1. ORGANIC AL.AL.A
PRODUCTION
AGRONOMIC PRODUCTION GUIDE
Abstract: Demands for organic dairy feed are on the rise due to passage of the National Organic Program’s (NOP)
organic standards in 2001. Cows producing organic milk must be fed organic hay. This publication discusses
basic cultural requirements, insect pest management, diseases of alfalfa that include root and crown diseases and
foliar diseases, nematodes, vertebrate pests, weed controls, and economics and marketing. Included are references
and resources.
By Martin Guerena and Preston Sullivan Table of Contents
NCAT Agriculture Specialists Introduction .................................................... 1
July 2003 Basic Cultural Requirements ......................... 2
INTRODUCTION
Insect Pest Management ................................ 2
Table 1. Alfalfa Pests and Their .................
Predators ................................................... 3
The rise in demand for organic dairy feed Diseases of Alfalfa .......................................... 8
makes alfalfa an attractive crop for some organic
Root and Crown Diseases ............................. 8
farmers. According to the USDA’s organic stan-
Foliar Diseases ............................................. 10
dards, cows producing organic milk must be fed
organic feed. The decision to grow organic al- Nematodes .................................................... 11
falfa depends on the potential profitability, tak- Vertebrate Pests ........................................... 11
ing into account price premium, increased cost Weed Control ............................................... 12
of production, markets, and transportation. Fed- Economics and Marketing ............................ 13
eral laws regulating the growing, labeling, and Table 2. Estimated Organic Alfalfa Hay .....
marketing of organic products require produc- Production Costs .................................... 14
ers to be certified through a private or state Summary ....................................................... 14
agency. ATTRA has several publications on the References .................................................... 14
topics of organic certification and production.
Resources ..................................................... 16
Organic Farm Certification & The National Organic
Program addresses the new federal requirements.
An Overview of Organic Crop Production
provides a general introduction to or-
ganic farming methods and would be
considered a prerequisite to starting an
organic alfalfa enterprise. The Organic
and Sustainable Practices Workbook and
Resource Guide for Cropping Systems is rec-
ommended especially for producers
new to organic farming. These and other
relevant ATTRA publications are avail-
able in print and on our Web site http:/
/www.attra. ncat.org.
ATTRA is the national sustainable agriculture information service operated by the National Center
for Appropriate Technology, through a grant from the Rural Business-Cooperative Service, U.S.
Department of Agriculture. These organizations do not recommend or endorse products, companies,
or individuals. NCAT has offices in Fayetteville, Arkansas (P.O. Box 3657, Fayetteville, AR 72702),
Butte, Montana, and Davis, California.
2. BASIC CULTURAL as rock phosphate and with animal manures, com-
post, and other natural fertilizers. Two useful
REQUIREMENTS
potassium sources are potassium sulfate and
potassium magnesium sulfate. Potassium sul-
fate must be mined and non-synthetic. OMRI
From an agronomic perspective, alfalfa is a (Organic Materials Review Institute, Box 11558,
great rotational crop because of its soil condi- Eugene, OR 97440-3758, http://www.omri.org)
tioning abilities. In addition, the perennial na- evaluates commercial products for organic pro-
ture of alfalfa creates a favorable habitat for many duction. Accepted brand names are Ag Granu-
beneficial arthropods, including pollinators and lar, Ogden Sulfate of Potash, Turf Blend™ Green
natural enemies of pests. These natural enemies Grade, Turf Blend™ Mini Granular & Turf Granu-
help keep pest levels down in alfalfa and adja- lar, all from Great Salt Lake Minerals; Standard
cent crops. Sulfate of Potash & Water Soluble Sulphate of
The basic cultural requirements for alfalfa are Potash (SQM North America Corp.), and Ultra
similar whether it is grown organically or con- Fines Sulfate of Potash (Diamond K Gypsum).
ventionally. Seeding rates typically range from K-Mag’s (K-Mag Granular Natural® Crystals™
12 to 15 pounds per acre. Seed may be drilled or & K-Mag Standard) generic material is langbein-
broadcast into a well-prepared seedbed. Firm ite, and it is OMRI listed. Mined elemental sul-
seed-to-soil contact is necessary and may be fur and borax can also be used.
achieved with a cultipacker or from the drill Granite dust and greensand are potassium-
presswheels. If the seedling stand in the tractor containing minerals used by some organic farm-
tire tracks is better than the rest of the field, that ers that release available potassium very slowly.
