ISU Extension
Agronomy- Extension
IA State Univ.
IA Dept. of Ag
IA DNR

Northwest Area Extension

August 2004

In this issue
The Science of Smell
Beef News
Soybean Cyst – Time to Scout
Dairy Producers Learn About the Phosphorus Index

The Science of Smell
By Dave Stender, ISUE Swine Field Specialist

Several new publications from Iowa State University Extension discuss the science of odor perception.   Odors are important to daily living.  Odors stimulate appetites and sometimes can alert to the presence of disease.  A number of diseases have characteristic odors, gangrene for example.  Detectable odors can have a significant impact on people.  Many associate odors with past experiences which can affect a person’s mood.  Infants appear to like all classes of odorous materials, perhaps because of lack of previous experience and their curiosity.

There are wide differences in people’s ability to smell odors.  More than a thousand-fold difference can exist between the least and most sensitive individuals.  Differences can be because of age, smoking habits, gender, nasal allergies or head colds.  Generally people can distinguish between more than 5,000 odors, some more than others.

The sense of smell is the least understood of the senses, many theories have been proposed to describe the mechanism of smelling odors, and most are either a physical theory or a chemical theory.   The most popular chemical theory says odor molecules bind to receptors that stimulate olfactory nerve fibers.  Receptor sensitivity would explain the difference in odor detection for different chemicals.  Odor adaptation is when people get accustomed to an odor.  This situation applies to swine producers working in facilities as they become unaware of the odor.  On average, olfactory receptors can renew themselves every thirty days.

Odor chemistry is complex and poorly understood.  More than 75 odorous compounds have been identified in swine manure so far.   Partial decomposition of manure gives off a variety of odor compounds such as volatile organic acids, aldehydes, ketones, amines, sulfides, thiols, indoles, and phenols.  These intermediate metabolites produce an offensive smelling product.  Given enough time these intermediates metabolize mostly into non-odorous methane.  Background levels of sulfur in water may also be a source of odor in swine manure.

There are 7 primary odor classes of smells. However, more than 50 single substances have been identified in odor studies, suggesting that there may be 50 or more types of smells such as burnt, musky, floral, pungent, putrid, minty, etc.  Usually, an odor is a combination of many scents.  That is true especially in animal production facilities where one odor may be dominant to another or the two odors may be smelled at the same time as individual odors.  Odor has a complex nature because odors can interact with each other.  That is the primary challenge in determining how best to prevent odor formation.  

A basic understanding that manure odors come from the incomplete breakdown of manure may be helpful.  Recent research shows that at least some of these odors could be the result of excess protein in the diet.  Management technologies used to increase the accuracy of predicting feeding requirements may become more important in the future.  Using synthetic amino acids and calculating the lean growth curve for a swine operation could become more important, not only to maximize profit, but also to reduce the potential amount of volatile odors from swine manure.

Information contained in this article was extracted from PM-1963a & b. These ISU publications were released in May, 2004.  Check with your local Extension office for more information.  The next two publications in this series:  Odor Detection and Measurement (PM-1963c) and Principles of Odor Control (PM-1963d) are scheduled for release later this fall.

Beef News
by Beth Ellen Doran, ISUE Beef Field Specialist

Solids Settling at Field Day - The Iowa Department of Natural Resources (IDNR) has been checking open beef feedlots as part of their follow-up to the Iowa Feedlot Plan.  What is the minimum required of a feed yard producer?  Current IDNR rules require all open feedlots (regardless of size) to remove settleable solids before any liquid is allowed to leave the feedlot.

If you would like to see how solids settling works, Iowa State University Extension is featuring solids settling as a part of the ISU Experimental Farm Field Day at Castana on August 24 from 1:00 to 3:30 p.m. The key topic is controlling feedlot runoff.

The Experimental Farm has a 100-head open beef feedlot that features solids settling, vegetative filter strips and spreaders.  The vegetative filter strip uses a grassed terrace to improve the quality of the feedlot runoff.  The spreaders are 2-in x 10-foot boards set on edge at spaced intervals in the terrace.  Spreaders are used to slow down the runoff and prevent channeling and erosion in the filter strips.

Other topics for the field day will include the use of condensed distillers’ solubles in stocker and feedlot cattle rations, soybean rust, and producing pigs for niche markets.  Pre-registration is not necessary.  For directions to the Experimental Farm, call 712-885-2802.

Ag Census - Every five years, the USDA's National Agriculture Statistics Service surveys America's farmers and ranchers to gather data about agriculture, the nation's largest industry.  The survey indicated that nearly half of all farms have cattle.  Over 1 million farms produce 95.5 million cattle, 4.5% fewer than five years ago.  Nearly 800,000 operations have beef cattle.  There are approximately 33 million head of beef cows, making the average herd size 42 cows.  There were about 716,000 farms with cropland used for pasture or grazing, accounting for 60 million acres or about 85 acres per operation.  However, there are also 396 million acres of pasture or range (other than cropland) on 850,000 farms.  This is an average of 465 acres per operation.

The top five states in value of agricultural products sold are California ($25.7 billion), Texas ($14.1 billion), Iowa ($12.3 billion), Nebraska ($9.7 billion) and Kansas ($8.7 billion).    Thousands of aggregated facts and figures can be accessed online from the NASS website at www.usda.gov/nass/ by clicking on "Census of Agriculture.

