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         Grain Crops:     more books (100)
  1. A Colour Atlas of Diseases of Small Grain Cereal Crops by Timothy Murray, David W. Parry, et all 1998-04-01
  2. Grain Legume Crops by R. J. Summerfield, 1985-10
  3. Extension Publication: Forage and Grain Crops by Lance Gibson, 1999-10
  4. What's New About Crop Plants: Novel Discoveries of the 21st Century by U. S. Gupta, 2011-01-15
  5. Production and Utilization of Protein in Oilseed Crops (World Crops: Production, Utilization and Description) by E.S. Bunting, 1981-09-30
  6. Oat Crop: Production and Utilization (World Crop Series)
  7. Biology of Rice: Developments in Crop Science by Shigesaburo Tsunoda, 1984-05
  8. Wheat Studies Retrospects and Prospects (Developments in Crop Science) by Hitoshi Kihara, 1982-05
  9. Wheat Breeding and Its Scientific Basis (World Crop) by F. Lupton, 1987-10-29
  10. Stored-grain Ecosystems (Books in Soils, Plants, and the Environment)
  11. Storage of Cereal Grains and Their Products (AACC monograph series) by David B. Sauer, 1992-01-15
  12. Cereal Grain Quality
  13. Carbohydrates in Grain Legume Seeds: Improving Nutritional Quality and Agronomic Characteristics by C L Hedley, 2001-02-15
  14. Modern Grain Sorghum Production by William F. Bennett, Billy B. Tucker, et all 1990-06-30

21. ARC-Grain Crops Institute
Introduction Divisions News Events Top Projects Products ServicesPublications Facilities to rent Links Contact us Visitors Book.
http://www.arc.agric.za/institutes/gci/gcimain.htm

22. Peters Seed & Research / Open-Pollinated Vegetable Seeds
Source for unique openpollinated seeds of non-hybrid vegetables and grain crops. Located in Myrtle Creek, Oregon.
http://www.pioneer-net.com/psr/
window.location="http://www.petersseed.com/files/new.html"
www.PetersSeed.com

Click the above link to go to the new site.

23. ARC-Grain Crops Institute Top Projects
Introduction Divisions News Events Top Projects Products Services PublicationsFacilities to rent Links Contact us Visitors Book. TOP PROJECTS.
http://www.arc.agric.za/institutes/gci/main/projects.htm

24. GRAIN CROPS
grain crops. grain crops produce an edible dry seed which can bestored for long periods of time. (Legumes used for their edible
http://www.echonet.org/seeds/OS_seed_catalogue/grains.htm
document.write("" + document.title + "") About ECHO En Español Tropical Agriculture Order Books and Seeds ... Get Involved
GRAIN CROPS
Grain crops produce an edible dry seed which can be stored for long periods of time. (Legumes used for their edible dry seed are included in the section on pulses.) True cereal grains are members of the grass family; other crops used as grains are called pseudo-cereals. Grains are used chiefly in the production of breads. The seed of grain crops are normally milled to produce flour, but sometimes are softened by cooking and/or chemical treatment. Most have a high protein content accompanied by a good content of B vitamins. Some have a fair to high oil content and/or vitamin E. In addition, most have good quantities of carbohydrates, usually as starch. Varietal differences are important in grains because individual cultivars have particular seasonal and climatic adaptations. Crops are usually planted during the wet season and mature during dry weather Name Crop/Variety Description A to Z Add'l Info Amaranth Amaranthus spp Amaranthus cruentus Mexican Grain Amaranth-R104: highly nutritious non-grass grain (pseudo-cereal) Mexican land race from Rodale TN A . hybridus

