Setaria italica (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

Scientific Name: Setaria italica (L.) P. Beauv. var. metzgeri (Koern.) Jáv.


Classification: Plantae/ Tracheobionta / Spermatophyta / Magnoliophyta / Liliopsida / Commelinidae / Cyperales / Poaceae / Gramineae / Setaria P. Beauv./ Setaria italica (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.
General Information
Usda SymbolSEITM
GroupMonocot
Life CycleAnnual
Growth HabitsGraminoid
Native LocationsSEITM

Plant Guide

Alternate Names

Common Names: Italian millet, Italian foxtail, German millet, Siberian millet, foxtail bristlegrass, foxtail-millet Scientific Names: Panicum italicum L., Setaria italica (L.) P. Beauv. var. stramineofructa (F.T. Hubbard) L.H. Bailey,Setaria italica (L.) P. Beauv. var. metzgeri (Koern.) Jáv., Setaria italica (L.) P. Beauv. subvar. metzgeri (Koern.) F.T. Hubbard,Chaetochloa italica (L.) Scribn.

Description

General: Foxtail millet (Setaria italica) is thought to be native to southern Asia and is considered one of the oldest cultivated millets (Oelke, 1990). It is an introduced, annual, warm-season crop that grows 2–5 ft (60-152 cm) tall. The stems are course and leafy, and more slender than those of pearl millet (Pennisetum glaucum) (Lee and Henning, 2014). It can form one or more tillering shoots (Dekker, 2009). The yellowish or purplish, 8-in (20-cm) nodding inflorescence is composed of a main stalk with many side branches. The seedheads are dense and bristly (Cash et al., 2002) and the oval, convex seed grain can be a variety of colors. Distribution: Foxtail millet is grown in cooler, droughtier regions than other millets (Koch, 2002). It is widely grown throughout China, India, Russia, Africa, and the United States. In the United States, foxtail millet is mainly grown in the northern and western Great Plains, Midwest, the Dakotas, Colorado, Kansas, Nebraska, and Wyoming (Oelke, 1990; Baltensperger, 1996). For current distribution, please consult the Plant Profile page for this species on the PLANTS Web site. Habitat: In most areas foxtail millet is a facultative upland plant (FACU) that usually occurs in non-wetlands but may occur in wetlands. In the Caribbean it almost never occurs in wetlands.

Adaptation

It can grow in sandy to loamy soils with pH from 5.5–7. It will grow rapidly in warm weather and can grow in semi-arid conditions, however, it has a shallow root system that does not easily recover from drought (Hancock Seed, 2014). It can produce one ton of forage on 2 ½ in of moisture and requires approximately 1/3 less water than corn (Koch, 2002). It has a high level of tolerance to salinity (Krishnamurthy et al., 2014). It can grow at higher elevations (1500 m) as well as in plains (Baltensperger, 1996).

Uses

Forage/Feed: In the United States, foxtail millet is primarily grown for hay. Foxtail millet does not produce as much biomass as pearl millet, but can produce 1–3.5 tons/ac of aboveground biomass (AGB) (Shonbeck and Morse, 2006) and can only be cut once (Lee and Henning, 2014). Like all millets, this species is fast-growing and produces relatively high yields with no danger of producing toxic levels of prussic acid (Lee and Henning, 2014). However, avoid feeding livestock foxtail millet if the plants have been severely stressed, as they may accumulate high levels of nitrate (Oelke, 1990). Foxtail millet can be harvested 75–90 days after planting (DAP) (Cash et al., 2002). It can produce good quality hay when gathered into windrows and left until fall/winter grazing (Koch, 2002). Due to its fast growth, it can be used as an emergency hay crop (Oelke, 1990). It is easy to harvest as hay because of its short, fine stems. Hay harvesting can begin at boot stage, when seedheads are beginning to emerge, or from late boot to early bloom stage for optimum quality (Cash et al., 2002). Foxtail millet may act as a laxative to horses unless the hay is mixed with other roughage (Oelke, 1990), and can damage a horse’s liver, kidneys, and bones due to the glucoside setarian (Anderson and Volesky, 2013). Foxtail millet lacks some essential vitamins and nutrients for swine production purposes, so should be mixed with other materials for a complete feed. Further information regarding these nutrients can be found in Oelke (1990). Foxtail millet is similar to other warm-season grasses in terms of forage quality (Baltensperger, 1996). It performed as well as corn in broiler chicken diets and could replace 100% of corn in broiler feed without negatively affecting protein digestibility or bird health (Boroojeni et al., 2011). Natural Resources Conservation Service Plant Guide Cover crop/green manure: Like Japanese millet (Echinochloa esculenta), foxtail millet can be used as a weed-suppressing smother crop. It can be useful as a dead-standing winter cover, or to help suppress weeds when used in rotation after winter wheat (Koch, 2002). It has a C:N ratio of 44 and can produce 43 lb/ac N in aboveground biomass (Creamer and Baldwin, 1999). Its water-use efficiency is one of the highest of any crop, thus making it a good choice for use in semi-arid environments (Koch, 2002). Mixing foxtail millet with cowpea (Vigna unguiculata) is a good cover crop option (Creamer and Baldwin, 1999). When foxtail millet was used in Maryland in a cover crop mixture with soybean prior to fall-planted broccoli, the soybean and millet mix suppressed more weeds than the millet alone, had a larger total N, and had similar above-ground biomass (Abdul-Baki et al., 1997). Sugar snap peas (Pisum sativum) planted with a no-till drill grew well in senescing millet in the Mid-Atlantic region (Myers et al., 2000); however, Vollmer and others (2010) had less success planting no-till onions into millet residue in North Carolina due to the thickness of the residue. Foxtail millet residue is more persistent than other residue like soybean and buckwheat, probably because of its high C:N ratio (Morse, 1995). It can be terminated by winter-kill, mowing, or rolling with a crimper during the green seed stage (Creamer and Baldwin, 1999). Critical Area Stabilization: Because foxtail millet is fast-growing and produces more biomass than annual rye, it is sometimes the preferred choice for restoration of mine lands or steep slopes (Burger et al., 2009). Wildlife: Many granivorous birds are attracted to millet and it is often included in finch and exotic birdseed mixes. It is also planted in food plots for deer, turkey, quail, and dove (Hancock Seed Co., 2014).