is a sign the seedbed needs to be firmer. If your They are not cost-effective for large acreages un-
shoes sink into the prepared soil past the soles, less mined locally. For additional fertility infor-
that too shows the need for a firmer seedbed. mation, request the ATTRA publications Sustain-
Plant high quality seed that is inoculated with able Soil Management, Alternative Soil Amendments,
the appropriate rhizobium bacteria strain to as- and Manures for Organic Crop Production. Animal
sure good nodulation and nitrogen fixation. Se- manure can provide both phosphorus and po-
lect a variety that is well adapted to your area tassium economically. It is beneficial to base
and the diseases common there. Detailed pro- manure and compost rates on soil test nutrient
duction information on alfalfa growing practices levels, the nutrient content of the manure, and
(soil pH, planting dates, seeding rates, and vari- crop needs.
eties for specific areas) can be obtained from your Harold Willis’s book How to Grow Great Al-
local Cooperative Extension Service. falfa (Willis, 1983) provides a nice overview of
Alfalfa requires a deep, well-drained, loamy reduced-input alfalfa production that is largely
soil with a pH between 6.5 and 7.5, free of hard- applicable to organic management. Willis cov-
pans and shallow bedrock, to accommodate the ers the basics and goes a step further to discuss
plant’s long taproot that can penetrate to 20 feet. the relationships among soil biology, alternative
Alfalfa responds well to phosphorus and potas- forage-testing methods, and alternative pest man-
sium fertility, but no nitrogen is required, since agement for alfalfa.
alfalfa (being a legume) fixes its own nitrogen. It
also uses three to five pounds of boron per acre
per year. Adequate lime, phosphorus, and po-
INSECT PEST
tassium levels should be established prior to
planting, if possible. Base fertilizer application
MANAGEMENT
rates on soil-test results, crop needs, and the nu- Insect pest management in an organic sys-
trient content of the material being applied. Af- tem depends on several factors—including cli-
ter the crop is established, only surface applica- mate, beneficial organisms already present in the
tions will be possible. Wet soils can cause root area, and hay-cutting schemes. Many types of
heaving during winter and cause more problems insects and mites inhabit alfalfa plantings, yet
with root diseases than well-drained soils. only a few species threaten yields. Proper iden-
In an organic system, soil fertility can be main- tification of alfalfa pests as well as their natural
tained with mineral–bearing rock powders such enemies is the first step in successful manage-
PAGE 2 //ORGANIC ALFALFA PRODUCTION
3. ment of pests. Some local
Extension service special- Table 1. Alfalfa Pests and Their Predators
ists are familiar with pests g
common to specific areas va Bu sps
and can help with proper ug g ug ar te a
rs d B l Bu in B g L etle ira c W
identification. State Exten- to e e s in e rs P iti
sion services along with eda Ey ms sas cew dyb ide nute ras
g
Pr Bi Da As La La Sp Mi Pa
their universities have Alfalfa Pest
Internet-based informa-
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Alfalfa Weevil X X X X X X X
tion that can aid with pest __________________________________________________________
Caterpillars X X X X X X X
and beneficial insect iden- __________________________________________________________
Aphids X X X X
tification. Once this infor- __________________________________________________________ X X
mation is known, a scout- __________________________________________________________
Alfalfa Hopper X X
ing program with regular Whiteflies X X X X X
__________________________________________________________
monitoring can help the
Potato Leafhopper
grower determine the pest __________________________________________________________
pressures and the pres-
ence of beneficial insects. When pest pressures fast as the alfalfa. In this situation the plant ma-
reach the economic threshold, control actions are tures before weevils can severely damage it.
necessary. That is why monitoring is so impor- During a warm spring, or in warmer areas of the
tant. For more information on sustainable pest country, larval populations will increase faster
control, see the ATTRA publication Biointensive than plant growth, resulting in extensive plant
Integrated Pest Management. damage (Metcalf and Luckmann, 1982).