25. GRAIN CROPS
grain crops. CONTENTS.
http://www.echonet.org/tropicalag/aztext/azch3gra.htm
GRAIN CROPS
CONTENTS
ARAMANTH SEED. Aramanth grain, corn and beans were probably the primary foods of the Aztecs. The Aztecs unfortunately practiced a religious observance in which they would mix blood from a human sacrifice with popped amaranth grain. They formed this into a statue of a war god, worshiped the statue, then ate it. The Conquistadors considered this a mockery of the eucharist (communion) so banned both the religion and cultivation of the grain in 1517. Amaranth has existed primarily as a wild weed since that time. Amaranth received much research attention in the 1970s and 80s because: (1) it is more resistant to drought than corn,
(2) it does fairly well in nutrient deficient soil,
(3) it produces yields that compare favorably with corn and rice,
(4) the grain is high in protein of unusually high quality, and

26. Microwave Protection Of Grain Crops At Agricultural Enterprises
Microwave Protection of grain crops at Agricultural Enterprises. Short Summary. Itis well known that pest vermin devour approximately 60% of grain crops.
http://www.ukrainebiz.com/technical/protection_of_grain_.htm
Microwave Protection of Grain Crops at Agricultural Enterprises Short Summary The combined technology of fumigation of grain and grain products has been developed to seed disinfection from pest vermin and micro flora in laboratory conditions. It is well known that pest vermin devour approximately 60% of grain crops. Moreover the viable products of the above vermin that remain in the grains lead to sufficient change for the worse of grain quality and grain products and various human and animal illnesses. At present the solution of this problem consist in the chemical treatment of grain products. The high cost chemical reagents fosgen-type must be used. However this technology has the negative influence on environment and small quantities of chemical reagents remain in the grain. The consequent stratification of demands to grain, grain products and feedstock quality insists us to investigate the ecologically clean technologies of crops protection at the agricultural enterprises of Ukraine and in future to recommend these technologies and support facilities for utilization in the other countries. The teams of Kharkov Aviation Institute, NSC Kharkov Institute of technical physics and Biological Institute the advanced, effective and ecologically clean technology for grain fumigation investigated. This technology bases of microwave irradiation of grains and parallel vacumization for combined demonstration stand was developed.

27. The Land Institute - Breeding Perennial Grain Crops(section 1 Of 3)
Breeding perennial grain crops (section 1 of 3) TS Cox, M. Bender, C. Picone, DLVan Tassel, JB Holland, EC Brummer, BE Zoeller, AH Paterson, and W. Jackson.
http://www.landinstitute.org/vnews/display.v/ART/2002/06/01/3dcbf8a7874a8
Monday April 07, 2003 PUBLICATIONS AND LINKS : JOURNAL ARTICLE ARCHIVE FRONT PAGE ABOUT THE LAND INSTITUTE PROGRAMS PRAIRIE WRITERS CIRCLE ... SITEMAP Sign Up for
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Breeding perennial grain crops
(section 1 of 3) T. S. Cox, M. Bender, C. Picone, D. L. Van Tassel, J. B. Holland, E. C. Brummer, B. E. Zoeller, A. H. Paterson, and W. Jackson
Published June 2002
Abstract: Key terms: natural systems agriculture, interspecific hybridization, crop domestication, cereal, legume Published in Critical Reviews in Plant Sciences CRC Press T. S. Cox, M. Bender, D.L. Van Tassel and W. Jackson are scientists at The Land Institute, Salina, KS, 67401. C. Picone, Biology, Warren Wilson College, Ashville, NC 28815; J.B. Holland, USDA-ARS, Dept. of Crop Science, North Carolina State University, Raleigh, N.C., 27695; E.C. Brummer, Dept. of Agronomy, Iowa State University, Ames, IA, 50011; B.E. Zoeller, Maiz.org, Hiawatha, KS 66434; A.H. Patterson, Plant Genome Mapping Laboratory, University of Georgia, Riverbend Research Center, Athens, GA, 30602. Corresponding author is T.S. Cox ( cox@landinstitute.org