Ethnobotany

Foxtail millet has a long history of cultivation for human consumption in China dating back to the Neolithic Era over 4,000 years ago (Baltensperger, 1996), Use soil moisture sensors to measure the soil moisture of Setaria italica (L.) P. Beauv. var. metzgeri (Koern.) Jáv.., It is the most important millet species currently grown in China (Baltensperger, 1996), It was once a staple crop in the northern Philippines and eventually lost its dominance to pond-field cultivation of rice and increased production of swidden plots of sweet potato (Bodner and Gereau, 1988), Along with pearl millet and finger millet, foxtail millet is one of the most important millets in the semi-arid tropics of Asia and Africa (CGIAR, 2014), In the United States, foxtail millet was not often or widely grown until after colonial times (Oelke, 1990),

Status

Weedy or Invasive: The Setaria genus as a whole include many invasive weeds that are known for their ability to quickly adapt to local conditions (Dekker, 2003). Foxtail millet can become weedy if it is allowed to produce seed. It is considered an invasive species in some regions in the United States, and its use is discouraged in Tennessee. Please consult with your local NRCS Field Office, Cooperative Extension Service office, state natural resource, or state agriculture department regarding its status and use. Please consult the PLANTS Web site (http://plants.usda.gov/) and your State Department of Natural Resources for this plant’s current status (e.g., threatened or endangered species, state noxious status, and wetland indicator values).

Planting Guidelines

Plant during late spring/early summer to ensure adequate yield. Soil temperatures should be at least 65°F before planting (Cash et al., 2002). It should be seeded ¼–½ in deep at 15–20 lb/ac drilled or 20–30 lb/ac broadcast in a well-prepared, firm seedbed (Hancock Seed, 2014). Applying fertilizer will help increase yields, but should be done in accordance with soil tests, and Cooperative Extension recommendations for soils/crops in the area.

Management

If controlling weeds through cultivation, plant foxtail millet in 30-in rows. If foxtail millet is terminated by roller-crimper without the use of herbicides, residue will be more persistent than soybean or buckwheat residue (Morse, 1995). There may be some disadvantage to leaving too much millet residue on the soil surface as it can impede subsequent cash crops or native vegetation recruitment in restoration projects (Burger et al., 2009). Like proso millet (Panicum miliaceum), there is little regrowth after cutting (Baltensperger, 1996). Livestock should only be allowed to graze the plant after it reaches 18 in, and before it begins to produce seed (Lee and Henning, 2014). Do not graze below 8 in. Generally pesticides are not used in production practices, so there are opportunities to grow millet for the organic feed market (Lee and Henning, 2014)

Pests and Potential Problems

Summer annual weeds are competitive with millets (Lee and Henning, 2014). One of the most effective ways of controlling weeds during establishment is to plant foxtail millet seed into a well-prepared, weed-free seedbed. Foxtail millet can be stunted or killed by Pyricularia leaf spot (Vollmer et al., 2010). Caution should be used when planting foxtail millet near wheat, as it is known to host the wheat curl mite, responsible for wheat streak mosaic virus (Anderson and Volesky, 2013). Millet may attract undesirable herbivores like rodents and deer that may browse tree seedlings in restoration sites (Burger et al., 2009).