Some farmers find that healthier alfalfa stands
Alfalfa weevils are less likely to be damaged by weevils. Some
Alfalfa possesses several characteristics that even use refractometers to monitor stand health.
favor biological weevil control. First, it is a pe- The refractometer is an instrument that provides
rennial plant grown primarily for forage, with a measurement of the soluble solids or sugar in a
individual stands persisting for three to seven plant. A high refractometer reading reflects a
years. This stable system helps populations of high plant sugar level. As sugar levels increase,
beneficial organisms increase. Secondly, although plants are better able to resist pest insects
protein content of alfalfa hay is important, cos- (Behling, 1992).
metics are not as important as for fresh vegetable According to Bowman (1992), a mixed plant-
and fruit crops. Because alfalfa can tolerate some ing of alfalfa and grasses can reduce weevil and
damage, it is an ideal crop for a pest manage- leafhopper levels in some areas. Harvesting al-
ment system that does not completely eliminate falfa in alternate strips has also been shown to
the pest but simply reduces its dramatically increase the number of beneficial
population to a modest level. insects occurring in the field (Anon., 1993). Rather
than having all of their habitat stripped away from
a whole-field harvest, the beneficials from the cut
strips can move onto the neighboring remaining
strip and continue to find food and shelter. Gen-
eralist predators like spiders, damsel bugs,
Clemson University - USDA bigeyed bugs, assassin bugs, and lacewing lar-
Cooperative Extension Slide
Series, www.insectimages.org vae attack alfalfa weevil larvae. Adult and larval
aphid-eating lady beetles have been observed
feeding on alfalfa weevil larvae (Kalaskar and
Evans, 2001).
alfalfa weevil Grazing the spring growth of alfalfa in the
late vegetative and early bud stage allows for
Spring weather conditions influence the se- nearly all the weevil larvae to be consumed by
verity of alfalfa weevil damage. During a pro- the livestock before economic damage occurs
longed cold spring, weevil larvae do not grow as (Gerrish, 1997). In a four-year conventional al-
//ORGANIC ALFALFA PRODUCTION PAGE 3
4. falfa study done in Oklahoma (Anon. 1999), re- also live in areas adjacent to these fields. In ar-
searchers achieved such good weevil and aphid eas where fall or winter egg-laying does not oc-
control from grazing that only one insecticide cur, growers will have to deal with spring adult
application was necessary throughout the whole weevil migration into the field, and subsequent
study period. Grazing also aided the control of egg-laying.
cool-season weeds. Classical biocontrol efforts for alfalfa weevil
Some producers use “flaming” to complement in the U.S. have emphasized the introduction of
their weevil-management program. Field flam- effective parasites into areas where these natural
ers that burn LP gas are pulled across the field control agents are rare or absent (Yeargan, 1985).
after harvest. The flames are directed at the During the 1980s, the USDA Animal and Plant
ground to burn off the weevils and their eggs. In Health Inspection Service (APHIS) and its coop-
a Kansas study, alfalfa fields were flamed in early erating agencies led the effort to establish alfalfa
spring. Flaming reduced the weevil larvae from weevil parasites. In 1991, APHIS completed its
2.2 to 0.3 per stem in the first year of the study, ten-year parasite release program.
and from 2.7 to 0.9 during the second year of the In the long run, a large population of
study (Anon., 1993). There were no yield or qual- beneficials can help provide permanent control
ity differences between flaming or several insec- of weevil pests. However, newly introduced
ticides treatments that were compared. In addi- biocontrol agents often take at least three years
tion to weevil control, flaming alfalfa can reduce to bring their prey under control. Farm manag-
weed levels. Early spring flaming controlled 75% ers should therefore try to conserve and foster
of Tansy mustard and shepherds purse and 46% existing populations of beneficials. Another
of Kentucky bluegrass at a rate of 22 gallons of ATTRA publication that discusses how to con-
propane per acre in a California study (Behling, serve beneficials, Farmscaping to Enhance Biologi-
2002). In the same study, 11 gallons per acre cal Control, is available on request.
controlled 50% of the weeds. Flame Engineering The larval parasites Bathyplectes anurus,
(see References for contact information) in Bathyplectes curculionis, and Oomyzus (Tetrastichus)
LaCrosse, Kansas, has tractor mounted equip- incertus, and the adult weevil parasites
ment and literature to support this practice. Microctonus aethiopoides and Microctonus colesi, in
Taking a last cutting of alfalfa as late in the addition to the insect eating fungus Zoophthora
season as possible may reduce alfalfa weevil dam- phytonomi, are effective natural enemies of the
age to the next year’s crop (Metcalf and alfalfa weevil in the eastern U.S. The western
Luckmann, 1982). With most of the foliage gone, U.S. is less favorable to these organisms for bio-
the field is less attractive to adult weevils seek- logical control of the alfalfa weevil, except for
ing a place to lay their eggs during the fall. Late Bathyplectes curculionis, which is very effective in
cuttings may reduce winter hardiness, however, many areas of the West (Flint and Dreistadt, 1998).
