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1999 Corn Performance Tests (RR 661) Corn performance trials were conducted at six locations throughout Georgia in 1999. Short-season, mid-season, and full-season hybrids were planted at Tifton, Plains, and Midville in the coastal plain region, at Griffin in the Piedmont region, at Calhoun in the limestone valley region, and at Blairsville in the mountain region. High oil corn hybrids were tested at Tifton and Plains. Hybrids used fo…

2000 Corn Performance Tests (RR 668) Corn performance trials were conducted at six locations throughout Georgia and two locations in Florida in 2000. Short-season, mid-season, and full-season hybrids were planted at Tifton, Plains, and Midville in the coastal plain region, at Griffin in the Piedmont region, at Calhoun in the limestone valley region, at Blairsville in the mountain region, and at Quincy and Jay in the panhandle region …

2001 Corn Performance Tests (RR 675) Corn performance trials were conducted at six locations throughout Georgia and two locations in Florida in 2001. Short-season, mid-season and full-season hybrids were planted at Tifton, Plains and Midville in the coastal plain region, at Griffin in the Piedmont region, at Calhoun in the limestone valley region, at Blairsville in the mountain region and at Quincy and Jay in the panhandle region of …

2010 Georgia Corn Performance Tests (AP 101-2) This publication includes the results of the 2010 corn performance trials. Corn performance trials were conducted at six locations throughout Georgia in 2010. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in the Mountain region. Hybrids us…

2011 Georgia Corn Performance Tests (AP 101-3) In this research report, the results of the 2011 corn performance trials are presented. Corn performance trials were conducted at six locations throughout Georgia (see map inside back cover) in 2011. Short-season and mid-season hybrids were planted at Tifton, Plains and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region and at Blairsv…

2012 Georgia Corn Performance Tests (AP 101-4) In this research report, the results of the 2012 corn performance trials are presented. Corn performance trials were conducted at six locations throughout Georgia in 2012. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in the Mountain regio…

2013 Georgia Corn Performance Tests (AP 101-5) In this research report, the results of the 2013 corn performance trials are presented. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region; at Griffin in the Piedmont region; at Calhoun in the Limestone Valley region; and at Blairsville in the Mountain region. Hybrids used for silage were evaluated at Tifton, Griffin, Calhoun, and Blairsvil…

2013 Vegetable Crops Research Report (AP 113) This publication contains a report of research trials done on vegetable crops in Georgia in 2013.

2014 Georgia Corn Performance Tests (AP 101-6) In this research report, the results of the 2014 corn performance trials are presented. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region; at Griffin in the Piedmont region; at Calhoun in the Limestone Valley region; and at Blairsville in the Mountain region. Hybrids used for silage were evaluated at Tifton, Griffin, Calhoun, and Blairsvil…

2014/2015 Vegetable Crop Variety Trial and Research Report (AP 115) This publication is a report of research and Cooperative Extension trials conducted on cole crops, beans and peas, sweet corn, cucurbits, peppers, and tomato at the University of Georgia College of Agricultural and Environmental Sciences.

2015 Georgia Corn Performance Tests (AP 101-7) In this research report, the results of the 2015 corn performance trials are presented. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in the Mountain region. Hybrids used for silage were evaluated at Tifton, Griffin, Calhoun, and Blairsvil…

2016 Georgia Corn Performance Tests (AP 101-8) In this research report, the results of the 2016 corn performance trials are presented. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in the Mountain region. Hybrids used for silage were evaluated at Tifton, Griffin, Calhoun, and Blairsvil…

2018 Georgia Corn Performance Tests (AP 101-10) This research report presents the results of the 2018 corn performance trials. Corn performance trials were conducted at six locations throughout Georgia (see map inside back cover) in 2018. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Athens in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in …

2019 Corn, Sorghum Grain and Silage, and Summer Annual Forages Performance Tests (AP 101-11) This research report presents the results of the 2019 corn, sorghum and summer annual forage performance trials. Trials were conducted at seven locations throughout Georgia, depending on the crop. These included Tifton, Plains, and Midville in the Coastal Plain region, Athens and Griffin in the Piedmont region, Calhoun in the Limestone Valley region, and Blairsville in the Mountain region. Hybrids…