28. The Land Institute - Breeding Perennial Grain Crops(section 2 Of 3)
Breeding perennial grain crops (section 2 of 3) TS Cox, M. Bender, C. Picone, DLVan Tassel, JB Holland, EC Brummer, BE Zoeller, AH Paterson, and W. Jackson.
http://www.landinstitute.org/vnews/display.v/ART/2002/06/01/3dcc18955e0d1
Monday April 07, 2003 PUBLICATIONS AND LINKS : JOURNAL ARTICLE ARCHIVE FRONT PAGE ABOUT THE LAND INSTITUTE PROGRAMS PRAIRIE WRITERS CIRCLE ... SITEMAP Sign Up for
News from The
Land Institute (enter email address)
More Info

Breeding perennial grain crops
(section 2 of 3) T. S. Cox, M. Bender, C. Picone, D. L. Van Tassel, J. B. Holland, E. C. Brummer, B. E. Zoeller, A. H. Paterson, and W. Jackson
Published June 2002
[continued] Published in Critical Reviews in Plant Sciences CRC Press
IV. Breeding perennial grains: warm-season grasses
A. Sorghum 1. Hybridization with Sorghum propinquum In tropical environments, grain sorghum ( S. bicolor, 2n=20) is able to regrow from basal nodes to produce a rattoon crop. But breeding a sorghum that is winterhardy in temperate regions will require transfer of genes from related species. A perennial native of southeast Asia, S. propinquum is rhizomatous and diploid, with chromosomes largely homologous to those of grain sorghum. Paterson et al. (1995) evaluated rhizome-related traits of 370 F and 378 BC plants and 46% of BC regrew in the spring. Plants regrew either from tillers or from rhizomes. Forty-eight F

29. ARS | Publication Request: Breeding Perennial Grain Crops.
Breeding Perennial grain crops. A new approach to maintaining grain production whileminimizing topsoil erosion is the development of perennial grain crops.
http://www.nps.ars.usda.gov/publications/publications.htm?SEQ_NO_115=125340

30. ARS | Publication Request: Grain Crops
grain crops. Parent Project, Technical Abstract This is a brief reporton history of grain crops production and their importance as crops.
http://www.nps.ars.usda.gov/publications/publications.htm?SEQ_NO_115=117861

31. Carrousel Farms
Comprised of over 10,000 acres of land in northern Illinois and southern Wisconsin and specializing in purebred Limousin and Angus beef cattle, Holstein dairy cattle, vegetables, cash grain crops, and Arabian horses.
http://www.carrouselfarms.com/
Visitors are always welcome at any of our facilities. We do however, recommend calling us in advance
so that we may be available to guide your visit.

32. JAWRA Bibliography For Topical Keyword Grain Crops
Kit Links Help Home. JAWRA Bibliography for topical keywordgrain crops. Potential, Actual, and Equilibrium Evapotranspiration
http://www.awra.org/jawra/keywords/keygraincrops.htm
Site Map Search Website Membership Events Publications People ... Home
JAWRA Bibliography for topical keyword:
Grain crops
Potential, Actual, and Equilibrium Evapotranspiration in a Wheat Field
Pamela MacQuarrie and Lawrence C. Nkemdirim
Volume 27, No. 1, pp. 73-82, February 1991
Value of Water In Irrigated Crop Production Using Derived Demand Functions
Suren N. Kulshreshtha
and Devi D. Tewari
Volume 27, No. 2, pp. 227-236, April 1991
Monitoring Operations Performance in Large-Scale Public Irrigation Systems in Indonesia
Timothy G. Kelley and Sam H. Johnson
Volume 27, No. 3, pp. 495-508, June 1991
Motivating Reductions in Drain Water With Block-Rate Prices for Irrigation Water
Dennis Wichelns
Volume 27, No. 4, pp. 585-592, August 1991
Application of Crop Yield Functions in Reservoir Operation
A. B. Dariane and T. C. Hughes Volume 27, No. 4, pp. 649-656, August 1991 Low-Input Agriculture As a Ground Water Protection Strategy Penelope L. Diebel, Daniel B. Taylor, Sandra S. Batie, and Conrad D. Heatwole Volume 28, No. 4, pp. 755-761, August 1992 The Farm Level Effectiveness of Selected Irrigation Policy Measures W. J. Brown, R. G. Roy, and S. N. Kulshreshtha Volume 29, No. 2, pp. 169-178, April 1993