due to lack of vegetation to trap and hold snow In northern Utah, research trials were conducted
that insulates the alfalfa crowns and prevents where a sugar solution was sprayed onto the al-
them from freezing. The root reserves can be falfa foliage in order to increase the numbers of
depleted if the alfalfa is cut too late in the sea- the alfalfa weevil parasite Bathyplectes curculionis.
son. After the last cutting, the foliage should When sampled two days later, numbers of adult
grow some to allow the roots to store food be- parasitoids were consistently higher in the sugar
fore the first killing frost. Another method is to plots than in the control plots (Jacob and Evans,
graze off the fall top-growth well after freezing 1998). If aphid or whitefly honeydew is present
weather has set the plants into dormancy, reduc- in a field, sugar sprays to attract the parasites
ing weevil egg numbers for next year. Grazing may be redundant. Honeydew can also bring on
the early spring growth before significant weevil sooty mold fungus that can reduce hay quality.
damage occurs uses the forage directly and re- Records from the eastern U.S. indicate that where
duces the need for additional control measures. nine out of ten alfalfa fields were sprayed for
To best employ this practice, select alfalfa variet- weevils ten years ago, only one in ten is sprayed
ies that are adapted for grazing and practice ro- now (Yeargan, 1985). Pest management experts
tational grazing or strip grazing. attribute this dramatic decrease in weevil spray-
It is important to remember that adult wee- ing to the release of beneficial parasites. The al-
vils do not overwinter only in alfalfa fields. They falfa weevil egg predator Peridesmia discus was
PAGE 4 //ORGANIC ALFALFA PRODUCTION
5. introduced from Europe as a biological control flights in order to
Used with permission from University of California
agent. It is now known to be established in parts cause confusion
orange
Statewide IPM Program, Jack Kelly Clark,
photographer, http://www.ipm.ucdavis.edu
of Georgia, Maryland, North Carolina, South and interrupt
Carolina, and Tennessee. Data from some of potential mat-
sulfur ing.
these sites indicate that from 5.6 to 16.7% (7.1
average) of overwintering weevil eggs were picture The alfalfa
preyed on by P. discus (Dysart, 1988). butterfly (Colias
A number of “natural” pesticides may be eurytheme) or Or-
used in organic production. Of the botanical in- alfalfa caterpiller butterfly ange Sulphur, as
secticides, neem has been proven effective against it is commonly
the alfalfa weevil by acting as a toxicant, insect known, is found throughout the country and is
growth regulator, and antifeedant. In caged tests considered a pest on alfalfa only when the cli-
under field conditions, 2.5 and 5% Neem seed mate is warm and the presence of natural en-
suspensions applied four times at weekly in- emies is low. The adults have yellowish or whit-
tervals to naturally infested alfalfa com- ish wings with dark borders. The larvae
pletely interrupted the larval develop- are velvety green with white lines on
ment of the pest and increased their sides. The larger larvae (1½
yields. (Oroumchi and Lorra, inches) causes the most damage by
1993). consuming the entire leaf and de-
green foliating the crop. The natural en-
Caterpillar Pests lacewing emies that prey on or para-
larvae
Caterpillars have many sitize the alfalfa cater-
natural enemies that usu- pillar include the
ally keep their numbers predators mentioned
below damaging levels. above, the larval para-
Understanding the biol- sitic wasp Cotesia
bigeyed bug
ogy of beneficial organ- adult
medicaginis, and the egg
bigeyed bug nymph parasite Trichogramma
isms is important in order
to manage them effectively Used with permission from the Department of Entomology, Ken Gray Extension Slide Collection, and IPMP3.0, semifumantum.
Oregon State University
as pest-control agents. For Cutworms are a prob-
example, insect parasitic nematodes like lem in seedling establishment in some alfalfa-
Steinerema carpocapsae or insect infecting fungi like growing areas but rarely a problem on established
stands. Species are represented by the variegated
Beauveria bassiana require adequate humidity to
cutworm, Peridroma saucia; black cutworm,
be effective. Other predators include spiders,
Agrotis ipsilon; granulate cutworm, Feltia
minute pirate bugs, damsel bugs, bigeyed bugs,
subterranea; army cutworm, Euxoa auxiliaris; and
assassin bugs, lacewing larvae, and parasitic
the Clover cutworm, Scotogramma trifolii. They
wasps. Birds also prey on caterpillars, so do not
are active at night, feeding and chewing through
assume that all birds in the field are causing dam-
the stems of the seedlings. In the day they bur-
age.
