Winter wheat in the Great Plains area : relation of cultural methods to production /

Collections of Puccinia triticina were obtained from rust-infected leaves provided by cooperators throughout the United States and from wheat fields and breeding plots by USDA-ARS personnel and cooperators in the Great Plains, Ohio River Valley, and southeastern states in order to determine the virulence of the wheat leaf rust population in 2013. Single uredinial isolates (490 total) were derived from the collections and tested for virulence phenotype on 20 lines of Thatcher wheat that are near-isogenic for leaf rust resistance genes. In 2013, 79 virulence phenotypes were described in the United States. Virulence phenotypes MBTNB, TNBGJ, and MCTNB were the three most common phenotypes. Phenotypes MBTNB and MCTNB are both virulent to Lr11, and MCTNB is virulent to Lr26. MBTNB and MCTNB were most common in the soft red winter wheat region of the southeastern states and Ohio Valley. Phenotype TNBGJ is virulent to Lr39/41 and was widely distributed throughout the hard red winter wheat region of the Great Plains. Isolates with virulence to Lr11, Lr18, and Lr26 were common in the southeastern states and Ohio Valley region. Isolates with virulence to Lr21, Lr24, and Lr39/41 were frequent in the hard red wheat region of the southern and northern Great Plains.

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Nitrogen fertility in semiarid dryland wheat production is challenging for beginning organic farmers

Renewable Agriculture and Food Systems ◽

10.1017/s1742170512000324 ◽

2012 ◽

Vol 29 (1) ◽

pp. 42-47 ◽

Cited By ~ 7

Author(s):

Drew J. Lyon ◽

Gary W. Hergert

Keyword(s):

Winter Wheat ◽

Great Plains ◽

Green Manure ◽

Crop Production ◽

Cropping Systems ◽

Farming Systems ◽

Cattle Manure ◽

Wheat Crop ◽

N Fertility ◽

Summer Fallow

AbstractOrganic farming systems use green and animal manures to supply nitrogen (N) to their fields for crop production. The objective of this study was to evaluate the effect of green manure and composted cattle manure on the subsequent winter wheat (Triticum aestivumL.) crop in a semiarid environment. Dry pea (Pisum sativumL.) was seeded in early April and terminated at first flower in late June. Composted cattle manure was applied at 0, 11.2 or 22.5 Mg ha−1just prior to pea termination. Winter wheat was planted in mid September following the green manure or tilled summer fallow. No positive wheat response to green manure or composted cattle manure was observed in any of the 3 years of the study. In 2 of the 3 years, wheat yields and grain test weight were reduced following green manure. Green manure reduced grain yields compared with summer fallow by 220 and 1190 kg ha−1in 2009 and 2010, respectively. This may partially be explained by 40 and 47 mm less soil water at wheat planting following peas compared with tilled summer fallow in 2008 and 2009, respectively. Also, in 2008 and 2009, soil nitrate level averaged 45 kg ha−1higher for black fallow compared with green manure fallow when no compost was added. Organic growers in the semiarid Central Great Plains will be challenged to supply N fertility to their winter wheat crop in a rapid and consistent manner as a result of the inherently variable precipitation. Growers may need to allow several years to pass before seeing the benefits of fertility practices in their winter wheat cropping systems.

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Baking quality of hard winter wheat: Response of cultivars to environment in the Great Plains

Developments in Plant Breeding - Wheat: Prospects for Global Improvement ◽

10.1007/978-94-011-4896-2_30 ◽

1997 ◽

pp. 223-228 ◽

Cited By ~ 1

Author(s):

C. J. Peterson ◽

R. A. Graybosch ◽

D. R. Shelton ◽

P. S. Baenziger

Keyword(s):

Winter Wheat ◽

Great Plains ◽

Baking Quality

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Wheat Curl Mite Resistance in Hard Winter Wheat in the US Great Plains

Crop Science ◽

10.2135/cropsci2016.02.0121 ◽

2016 ◽

Vol 57 (1) ◽

pp. 53-61 ◽

Cited By ~ 10

Author(s):

Smit Dhakal ◽

Chor-Tee Tan ◽

Li Paezold ◽

Maria P. Fuentealba ◽

Jackie C. Rudd ◽

...

Keyword(s):

Winter Wheat ◽

Great Plains ◽

Wheat Curl Mite ◽

The Us ◽

Us Great Plains

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Above winter wheat

Canadian Journal of Plant Science ◽

10.4141/p02-014 ◽

2003 ◽

Vol 83 (1) ◽

pp. 107-108 ◽

Cited By ~ 29

Author(s):

S. D. Haley ◽

M. D. Lazar ◽

J. S. Quick ◽

J. J. Johnson ◽

G. L. Peterson ◽

...

Keyword(s):

Triticum Aestivum ◽

Winter Wheat ◽

Great Plains ◽

Herbicide Tolerance ◽

Triticum Aestivum L ◽

The United States ◽

Mutation Induction ◽

Cultivar Description ◽

Agricultural Experiment ◽

Imidazolinone Herbicides

Above, a hard red winter wheat (Triticum aestivum L. em. Thell.), is adapted for dryland production in the west central Great Plains of the United States. It carries a nontransgenic source of tolerance to imidazolinone herbicides derived by mutation induction with sodium azide. Above was developed cooperatively by the Colorado and Texas Agricultural Experiment Stations and released to seed producers in September 2001. Key words: Triticum aestivum, wheat (winter), cultivar description, herbicide tolerance

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Feasibility of Non-irrigated Soybean (Glycine max) Production in the Semi-arid Central Great Plains

Weed Technology ◽

10.1017/s0890037x00028256 ◽

1991 ◽

Vol 5 (2) ◽

pp. 369-375 ◽

Cited By ~ 2

Author(s):

Gail A. Wicks ◽

Robert N. Klein

Keyword(s):

Winter Wheat ◽

Great Plains ◽

The United States ◽

Grain Sorghum ◽

Production Costs ◽

Wheat Grain ◽

No Till ◽

Wheat Stubble ◽

Semi Arid Region ◽

Semi Arid

We conducted research to determine if soybeans can be grown successfully in a no-till environment, in the semi-arid areas of the central Great Plains near North Platte, NE. Soybeans planted no-till into winter wheat stubble that was sprayed with glyphosate yielded more than when planted into soil that was rototilled in a winter wheat-soybean-fallow rotation. However, grain yield averaged only 420 kg ha-1during 1975, 1976, and 1977. No-till soybean grown in a winter wheat-grain sorghum-soybean rotation during 1982 through 1985 yielded an average of 1370 kg ha-1. Low yields were associated with lack of precipitation during the fallow period after winter wheat harvest or grain sorghum harvest and during the soybean pod elongation and filling period. Several herbicides gave excellent weed control in soybeans when applied either after wheat harvest, early preplant, or at planting time. None of the herbicides persisted long enough to reduce grain yields of winter wheat planted into the soybean residue. With present production costs these nonirrigated rotations are not economical in the semi-arid region of the central Great Plains of the United States.

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