33. Commonly Used Methods For Detecting GMOs In Grain Crops, AGF-149-01
Commonly Used Methods for Detecting GMOs in grain crops. A list of some of the laboratoriesthat offer GMO testing of grain crops for a fee is presented here.
http://ohioline.osu.edu/agf-fact/0149.html
Ohio State University Extension Fact Sheet
Horticulture and Crop Science
2001 Fyffe Court, Columbus, OH 43210-1096
Commonly Used Methods for Detecting GMOs in Grain Crops
AGF-149-01
P. R. Thomison
Associate Professors M. M. Loux
Associate Professors As market restrictions for various transgenic (genetically modified organism or GMO) crops (e.g., Bt-corn, Roundup Ready soybeans and corn) continue, there is increasing interest among growers in determining the presence of GMOs in crops. Growers producing non-GMO grains for specialty markets need to verify that there is no GMO contamination, or that contamination levels meet tolerance levels established by an end user. The default standard for certification as GMO free has been taken to be zero in many cases, although experience shows that meeting such a standard will be difficult. There have been proposals for setting maximum allowable levels in the range of 1 to 3%, and it is likely that some tolerance level above zero will be accepted in the future. Japan recently established new legislation that sets a zero tolerance for seed and food imports containing unapproved biotech material, e.g., StarLink corn (containing the Cry9C Bt transgene). The Japanese legislation will allow food products containing less than 5% of approved biotech crops, like corn and soybeans, to be labeled as non-GMOs.

34. VALLEY COTTON, GRAIN CROPS IN SERIOUS CONDITION
Photos and Graphics Dry fields in Rio Grande Valley Click for largerimages. May 6, 2002. VALLEY COTTON, grain crops IN SERIOUS CONDITION.
http://agnews.tamu.edu/dailynews/stories/DRGHT/May0602a.htm
Photos and Graphics Click for larger images
May 6, 2002
VALLEY COTTON, GRAIN CROPS IN SERIOUS CONDITION
Writer: Rod Santa Ana III, (956) 968-5581, r-santaana@tamu.edu
Contact: John Norman, (956) 968-5581, j-norman@tamu.edu WESLACO – In his 30 years as an expert on the Rio Grande Valley's cotton and grain crops, John Norman has never seen worse spring crops than what he's seeing today. "Even reminiscing back to the ‘50s, when I was a boy and we had the worse drought ever recorded, I don't recall ever seeing such poor early season crop conditions," said the Texas Cooperative Extension cotton IPM entomologist at Weslaco. "The bad news is, it could get worse if significant rainfall doesn't come by mid-May," Norman said. "If we don't get rain soon, those fields that now appear to be doing well will be severely damaged. The current situation gets worse with each passing day." What Norman is seeing are large patches of barren soil in fields where lush green crops once grew from property line to property line; mini-sand dunes building up on dirt banks that farmers cut on the perimeter of their fields in futile efforts to build wind blocks; and severe stress on plants that Norman fears will soon shut down completely for lack of moisture. In addition to the years-long drought and lack of water reserves in several Valley irrigation districts, an unusual mix of weather events have combined to worsen current crop conditions.