row underground or under clods, avoiding de-
Bacillus thuringiensis is an effective biorational
tection. Problem areas are usually found near
pesticide that controls caterpillar pests. Early
field borders and in weedier areas. Cutworms
detection and application during the early devel- have many predators
opmental stages of the larvae (1st and 2nd in- and parasites that
star) make these pesticides more effective. Phero- help control their
mone traps are useful tools that indicate when numbers. Some of
mating flights are occurring. Through degree- these parasites
day calculations from mating time, one can esti- and predators can
mate egg laying and hatching. For information be purchased or
on degree-day calculations contact your local harnessed natu-
county Extension agent. Pheromone lures and rally through
dispensers are becoming popular for mating dis- planting or con- granulate Used with permission from
ruption of some caterpillar pests. These must be serving habitat for cutworm University IPM Program, Jack Statewide
of California
deployed and timed with the insects’ mating them. Kelly Clark, photographer,
http://www.ipm.ucdavis.edu
//ORGANIC ALFALFA PRODUCTION PAGE 5
6. If organically-acceptable pesticide applica- infects beet armyworm. It is available in the prod-
tions are necessary, choose one that is least dis- uct Spod-X® LC (Certis). Bacillus thruingiensis on
ruptive to the natural enemies. The application young worms is effective if application is thor-
of rolled oats and molasses baited with Bacillus ough. Laboratory and greenhouse tests showed
thuringiensis or nighttime spraying of Bacillus that caffeine boosted the effectiveness of the B.t.
thuringiensis are effective strategies. against armyworms up to 900 percent (Morris,
Other alternative controls for cutworm include 1995). Like B.t., caffeine interferes with the pests’
the use of thyme’s essential oils as a toxicant, digestive and nervous systems. Its use is most
insect growth regulator, and antifeedant promising against pests that are weakly suscep-
(Hummelbrunner and Isman, 2001). Mock Lime tible to B.t. itself. Recipe: dissolve 13 oz. pure
or Chinese Rice Flower Bush, Aglaia odorata, in- caffeine in water; add the solution to 100 gallons
hibits larval growth and is insecticidal to cut- of standard B.t. spray; apply as usual. (Morris,
worms Peridroma saucia and Spodoptera litura, but 1995). Caffeine can be obtained from most chemi-
no commercial formulations are currently avail- cal supply houses and is also available in pill form
able (Janprasert et al., 1993). Azadirachtin, the from most pharmacies. Organic growers inter-
active ingredient in neem, also has similar effects ested in this approach should ask their certifying
on various insects and is used in the form of neem agency about the appropriateness of this treat-
cakes to control soil pests in India. Certis USA ment in a certified organic system.
produces Neemix® Botanical Insecticide; it’s ac- Many other crops are hosts to armyworms,
tive ingredient is Azadirachtin and is registered as are the weeds mullen, purslane, Russian thistle,
on alfalfa for cutworm, looper, armyworms, crabgrass, Johnson grass, morning glory,
whitefly, and aphids. lambsquarters, nettleleaf goosefoot, and pigweed.
Beet armyworm, Spodoptera exigua, and fall These last three are preferred hosts that can serve
armyworm, Spodoptera frugiperda, can both feed as indicators of the populations or be managed
on alfalfa and on rare occasions cause yield re- as trap crops.
ductions. Beet armyworms can cause yield re-
ductions in alfalfa if populations are high enough.
Armyworms hatch in clusters, and the small
worms spread through the plants over time. They
cut irregular shapes on leaves, skeletonizing
them, trailing frass, and spinning small webs as
they go. The egg clusters are covered with white
cottony webbing, making them easy to spot. Both Alfalfa looper adult
the removal of natural enemies and warm weather Used with permission from the Department of
Entomology, Ken Gray Extension Slide Collection,
conditions are favorable to outbreaks. and IPMP3.0, Oregon State University
Alfalfa looper larvae
The Alfalfa looper, Autographa californica, and
Used with permission from the Department of
Entomology, Ken Gray Extension Slide Collection, and
IPMP3.0, Oregon State University
the Cabbage looper, Trichoplusia ni, feed on leaf
areas between veins, causing ragged-edged holes
in the leaf and on the leaf margins, but they rarely
cause significant damage because of their natu-
beet armyworm adult ral enemies. If the enemies are lacking, defolia-
beet armyworm larvae tion of alfalfa may become severe.