Seeds and Plant Production

Plant Production

Plant Production

Foxtail millet is self-pollinated and will produce seed in 75–90 days (Hancock Seed, 2014). There is a very quick transition period from vegetative growth to flower-development (Baltensperger, 1996). Flowering occurs top-down on each of the stemmed branches. The seed yield of foxtail millet is similar to proso, but the seeds are smaller. It has approximately 230,000 seeds/lb

http://plants.usda.gov/ (Baltensperger, 1996). When drilled at 30 lb/ac it can produce 4066 lb/ac aboveground biomass (Creamer and Baldwin, 1999). Cultivars, Improved, and Selected Materials (and area of origin) ‘Sno-Fox’ is a cultivar developed for use as a grain in the United States. Other varieties include ‘Butte’, ‘German’, ‘Golden German’, ‘Manta’, ‘White Wonder’, and ‘Common’ (Cash et al., 2002). Cultivars should be selected based on the local climate, resistance to local pests, and intended use. Consult with your local land grant university, local extension or local USDA NRCS office for recommendations on adapted cultivars for use in your area.

Literature Cited

Abdul-Baki, A.A., R.D. Morse, T.E. Devine, J. R. Teasdale. 1997. Broccoli production in forage soybean and foxtail millet cover crop mulches. HortScience 32(5):836–839. Anderson and Volesky. 2013. Summer annual forage grasses. NebGuide # g2183. Univ. of Neb. Ext. Serv., Univ. of Nebraska-Lincoln, Inst. of Ag. and Nat. Res. Baltensperger, D.D. 1996. Foxtail and proso millet. p. 182–190. In J. Janick (ed.) Progress in new crops. ASHS Press, Alexandria, VA. Bodner, C.C., and R.E. Gereau. 1988. A contribution to Bontoc ethnobotany. Econ. Bot. 42(3):307–369. Boroojeni, F.G., A.H. Samie, M.A. Edriss, M. Khorvash, G. Sadeghi, A. Van Kessel, and J. Zentek. 2011. Replacement of corn in the diet of broiler chickens using foxtail millet produced by 2 different cultivation strategies. Poultry Science 90(12): 2817– 2827. doi:10.3382/ps.2011-01647 Burger, J., V. Davis, J. Franklin, C. Zipper, J. Skousen, C. Barton, and P. Angel. 2009. Tree-compatible ground covers for reforestation and erosion control. Forest Reclamation Advisory No. 6, Appalachian Regional Reforestation Initiative (ARRI). Cash, D., D. Johnson, and D. Wichman. 2002. Growing millet in Montana. MSU Ext. Serv. http://www.co.yellowstone.mt.gov/extension/ag/pubs/millet.pdf (accessed 30 Jul. 2014). CGIAR. 2014. Crop factsheets: millets. Consultative Group on International Agricultural Research. Montpellier Cedex 5, France. http://www.cgiar.org/our-research/crop-factsheets/ (accessed 09 Sept. 2014) Creamer, N.G., and K.R. Baldwin.1999. Summer cover crops. NC State Univ. Coop. Ext. Publication # HIL-37. http://www.ces.ncsu.edu/hil/hil-37.html (accessed 21 Aug. 2014) Dekker, J. 2003. The foxtail (Setaria) species-group. Weed Sci. 51(5):641–656. doi: http://dx.doi.org/10.1614/P2002-IR Hancock Seed Co. 2014. German foxtail millet seed. Hancock Seed Company, Dade City, FL. https://hancockseed.com/german-foxtail-millet-seed-5-lb-bag-638.html (accessed 30 Jul. 2014). Koch, D.W. 2002. Foxtail millet-management for supplemental and emergency forage. SMRR Info Source. Univ. of Wyoming. Krishnamurthy, L., H. D. Upadhyaya, C. L. L. Gowda, J. Kashiwagi, R., Purushothaman, S. Singh, and V. Vadez. 2014. Large variation for salinity tolerance in the core collection of foxtail millet (Setaria italica (L.) P. Beauv.) germplasm. Crop and Pasture Science 65(4): 353–361. http://dx.doi.org/10.1071/CP13282 Lee C. and J. Henning. 2014. Millet. Univ. of KY Coop. Ext. Serv., College of Ag., Food, and Env. Center for Crop Diversification. http://www.uky.edu/Ag/CCD/introsheets/millet.pdf. (accessed 3 Sept. 2014). Morse, R.D. 1995. No-till, no-herbicide systems for production of transplanted broccoli. p. 113– 116. In W.L. Kingery and N. Buehring (eds.) Conservation farming—a focus on water quality. Proc. South. Reg. Conserv. Tillage for Sustain. Agric., Jackson, Miss. 26–28 Jun. 1995. Myers, R.D., M. Spicknall, and A. Hawkins. 2000. Planting sugar snap peas into German foxtail millet for pumpkin market synchrony without herbicides. Univ. of MD Coop. Ext., Glen Burnie, MD. Oelke, E.A., E.S. Oplinger, D.H. Putnam, B.R. Durgan, J.D. Doll, and D.J. Undersander. 1990. Millets. In Alternative Field Crops Manual. Univ. of Wisc.-Ext. Serv., Univ. of Minn. Ext. Serv., and Univ. of Minn. CAPAP. http://www.hort.purdue.edu/newcrop/afcm/index.html (accessed 22 Aug. 2014) Schonbeck, M. and R. Morse. 2006. Cover crops for all seasons: expanding the cover crop tool box for organic vegetable producers. Vir. Assoc. for Biol. Farm. Info. Sheet. Publication # 3-06. Vollmer, E. R., N. Creamer, C. Reberg-Horton, and G. Hoyt. 2010. Evaluating cover crop mulches for no-till organic production of onions. HortScience 45(1):61– 70. Citation Sheahan, C.M. 2014. Plant guide for foxtail millet (Setaria italica). USDA-Natural Resources