35. ARMYWORMS THREATEN TO INVADE SMALL GRAIN CROPS
24, 1998. ARMYWORMS THREATEN TO INVADE SMALL grain crops. COLLEGE STATION Fallis approaching quickly and so are one of small grain crops' worst enemies.
http://agnews.tamu.edu/stories/ENTO/Sep2498a.htm
Sept. 24, 1998
ARMYWORMS THREATEN TO INVADE SMALL GRAIN CROPS
Writer: Karie Fehler (409) 862-1556, ksf5815@unix.tamu.edu
Contact: Dr. Clifford Hoelscher (979) 845-6812, c-hoelscher@tamu.edu
COLLEGE STATION Fall is approaching quickly and so are one of small grain crops' worst enemies. Fall armyworms pose a monstrous threat to Texas pastures and grain crops each year, but entomologists say this year's conditions may be especially favorable for the ravenous larvae. Fall armyworms can cause serious damage in one to two days before the damage is even noticed. The larvae attack small grains in large numbers and devour all plant material in their path. Texas Agricultural Extension entomologist Clifford Hoelscher says early detection and preventative measures are essential for successful small grains crops this season. "We expect heavy infestations in wheat and oats in the next five or six weeks in much of East, North and Central Texas," he said. "Early detection is key because small larvae are much easier to control than large larvae. Producers should also look at getting some protection with insecticides before plant stands are killed or greatly reduced." The fall armyworm is a pest that strikes during late summer and early fall. The larvae feed mainly at night on plant foliage, and on cloudy days, one may observe them feeding. Hoelscher said the larvae hide just under the surface of the soil in bright sunlight and feed on the growing parts of the plants.

36. Controlling Blackbirds
Controlling Blackbird Damage to Sunflower and grain crops in the NorthernGreat Plains. By. George M. Linz, Richard A. Dolbeer, James
http://www.npwrc.usgs.gov/resource/tools/blkbird/blkbird.htm
Controlling Blackbird Damage to Sunflower and Grain Crops in the Northern Great Plains
By
George M. Linz, Richard A. Dolbeer, James J. Hanzel, and Louis E. Huffman
George Linz and Richard Dolbeer work for the Denver Wildlife Research Center, a unit of the Animal and Plant Health Inspection Service (APHIS), Animal Damage Control program, in Fargo, ND, and Sandusky, OH, respectively. James Hanzel is with North Dakota State University's Crop and Weed Sciences Department, in Fargo, ND. Louis Hoffman is with APHIS, Animal Damage Control, in Bismarck, ND. Flocks of red-winged blackbirds, sometimes numbering in the tens of thousands, can destroy a grain field in a few days. (APHIS photo by David Bergman.) This resource is based on the following source: Linz, George M., R. A. Dolbeer, J. J. Hanzel, and L. E. Huffman. 1996. Controlling blackbird damage to sunflower and grain crops in the northern Great Plains. United States Department of Agriculture, Animal and Plant Health Inspection Service, Agriculture Infromation Bulletin No. 679. 15pp. This resource should be cited as: Linz, George M., R. A. Dolbeer, J. J. Hanzel, and L. E. Huffman. 1996. Controlling blackbird damage to sunflower and grain crops in the northern Great Plains. United States Department of Agriculture, Animal and Plant Health Inspection Service, Agriculture Infromation Bulletin No. 679. 15pp. Jamestown, ND: Northern Prairie Wildlife Research Center Home Page. http://www.npwrc.usgs.gov/resource/tools/blkbird/blkbird.htm (Version 16JUL97).

37. AGSC 416: Special Topics In Agronomy: Grain Crops
To understand genetic improvement practices for grain crop production; To understandenduses of grain crops. 1999. grain crops Production and Management.
http://agriculture.truman.edu/courses/agsc416g.htm
AGSC 416: SPECIAL TOPICS IN AGRONOMY: GRAIN CROPS
Mark R. Campbell

