Sp730-A Ipm Poster - Kitchen,
2011
University of Tennessee, Knoxville
Sp730-A Ipm Poster - Kitchen, Karen Vail
Insects, Pests, Plant Diseases and Weeds
Version 2.0
Sp730-B Ipm Poster - Student,
2011
University of Tennessee, Knoxville
Sp730-B Ipm Poster - Student, Karen Vail
Insects, Pests, Plant Diseases and Weeds
Version 1.0
Sp730-C Ipm Poster - Teacher,
2011
University of Tennessee, Knoxville
Sp730-C Ipm Poster - Teacher, Karen Vail
Insects, Pests, Plant Diseases and Weeds
Version 1.0
Sp730-D Ipm Poster - Maintenance,
2011
University of Tennessee, Knoxville
Sp730-D Ipm Poster - Maintenance, Karen Vail
Insects, Pests, Plant Diseases and Weeds
Version 1.0
W264 Horsenettle,
2011
University of Tennessee, Knoxville
W264 Horsenettle, G. Neil Rhodes, Jr., William P. Phillips, Jr.
Field & Commercial Crops
Pasture Weed Factsheet
Version 1.0
Sp482 The Southern Pine Beetle,
2011
University of Tennessee, Knoxville
Sp482 The Southern Pine Beetle, Larry Tankersley
Forestry, Trees, and Timber
Renewable Resources Notes
Version 2.0
Inta Segovia, A New Sorghum Variety
For The Dry Zones Of Nicaragua,
2011
University of Nebraska - Lincoln
Inta Segovia, A New Sorghum Variety For The Dry Zones Of Nicaragua, Intsormil
INTSORMIL Impacts and Bulletins
The Sandanista Government through the Instituto Nicaraguense de Tecnologia (INTA) officially released the new improved sorghum variety, INTA Segovia on January 14, 2011. This improved variety will benefit the resource-poor farmers that grow sorghum on the hillsides (see photo) in dry zones (40 percent of the land area in Nicaragua). This variety will have a significant economic impact in Nicaragua and in neighboring countries as it produces well in drought prone areas which lack sufficient rainfall for growing maize. INTA Segovia, under drought conditions, produces higher yields than currently grown sorghum varieties. Drought tolerance is due to the large root …
Comparison Of Various Configurations Of Cdc-Type Traps For The Collection Of
Phlebotomus Papatasi Scopoli In Southern Israel,
2011
United States Department of Agriculture-ARS-Center for Medical
Comparison Of Various Configurations Of Cdc-Type Traps For The Collection Of Phlebotomus Papatasi Scopoli In Southern Israel, Daniel L. Kline, Jerome Hogsette, Gunter Muller
United States Department of Agriculture-Agricultural Research Service / University of Nebraska-Lincoln: Faculty Publications
We conducted two experiments to determine the best CDC-trap configuration for catching male and female Phlebotomus papatasi. First, visual features were evaluated. Standard CDC traps were modified to have black or white catch bags, black or white lids, or no lids and these were tried in different combinations. Significantly more male sand flies were caught by darker traps; significantly more females were captured by traps with either all black or a combination of black and white features. Attraction may be due to dark color or contrast in colors. CDC traps with suction and the following features were also evaluated: …
Wayne E. Sabbe Arkansas Soil Fertility Studies 2010,
2011
Unversity of Arkansas, Fayetteville
Wayne E. Sabbe Arkansas Soil Fertility Studies 2010, Nathan A. Slaton
Arkansas Agricultural Experiment Station Research Series
Rapid technological changes in crop management and production require that the research efforts be presented in an expeditious manner. The contributions of soil fertility and fertilizers are major production factors in all Arkansas crops.
