13. Recordkeeping [Page] 107

14. Useful Calculations: Corn Yields …

Best Management Practices For Corn Production In South Dakota: Corn Calendar And Troubleshooting Guide, Kurtis D. Reitsma, Sharon Clay, C. Gregg Calson, David Clay

SDSU Extension Circulars

No abstract provided.

Selection Of Winter Wheat Mutant Lines Resistant To Drought Stress, Brian Kontz, Sean Franklin, Charles Brunel

The Journal of Undergraduate Research

Mutated winter wheat lines were screened for improved drought resistance compared to the wildtype by withholding water for 3 weeks after 9 weeks of normal growth, and noting their responses upon re-watering. Of the 146 mutants grown, 73% were either killed due to water stress or showed poor recovery, while 27% recovered better than the wildtype line. This experiment enabled the selection of candidates for further investigation to better understand the genetic basis of drought tolerance in winter wheat.

Time And Temperature Requirements For Effective Removal Of High Molecular Weight Rna From Winter Wheat Genomic Dna With Licl, Benjamin Meyerink, Ryan Geraets

The Journal of Undergraduate Research

Numerous protocols are available for the isolation of plant genomic DNA. Often times, these protocols utilize a wide variety of solutions. The primary purpose of this project was to examine the use of LiCl for the removal of RNA contaminants within genomic DNA samples and its dependency on incubation time and temperature. Our results indicate that LiCl is sufficient for the removal of high molecular weight RNA contaminants from genomic DNA. In addition, our results illustrate varying incubation times with LiCl yield minimal differences in the recovery of genomic DNA and the removal of RNA contaminants. Alternatively, different incubation temperatures …