Loopers feed on all the crucifers, crops and
weeds, and on melons, celery, cucumbers, beans,
Natural enemies are assassin bugs, damsel lettuce, peas, peppers, potatoes, spinach, squash,
bugs, bigeyed bugs, lacewing larvae, spiders, the sweet potatoes, and tomatoes. Other hosts in-
parasitic flies Archytas apicifer and Lespesia clude some flowers, like stocks, snapdragons, and
archippivora, and the parasitic wasps tobacco. Some weed hosts include lambsquarter,
Trichogramma ssp. Hyposoter exiguae, Chelonus dandelion, and curly dock.
insularis, and Cotesia marginiventris. Nuclear poly- In addition to the natural enemies mentioned
hedrosis virus is a disease-producing virus that above, many parasitic wasps also attack loopers,
PAGE 6 //ORGANIC ALFALFA PRODUCTION
7. including Trichogramma pretiosum, Hyposoter leafhoppers are about 1/8 inch long, green in-
exiguae, Copidosoma truncatellum, and Microplitis sects with wings that when at rest resemble pup
brassicae. The parasitic fly Voria ruralis also con- tents. Immature leafhoppers are called nymphs
tributes to the loopers’ natural control. and look like wingless adults. Both the adult
Trichoplusia ni NPV (nuclear polyhedrosis virus) and nymph feed on plants.
is sometimes responsible for sudden decline in Planting grasses in the alfalfa stand is a cul-
looper population, especially after a rainfall. Ba- tural practice that reduces leafhopper damage.
cillus thruingiensis is effective when the problem Grass repels leafhoppers, and the females are
is detected early. less likely to lay eggs in mixed stands. A Mis-
souri study (Bowman, 1992) showed leafhopper
Aphids reductions of 54 to 76% over a three-year period
Aphids are piercing and sucking insects from in a grass-alfalfa mixture as compared to pure
the order Hemiptera that feed on alfalfa, result- alfalfa stands. The University of Minnesota Ex-
ing in stunting, leaf curling or distortion, leaf tension has a chart that compares alfalfa height
drop, and yellowing of the plant. They excrete to number of leafhoppers per sweep to aid in
honeydew, which is a food for sooty mold fun- determining when to take action to prevent eco-
gus that contaminates alfalfa nomic injury. The Web site is: http://
and lowers its quality. On www.extension.umn.edu/distribution/
the positive side, honey- cropsystems/DC3516.html#plh.
dew can serve as a food
source for beneficial in- Three cornered Alfalfa Hopper
sects. The principal The three cornered Alfalfa Hopper, Spissistilus
aphids that attack alfalfa festinus, is a major pest in the South. It is another
are Pea aphids, piercing and sucking, triangular green insect that
damsel bug Acyrthosiphon pisum; Blue feeds on alfalfa stems and leaves. It is also
nymph alfalfa aphids, found on vegetables, soybeans, peanuts,
Used with permission from the Department of Acyrthosiphon lady beetle adult other legumes, grasses, small grains, sun-
Entomology, Ken Gray Extension Slide Collection, and
IPMP3.0, Oregon State University kondoi; Spotted flower, tomatoes and weeds. On alfalfa,
alfalfa aphids, Therioaphis maculata; Al- it girdles the stem during feeding,
falfa aphids, Macrosiphum creelii; Clover causing it to become brittle and fall
aphid, Nearctaphis bakeri; Cowpea aphid, over. Natural enemies include the
Aphis craccivora; Green peach aphid, bigeyed bug and damsel bug. The
Myzus persicae; and the Potato aphid bigeyed bug has been observed caus-
Macrosiphum euphorbiae. Aphids have Used with permission from the Department of ing the highest mortality (90-100%) of
many natural enemies that usually keep Entomology, Ken GrayState University Collection, 1st and 2nd nymphal stages, while the
and IPMP3.0, Oregon
Extension Slide
their numbers down. These include syr- damsel bug attacked all nymphal stages
phid flies, aphid flies, bugs (minute pirate bugs, of the three cornered Alfalfa Hopper (Medal, et
damsel bugs, bigeyed bugs), lady beetles, sol- al., 1995).