Iowa State Fair Celebrates 150 Years - If ever there was a year to attend the Iowa State Fair, this is the year.  From August 12-22, the country's most famous state fair and Iowa's largest tourism event will celebrate its sesquicentennial.  According to USA Weekend, the Iowa State Fair was named one of Amerca's top ten fun places!  What's in store?  Everything from a 500-person, 50-wagon, 112 mile horse caravan form Fairfield, IA (the Fair's first site) to a torch run from all four corners of the state. Plus the famous Butter Cow, the Glenn Miller Orchestra and spectacular fireworks choreographed to music.  And don't forget the 17 different beef shows, cheeseburger fries and the Super Bull.  For detailed information about the Iowa State Fair, visit the website at www.iowastatefair.com and remember that after 150 years, the Fair is "Still the One!"

Soybean Cyst - Time to Scout!
by Joel DeJong, ISUE Crops Specialist

Soybean cyst nematode (SCN) is an important, widespread soybean pest in Iowa that often goes unnoticed. The only consistent and reliable sign of an SCN infestation in the field is the presence of adult SCN females and cysts (dead females) on the roots of infected soybean plants. Adult SCN females and cysts are small, round, and white to yellow, each approximately the size of a period at the end of a sentence.

I have seen some cases in the NW corner of Iowa this year where root systems with cysts can be found in infected fields. Consequently, I believe now is still a good time to scout fields for SCN by checking soybean roots for females and cysts. You will be able to see females and cysts on roots of infected plants through much of the growing season, until late summer or early fall when the plants begin to mature. It is easier to observe the nematode on soybean roots early in the season because the females and cysts occur on new roots that can be easily dug from the soil surrounding the base of the stem of the plant. Later in the season, adult SCN females and cysts appear on new roots that are located deeper down in the soil as well as farther laterally from the stem.

To scout for SCN in fields where the nematode has not yet been found, you may target fields in which soybeans has been grown frequently in the past and fields where soybean yields have declined over time for no apparent reason.

Because SCN is spread by the movement of infested soil, checking roots of plants near the entrance of fields where farm equipment enters and along fence lines where wind-blown soil accumulates also may increase the likelihood of finding SCN-infected plants.

Collection of soil samples from fields suspected of being infested with SCN is an alternative to digging soybean roots and looking for adult females and cysts. Soil sampling can be done at any time during the growing season. Soil samples should be submitted to a private soil testing laboratory that offers nematode testing or to the ISU Plant Disease Clinic for extraction and counting of SCN eggs. Samples sent to the ISU Plant Disease Clinic should be accompanied by a completed Plant Nematode Sample Submission Form (ISU Extension publication PD 32).  Currently there is a $15 charge for processing each sample. Detailed instructions on how to collect a representative soil sample for detection of SCN can be found on the back of PD 32.

Iowa State University Extension publication IPM 47s, Scouting for Soybean Cyst Nematode, illustrates the recommended procedures for scouting for SCN. Single copies of this publication are available free of charge from your local county extension office.

 

Dairy Producers Learn about the Phosphorus Index
By Chris Mondak, ISUE Dairy Specialist

On June 30 IMMAG members visited NW Iowa dairy farms to talk with dairy producers and see the various methods of manure management practices so they could better understand the manure management and environmental challenges faced by the dairy producers.

IMMAG is a state-wide committee whose members represent organizations such as NRCS, DNR, Iowa Farm Bureau, Agribusiness Association of Iowa, commodity groups, Conservation Districts, and ISU Extension. The mission of IMMAG is to provide a vehicle for a coordinated, comprehensive approach to improve manure management in Iowa by providing accurate information and educational programs.

At each farm visited questions came up about the Phosphorus Index. Key points producers learned:

• Phosphorus, an essential nutrient for plants, becomes an environmental problem when soil erosion and run-off carries phosphorus to surface waters where it can cause excessive algae growth.

• The Phosphorus Index is a method to calculate the potential risk for phosphorus to move from a field to surface waters. The calculation for each field takes into account not only the soil P level, but also several other factors including presence of conservation practices, slope, degree of soil erosion, distance to streams, fertilizer and manure application practices.

• The Phosphorus Index was developed by NRCS, the National Tilth Lab, and ISU. The intention is that the Index will help producers make decisions, prevent P run-off to surface water, and increase nutrient application efficiency while preventing phosphorus overfertilization.

• A very important point: A field’s soil phosphorus level is not that field’s P-Index!  A field could possibly have a high phosphorus soil test level, but due to factors such as conservation practices utilized, have a low Phosphorus Index. Similarly, a field with a low phosphorus soil test could have a high Phosphorus Index due to field shape, location, or lack of conservation practices.

• Starting October 2004, Manure Management Plans will involve use of the Phosphorus Index information. A Manure Management Plan is required for confinement dairies that have more than 500 animal units, which means 357 actual cows after dividing 500 by 1.4(adult dairy cow factor) = 357.

• Confinement dairies, equal or less than 500 animal units, must still apply manure in a manner that does not cause a water quality violation, including meeting separation distances for land application of manure.

To learn more about IMMAG, see the website at www.extension.agron.iastate.edu/immag. To contact the coordinator, Angie Rieck-Hinz, or to get on the mailing list for the monthly newsletter update, call 515-294-9590 or send message to amrieck@iastate.edu.

To get Phosphorus-Index information about your fields, contact your local NRCS office, or call Chris Murray at 515-284-4370. Access the NRCS website at www.ia.nrcs.usda.gov.  To be thorough, contact Iowa DNR, Spencer office, to understand how the Phosphorus Index will affect your manure management plan.

View as Word Document or pdf

Back to Field and Feedlot Homepage