162 Barnett Hall
785-4280 (Office), 627-5840 (Home)
campbell@truman.edu

CATALOG DESCRIPTION
A course that examines all aspects of grain crop production including establishment, pest control, harvesting, storage and end-use. The course will also examine genetic improvement practices including utilization of plant genetic resources and biotechnology.
PREREQUISITES
AGSC 110
: Crop Production Systems
OBJECTIVES OF THE COURSE
  • To understand all aspects of grain crop production
  • To understand genetic improvement practices for grain crop production
  • To understand end-uses of grain crops
EXPECTATIONS OF THE STUDENTS
Each student's grade will be derived from the following 4 class activities:
  • Class participation (attendance, discussion): 10%
  • Reading assignments (summaries, questions and discussion): 30%
  • Research papers: 30%
  • Exams: 30%
Grading scale: 90-100% = A, 80-89% = B, 70-79% = C, 60-69 = D, <60% = F Policy on absences and missed work
  • Excuses for unauthorized absences will not be accepted.
  • An authorized absence does not excuse the student from any missed work.

38. Grain Crops Program
grain crops PROGRAM Department of Horticulture and Crop Science TheOhio State University. grain crops PROGRAM. HCS 411 grain crops.
http://www.hcs.ohio-state.edu/hcs/PC/programs/GRAINCROPS.html
GRAIN CROPS PROGRAM
Department of Horticulture and Crop Science
The Ohio State University Home Programs GRAIN CROPS PROGRAM The grain crops program is centered around 3 commodities-corn, soybeans and wheat, which account for the annual use of 9,000,000 acres of cropland. These crops add over $2.5 billion to the state's economy and represent over 40% of the state's agricultural receipts. I. Statement of Purpose II. Goal To establish a national and international reputation for innovation and excellence in the development and dissemination crop production technology. The grain crops project team evaluates new technology and coordinates variety evaluation. They interact closely with the ecophysiology group to improve crop production systems. III. Current Faculty extension. research Thomison 0.75 0.25 Cardina 1.00 Beuerlein 0.75 0.25 Loux 0.75 0.25 Harrison 0.60 Regnier 0.35 Lentz 0.90 0.10 TOTALS 3.15 2.80

39. Cytogenetic Effects Of Gaseous Fluorides On Grain Crops
CYTOGENETIC EFFECTS OF GASEOUS FLUORIDES ON grain crops. Key words Environmentalpollution; Gaseous fluorides; grain crops; Mutagenic effects; Ukraine.
http://www.fluoridealert.org/grain.htm
Fluoride Vol 26 No.1 23-32 1993 CYTOGENETIC EFFECTS OF GASEOUS FLUORIDES ON GRAIN CROPS N P Gritsan Institute of Nature Management Problems and Ecology, Ukrainian Academy of Sciences, Moscovskaja 6, Dniepropetrovsk 320600, Ukraine. SUMMARY: Atmospheric pollution of fluoride from a non-ferrous industrial plant has been studied for its effect on the frequency of chromosome aberrations in root tips and shoot tips of wheat and barley. The anaphase-test was used. The percentage of mutations in the meristematic cells of plants growing in polluted areas was 2-6 times higher than in the control and the spectrum of chromosome abberations showed changes. The testing of hydrogen fluoride (HF) for its mutagenic activity by fumigation of barley seedlings showed that the mutation rate was linear with dose. It was found that the cytogenic effects of gaseous fluoride on grain crops was correlated with the fluoride content in plant tissue. Key words: Environmental pollution; Gaseous fluorides; Grain crops; Mutagenic effects; Ukraine. Introduction The interest in environmental mutagenesis has strengthened considerably following understanding of the broad overlap between mutagens and carcinogens. Also alterations in environmental mutagenicity lead to increases in the mutability of living organisms. Little however is known concerning mutagenic effects of gaseous fluoride, in particular fluorine containing emissions from industrial plants.

40. AGSELL - Food, Fibres & Agricultural Products - Grain Crops
The summary for this Japanese page contains characters that cannot be correctly displayed in this language/character set.
http://www.agric.nsw.gov.au/agsell/japanese/jdivision_2/jdiv_2_4.htm

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157 Liverpool Street, Sydney, 2000
—X•Öˆ¶æFPO Box K220, Haymarket, NSW, 2000, Australia
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