Conservation

Service, Cape May Plant Materials Center, Cape May, NJ. Published 09/2014 Edited: 18Sep2014 aym; 23Sep2014 rg For more information about this and other plants, please contact your local NRCS field office or Conservation District at http://www.nrcs.usda.gov/ and visit the PLANTS Web site at http://plants.usda.gov/ or the Plant Materials Program Web site: http://plant-materials.nrcs.usda.gov.

http://www.nrcs.usda.gov/
http://plants.usda.gov/
http://plant-materials.nrcs.usda.gov/ PLANTS is not responsible for the content or availability of other Web sites.

Plant Traits

Growth Requirements

Temperature, Minimum (°F)52
Adapted to Coarse Textured SoilsNo
Adapted to Fine Textured SoilsYes
Adapted to Medium Textured SoilsYes
Anaerobic ToleranceNone
CaCO3 ToleranceNone
Cold Stratification RequiredNo
Drought ToleranceLow
Fertility RequirementLow
Fire ToleranceNone
Frost Free Days, Minimum110
Hedge ToleranceNone
Moisture UseLow
pH, Maximum6.9
pH, Minimum5.3
Precipitation, Maximum60
Precipitation, Minimum25
Root Depth, Minimum (inches)8
Salinity ToleranceLow
Shade ToleranceIntolerant


Morphology/Physiology

BloatNone
ToxicityNone
Resprout AbilityNo
Shape and OrientationErect
Active Growth PeriodSpring and Summer
C:N RatioMedium
Coppice PotentialNo
Fall ConspicuousYes
Fire ResistantNo
Flower ColorWhite
Flower ConspicuousNo
Foliage ColorGreen
Foliage Porosity SummerPorous
Foliage Porosity WinterPorous
Fruit/Seed ColorBrown
Fruit/Seed ConspicuousYes
Growth FormBunch
Growth RateRapid
Height, Mature (feet)5.0
Known AllelopathNo
Leaf RetentionNo
Low Growing GrassNo
Nitrogen FixationNone
Foliage TextureFine


Reproduction

Propagated by SeedYes
Propagated by SodNo
Propagated by SprigsNo
Propagated by TubersNo
Fruit/Seed PersistenceYes
Seed per Pound216600
Seed Spread RateModerate
Seedling VigorHigh
Small GrainNo
Vegetative Spread RateNone
Propagated by CormNo
Propagated by ContainerNo
Propagated by BulbNo
Propagated by Bare RootNo
Fruit/Seed Period EndWinter
Fruit/Seed Period BeginFall
Fruit/Seed AbundanceHigh
Commercial AvailabilityRoutinely Available
Bloom PeriodSummer
Propagated by CuttingsNo


Suitability/Use

Veneer ProductNo
Pulpwood ProductNo
Protein PotentialLow
Post ProductNo
Palatable HumanNo
Palatable Graze AnimalMedium
Palatable Browse AnimalMedium
Nursery Stock ProductNo
Naval Store ProductNo
Lumber ProductNo
Fodder ProductYes
Christmas Tree ProductNo
Berry/Nut/Seed ProductNo

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.

<i>Setaria italica</i> (L.) P. Beauv. var. metzgeri (Koern.) Jáv.