Soil Nitrogen Dynamics Under Dryland Alfalfa And Durum–Forage Cropping Sequences,
2011
United States Department of Agriculture
Soil Nitrogen Dynamics Under Dryland Alfalfa And Durum–Forage Cropping Sequences, Upendra M. Sainju, Andrew W. Lenssen
Andrew W. Lenssen
Forages grown in rotation with or without cereals to sustain dryland soil water content and crop production may influence N dynamics. We evaluated the effect of alfalfa (Medicago sativa L.) and durum (Triticum turgidum L.)–annual forage cropping sequences on above- (stems + leaves) and belowground (roots) biomass N, dryland soil total N (STN), particulate organic N (PON), microbial biomass N (MBN), potential N mineralization (PNM), NH4–N, and NO3–N contents at the 0- to 120-cm depth in northeastern Montana from 2002 to 2005. Cropping sequences were continuous alfalfa (CA), durum–barley (Hordeum vulgare L.) hay (D-B), durum–foxtail millet (Setaria italica L.) hay …
Proceedings Of The 38th Annual Meeting, Southern Soybean Disease Workers (March 9-10, 2011, Pensacola Beach, Florida),
2011
Louisiana State University
Proceedings Of The 38th Annual Meeting, Southern Soybean Disease Workers (March 9-10, 2011, Pensacola Beach, Florida), Boyd Padgett, Tom Allen, Jason Bond, Cliff Coker, Stephen R. Koenning
Southern Soybean Disease Workers: Conference Proceedings
Contents
Southern United States Soybean Disease Loss Estimates for 2010. Compiled by SR Koenning
Poster presentation
Soybean Varieties and Breeding Lines Shown With Resistance to Reniform Nematode in Greenhouse Tests, 1998-2010 R. T. Robbins, and L. E. Jackson
Oral presentations
Frogeye Leaf Spot (Cercorosa sojina) symposium (Boyd Padgett, moderator)
Development of Baseline Cercospora sojina Sensitivity Levels to Quinone Outside Inhibitor Fungicides and Monitoring for Resistance. GR Zhang and CA Bradley
Soybean Pathogen Found to be Resistant to Fungicides MA Newman and CA Bradley
Strobilurin-resistant Cercospora sojina in Kentucky: Field History. D Hershman
Graduate student paper competition (Tom Allen, …
The Fundamentals Of Nutrient Management,
2011
Utah State University Extension
The Fundamentals Of Nutrient Management, Rhonda Miller, Clark Israelsen, Jim Bowcutt, Neils Hansen
All Current Publications
This publication gives best management practices of nutrient management in livestock and dairy facilities.
Instalan Molino Para Producir Harina De Sorgo: Con Este Molino Se Prevé Procesar, Al Mes, Alrededor De 48 Quintales
De Harina,
2011
INTSORMIL
Instalan Molino Para Producir Harina De Sorgo: Con Este Molino Se Prevé Procesar, Al Mes, Alrededor De 48 Quintales De Harina, Berta Nely Menjívar
INTSORMIL Impacts and Bulletins
Panificadores de la Asociación Cooperativa de Cuscatlán (ACPACUS de R. L.), aglutinados en la Mesa Nacional de Panificadores de El Salvador (MENAPAES), en compañía de autoridades del Centro Nacional de Tecnología Agropecuaria y Forestal Enrique Álvarez Córdova (CENTA) y del Instituto para la Investigación del Sorgo y Mijo (INTSORMIL), inauguraron la puesta en marcha del primer molino de martillo, con el cual estarán procesando harina de sorgo (maicillo) para utilizarla en la industria de la panificación.
La adquisición de este molino es uno de los primeros esfuerzos de la MENAPAES en la búsqueda de otras materias primas para la producción …
Sp290-D Insects: Twospotted Spider Mites,
2011
University of Tennessee, Knoxville
Sp290-D Insects: Twospotted Spider Mites, Frank A. Hale
Insects, Pests, Plant Diseases and Weeds
Version 2.0
Sp290-R Insects: Whiteflies On Ornamentals,
2011
University of Tennessee, Knoxville
Sp290-R Insects: Whiteflies On Ornamentals, Frank A. Hale
Insects, Pests, Plant Diseases and Weeds
Version 2.0
Sorghum And Millet Research Program Receives Grant,
2011
University of Nebraska - Lincoln
Sorghum And Millet Research Program Receives Grant, Daily Nebraskan
INTSORMIL Impacts and Bulletins
The International Sorghum and Millet Collaborative Research Support Program (INTSORMIL) at the University of Nebraska-Lincoln recently received a $1.1 million grant to work with Central American countries to increase sorghum foliage.
Sp290-S Insects: Mealybugs On Ornamentals,
2011
University of Tennessee, Knoxville
Sp290-S Insects: Mealybugs On Ornamentals, Frank A. Hale
Insects, Pests, Plant Diseases and Weeds
Version 2.0
Sp290-M Insects: Maple Petiole Borer,
2011
University of Tennessee, Knoxville
Sp290-M Insects: Maple Petiole Borer, Frank A. Hale
Insects, Pests, Plant Diseases and Weeds
Version 3.0
W099 Tennessee Master Gardener Volunteer Handbook,
2011
University of Tennessee, Knoxville
W099 Tennessee Master Gardener Volunteer Handbook, Beth Babbit
Home Garden, Lawn, and Landscape
Version 3.0
A Rain Garden Grows In Bridgeport,
2011
University of Connecticut
A Rain Garden Grows In Bridgeport, Michael Dietz
Wrack Lines
Rain gardens can be used to help communities adapt to climate change. A warmer New England means more precipitation, which means more polluted runoff water--unless a rain garden, planted in a depression, can sequester the excess water and use it to grow attractive plants.