dier beetles, lacewing larvae, insect eating fungi,
and several parasitic wasps. Whiteflies
Potato Leafhopper Whiteflies are small piercing and sucking in-
sects. The adults resemble small moths, and the
The potato leafhopper is a serious pest of al- nymphs look like scale insects. They are occa-
falfa in the eastern U.S. Like aphids, they pierce sional pests on alfalfa in the Southwest. When
stems and suck plant juices, disrupting plant populations are large, they can stunt, cause yel-
functions. The symptoms are lowing, or give a mottled appearance to the
stunting and yellowing plants. In extreme cases they can cause defolia-
of the crop, but once
Used with permission from University
tion. Like aphids, whiteflies also secrete honey-
of California Statewide IPM Program,
Jack Kelly Clark, photographer, http://
the symptoms are dew that facilitates sooty mold development and
visible, the damage lowers alfalfa’s quality. Whiteflies’ natural en-
www.ipm.ucdavis.edu
to the crop is done. emies include lady beetles, lacewings, minute
Scouting is critical pirate bugs, bigeyed bugs, predatory mirid bugs,
to prevent this from Macrolophus caliginosis, the predatory beetle
happening. The adult potato leafhopper Delphatus pusillus, parasitic wasps Encarcia formosa
//ORGANIC ALFALFA PRODUCTION PAGE 7
12. make underground nests, creating trails about wildcats is recommended if rabbits are a persis-
two inches wide that lead from their burrows to tent problem. Modification of the rabbits’ envi-
surrounding areas of the field where they feed. ronment by removing debris and vegetation
Control measures consist of cutting the surround- where they hide is another cultural control. Re-
ing vegetation in ditches and adjacent fields, trap- pellents, frightening devices, traps, hunting, and
ping (which can be impractical when populations domestic dogs and cats, can also contribute to
are high), the use of ammonium-based repellents reducing rabbit numbers.
(check with certifier), and habitat creation for rap- Deer and other large grazers such as elk and
tors and mammal predators such as coyotes, antelope can cause significant damage to alfalfa
foxes, wildcats, weasels, and shrews. plantings. Several methods to control these large
Gophers (Thomomys spp.) are burrowing ro- mammals have been used with varying levels of
dents that feed mostly on underground plant success. Odor repellants and devices that pro-
parts, with alfalfa being one of their preferred duce periodic explosions can be effective for lim-
foods. Besides weakening or killing the plants, ited periods, but are not long-term solutions be-
they also damage irrigation ditches and borders. cause the animals grow accustomed to them.
The mounds of soil they push up from their bur- Fencing is probably the most effective method to
rows also bury other plants and cause obstacles protect large fields. The use of guard dogs, an
for the harvesting equipment. Non-toxic controls odor repellent, and no treatment were compared
consist of trapping, flooding the burrows, sur- at a pine seedling plantation in Missouri for pro-
rounding a field with plants that repel gophers, tection against grazing deer. The dogs were a
such as gopher spurge (Euphorbia lathyrus) and better deterrent than Hinder (odor repellent) or
castor bean (Ricinus communis). Depositing preda- no treatment. Browse rates averaged 13, 37, and
tor urine, pine oil, or any other foul smelling sub- 56%, respectively, for dogs, Hinder, and no treat-
stances in the burrows has been reported to pro- ment during the three-year study. Browsed seed-
vide temporary control. The use of barn owl lings were generally heavier in weight on plots
perches to attract these predators has been suc- protected by dogs, suggesting that browsing se-
cessful in controlling gophers in California. On verity was also reduced (Beringer, et al., 1994).
average, a barn owl can eat 155 gophers per year For more information on controlling deer, request
(Power, 2003). Propane devices that ignite in- the ATTRA publication Deer Control Options.