2023 Georgia Ag Forecast Series: 2023 Corn, Soybean, and Wheat Outlook (AP 130-1-06) 1. The Russia-Ukraine war and Mexico’s plan to ban genetically modified corn from the United States will increase uncertainty regarding corn prices. 2. The United States and the world will continue to have a tight wheat supply in 2023, supporting higher than average wheat prices. 3. The low ending stocks of U.S. soybeans indicate the need for more soybeans. Ending stocks might improve in 2023, lea…

2024 Georgia Ag Forecast Series: 2024 Corn, Soybean, and Wheat Outlook (AP 130-2-06) 1. Tighter margins are expected in 2024 for corn, soybeans, and wheat as commodity prices are forecast to be lower and input prices are expected to be flat. 2. Growing demand for sustainable biodiesel fuels will slow soybean price declines relative to the decline in corn prices. 3. Expect more acres planted to soybeans and fewer acres planted to corn and wheat.

Corn Production Safety and Health for Farmers (B 1333) This publication addresses safety issues inherent to corn production before and during a corn production season. We have divided safety issues into General Health and Safety, Corn Harvest, Corn Grain Bin, and Augers. Safety tips are presented that should be reviewed by anyone involved with corn production on the farm.

Georgia 2017 Corn Performance Tests (AP 101-9) In this research report, the results of the 2017 corn performance trials are presented. Short-season and mid-season hybrids were planted at Tifton, Plains, and Midville in the Coastal Plain region, at Griffin in the Piedmont region, at Calhoun in the Limestone Valley region, and at Blairsville in the Mountain region. Hybrids used for silage were evaluated at Tifton, Griffin, Calhoun, and Blairsvil…

Georgia Corn Diagnostic Guide (B 1221) The field is a complex environment with many factors that can interact to influence the growth of a corn plant. These factors can be living in the form of insects, diseases, nematodes and weeds; or, they can be non-living such as weather, nutrients or chemicals. In the proper combination of factors, corn can produce more than 200 bushels per acre in the Southeast; or in a totally unfavorable combi…

Home Garden Series: Growing Home Garden Sweet Corn (C 905) Sweet corn is not difficult to grow and, by following the cultural guidelines provided in this publication, you too can enjoy this sweet delicacy.

Irrigation Reference Guide for Corn, Cotton, Peanuts, and Soybeans (C 1189) A farm’s return on investment is directly affected by the way water is applied to its crops. The wrong end-gun settings can result in overwatering or underwatering large portions of field acres. Clogged or partially clogged nozzles lead to obvious water shortages that can be visually observed or measured using yield monitors. Systems not properly checked and maintained can lead to significant loss…

Measuring Field Losses from Grain Combines (B 973) Harvest losses can rob you of profit from grain and bean production. Harvest losses of 10 percent or more are not unusual, when they should be in the 2 to 4 percent range. If you do not check losses behind your combine, you have no idea what the losses are and where they occur during harvesting. The following procedure outlines how to measure losses during harvest. It also shows you where the loss…

Reducing Aflatoxin in Corn During Harvest and Storage (B 1231) Aflatoxin is a naturally occurring toxin produced by the fungus Aspergillus flavus. The fungus can be recognized by a gray-green or yellow-green mold growing on corn kernels in the field or in storage. Plant stress due to drought, heat or insect damage during fungus growth usually increases aflatoxin levels. Aflatoxin contamination will reduce feeding value and hinder sales. Because it is extremel…

Shipper Sweet Corn in Southern Georgia (B 1549) Summarizes shipper sweet corn production in southern Georgia.

Sweet Corn Variety Evaluation Report: Spring 2020 (AP 120-1) To increase productivity, it's important that growers select sweet corn cultivars adapted to particular growing conditions. The goal of this report is to provide growers, crop advisers, county educators, Extension agents, and specialists with a broad evaluation of different commercial sweet corn hybrids and their performance in different locations of the Southeast U.S.

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