Shep Morris doesn't follow the crowd when making decisions that affect his central Alabama farming operation. It's a trait that has served him well over the years.
He was the first producer in his area to use minimum-tillage and cover crops over his entire farm, and one of the first to apply chicken litter as fertilizer. He was one of the first to incorporate Roundup Ready technology into his entire cotton crop.
And, in recent years, he has made the transition back to conventional cotton varieties to improve quality and turnout.
This willingness to embrace change, even if he finds himself alone doing it, has helped earn Morris the 2005 High Cotton Award for the Southeast Region.
Morris has worked over the years to perfect a dryland, minimum-tillage system that works for his unique and diverse soil types and geographical regions. His 1,300 acres of cotton and 1,000 acres of corn are spread over about 40 miles and several different soil types in Macon and Montgomery counties.
“We're not quite at a 50-50 corn-cotton rotation, but that's what we're working towards,” he said. “Corn pulls phosphorus from the soil. Cotton pulls potassium. Grain contributes nitrogen and phosphorus while the stalks leave 0.5 percent potash and 1 percent nitrogen, which is what the cotton needs. By bedding the corn stubble, nitrogen and potash are built up for the cotton.”
Morris re-hips his cotton land every fall, putting out potash and phosphorus or chicken litter.
“We plant corn straight into our old cotton land. We're all conventional on our varieties. This is our third year of going back to conventional, after planting all Roundup Ready and stacked gene varieties in 1998-99. We went back to conventional because of its improved quality and turnout. In addition, we haven't been spraying for worms here, so we didn't need the stacked gene cotton.”
He started with the cotton-corn rotation in 1996 and hasn't looked back. “When we had the set-aside program back in the 1980s and early 1990s, we could plant 50-92 — we could plant 52 percent of our base and draw 92 percent of the payment. We would take about 25 to 30 percent of our ground out of cotton and plant sorghum sudan grass on it in the summer. We'd mow it once, let it grow again, and use it to build organic matter. Then, we'd no-till cotton into it.”
In 1996, when the farm program changed, Morris stopped growing sorghum sudangrass and planted about 150 acres of corn. “It did pretty well, so we gradually increased our corn acreage. It has been a nice fit for us,” he said.
Generally speaking, corn cleanses the soil, said Morris. “A lot of seedling diseases and nematodes attack cotton but can't survive in corn. The corn leaves a lot of dry matter, but it also has a fibrous rather than a woody root system like cotton. It softens the ground, especially our hard ground that tends to crust in the spring.”
Corn also helps in minimizing labor and equipment needs, he said. “Because of the timing in planting corn and cotton, we can use the same planter to plant both crops. Different harvesting equipment is required, but we use the same labor. We start harvesting corn around July 10 and continue throughout July and August. Then, we start picking cotton. In addition to rotational benefits, the two crops lower our production costs. If we planted wall-to-wall cotton, we would need two planters and a larger picking crew. Our costs would rise considerably.”
In the fall, Morris plants rye as a cover crop over all of his acreage. “Before we began planting no-till, we were planting rye and vetch together. The growth was getting away from us, so we changed to wheat and learned to do a better job of managing it. We went back to rye because it grows better in cool weather and it suppresses nematodes.”
Morris flies on his rye crop after bedding fields in the fall. He has been flying his own plane for about 29 years, a skill he uses to maximum advantage. “We put out the majority of our burndown products with a plane. We also put out all of our in-season herbicides with the plane. In addition, we use it for thrips control, for plant bug control, Pix, and for defoliation.”
In the early fall after corn is harvested, he applies a glyphosate product to prevent weeds from going to seed. “We don't have the severe insect problems we once did, but the plane is still a very useful tool.”
Morris is in the early stages of using precision technology on his farm. “We have a yield monitor on our combine and cotton picker. We've been using the technology for three years, and I'm beginning to see some promise. We've learned a lot — our eyes can be deceptive when we're trying to determine how much cotton will yield. With a yield monitor, our best cotton usually is about waist-high rather than chin-high. Cotton can look mediocre but turn out very good.”
Morris has had great success in recent years using poultry litter as fertilizer. “We've been putting out poultry litter for three or four years. We put it out in the fall, bedding it up ahead of cotton. Then we put it out on corn in the spring to better utilize the nitrogen. It's great for supplying phosphorus and potash. We learn something new each time we use poultry litter. We're getting some residual nitrogen from the litter, which is very good considering the cost of nitrogen fertilizer.
“But we have to be aware of the residual properties and manage them. With cotton, we need to be prepared to knock it back. It's not a bad problem to have, but it's something we need to be aware of. Litter is a very good value for the amount of money we're spending.”
Morris' cotton weed control program begins in February when he applies 2,4-D, at 1 pint per acre, taking out all broadleaf weeds and other weeds that can't be controlled by glyphosate. Then, he monitors the height of his rye cover crop.
“We apply glyphosate and burn down the cover. Then, at planting time, we put out 50 units of nitrogen mixed with Gramoxone. Behind the planter, we put out a half pound of Cotoran and a half pound of Caparol mixed together. We put out a little pyrethroid with that for controlling cutworms. That's a necessity in no-till production.”
Just as cotton is cracking the ground, Morris goes over the top with 1 pint of MSMA. That keeps weeds under control until the sixth true-leaf stage. “Then, we apply Envoke and spot-spray as needed with Fusilade for johnsongrass and bermudagrass. We layby with a pound of MSMA and a pound of Caparol. In particularly tough spots, we use Suprend, Caparol and Envoke mixed together.”
For cotton insect control, he usually treats for thrips when he makes his over-the-top weed treatment. “Cruiser goes out with the seed, and then we treat over-the-top as needed. It has been effective, especially with conventional cotton varieties. We spray for plant bugs early on, as needed.
“We try to be careful, especially in a year like 2004, when cotton was growing fast but didn't have a lot of fruit on it. There were a few plant bugs, but the damage was minimal. The cotton growth problems were mostly physiological.
“Our cotton needed Pix more than it needed an insecticide. It's important that we figure out which type of problem we have before treating. We must weigh the decision to spray heavily before disturbing beneficial insects in the field.”
Morris prefers to use Pix early and often. A few ounces early is better than a few pints later on, he said.
As harvest approaches, he applies Touchdown and 4 ounces of DEF at about 50 to 60 percent open bolls. “It opens the plant, and we get good regrowth control. If there are any weeds in the field, they won't go back to seed. After about seven days, we apply 1 quart of Prep and about 1 ounce of Gramoxone. That'll rip open the cotton and remove any remaining leaves. It works only on conventional cotton varieties.”
Morris markets his cotton crop through the Autauga Quality Association, which he serves as a member of the board of directors. He was one of the founders and is vice president of the Milstead Farm Group, Inc., cotton gin. And he is on the board of directors for First South Farm Credit in Jackson, Miss.
Morris and his wife, Rite, have two sons and a daughter — Shep Jr., J.W. and Beverly — and all are involved in the farming operation, including scouting for insects in the summer.
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