jected gas, causing the burrows to explode, are
reported effective in reducing populations tem-
porarily. Check with your certifier before using
WEED CONTROL
this method. Additional treatments are neces- Strategies for non-herbicidal weed control in-
sary, depending on the length of the season. clude interseeding alfalfa with annual or peren-
Ground Squirrels (Spermophilus spp.) dam- nial grasses, harrowing, grazing, and using nurse
age alfalfa by feeding on leaves, stems, and crops during establishment. Additionally, any-
crowns. Their burrows damage plant roots and thing that can be done to help the crop grow bet-
irrigation levees and create obstacles for field ter and thus compete with weeds better should
equipment. Controls include trapping, remov- be done. These practices include adequate lime
ing rocks and stumps at the edges of fields that and fertility, planting well-adapted varieties,
provide a desirable habitat, deep tillage to dis- choosing a well-drained site, rotating alfalfa with
rupt the burrow system, and shooting. Repel- annual crops to interrupt the buildup of certain
lents such as pepper spray, mothballs, and preda- weeds, and cutting alfalfa at the proper growth
tor urine have been used around plants and bur- stage. For spring-seeded alfalfa, a nurse crop of
rows with varying success. Again, check with any one of the early-maturing spring grains will
your certifier before using any of these. help suppress weeds during the alfalfa’s estab-
lishment period. Peas or oats are common com-
Rabbits (Sylvilagus spp.) and Jackrabbits or panion crops intersown with alfalfa. Seeding al-
Hares (Lepus spp.) can be kept out of alfalfa fields falfa stands with annual grass crops such as oats
with fencing that is at least four feet high and reduces weed pressure through direct competi-
buried at least six inches. Habitat establishment tion. These mixed stands of alfalfa and oats make
or conservation to encourage natural enemies good hay for the horse market. On-farm studies
such as hawks, owls, eagles, coyotes, foxes, and in Wisconsin (Bowman, 1992) during 1988 and
PAGE 12 //ORGANIC ALFALFA PRODUCTION
14. Table 2. Estimated Organic Alfalfa Hay Production Costs
Item Unit Quantity Price $/ac Your Farm
__________________________________________________________________________________________
Variable Expenses
__________________________________________________________________________________________
Fertility (Manure) ton 10 12.00 120.00
__________________________________________________________________________________________
Lime ton 1 18.00 18.00
__________________________________________________________________________________________
Insect Control (approved chem.) acre 155.00 155.00
__________________________________________________________________________________________
Twine bale 140 0.04 5.79
__________________________________________________________________________________________
Machinery
__________________________________________________________________________________________
Fuel acre 1 2.76 2.76
__________________________________________________________________________________________
Oil and filter acre 1 0.41 0.41
__________________________________________________________________________________________
Repairs and Maintenance acre 1 21.72 21.72
__________________________________________________________________________________________
Labor hour 5.62 8.00 44.99
__________________________________________________________________________________________
Interest on operational capital (6 mo.) acre 10% 0.10 18.84
__________________________________________________________________________________________
Total Variable Expenses 387.51
__________________________________________________________________________________________
Fixed costs
__________________________________________________________________________________________
Establishment costs (25%/year) acre 1 35.07 35.07
__________________________________________________________________________________________
Machinery
__________________________________________________________________________________________
Depreciation acre 1 21.05 21.05
__________________________________________________________________________________________
Interest on operation capital (6 mo.) acre 1 30.22 30.22
__________________________________________________________________________________________
Housing and Insurance acre 1 2.13 2.13
__________________________________________________________________________________________
Total Fixed Costs 88.47
__________________________________________________________________________________________
Total Budgeted Expenses 475.98
Table adapted from: http://economics.ag.utk.edu/budgets.html#forage
from region to region and from farm to farm. pers and aphids are generally controlled by a
The blank space to the right of each row is pro- number of natural enemies that are encouraged
vided for your estimated costs. One useful Web to stay in the field. Several diseases also plague
site where conventional alfalfa budgets can be alfalfa, including various root and crown rots,
found is http://economics.ag.utk.edu/ wilts, and foliar diseases most of which can be
budgets.html#forage. controlled by proper field dranage. Alfalfa also
attracts several rodents, rabbits, and deer that
SUMMARY consume the crop and reduce yields. A variety
of organic methods to limit losses associated with
Demand for organic dairy feed makes alfalfa these pests are available. Weed control strate-
an attractive crop for some organic farmers. Fer- gies include interseeding the stand with grasses,
tility sources include a variety of mined mineral- harrowing, grazing, and using nurse crops dur-
bearing rock powders, animal manure, and com- ing establishment. Adequate lime and soil fertil-
post. Alfalfa can be attacked by a variety of in- ity allow the stand to compete with weeds.
RE.ERENCES
sect pests including alfalfa weevils, various cat-
erpillars, aphids, and leafhoppers. Controls for
alfalfa weevil include flaming in the fall, planting
a mixture of alfalfa and a grass, and strip har- Anon. 1999. Early spring grazing as a compo-
vesting the crop to maintain populations of ben- nent of alfalfa integrated pest manage-
eficial insects. Caterpillars can be controlled by ment. Midwest Biological Control News.
several different insecticides derived from the April. p. 6.
fungus Beauveria bassiana, the bacteria Bacillus Anon. 1993. Burning helps control alfalfa
thuringiensis, or several egg parasites that are en- weevils. Hay and Forage Grower. May,
couraged from natural populations or released p. 22.
into the field in substantial numbers. Leafhop-
PAGE 14 //ORGANIC ALFALFA PRODUCTION