Sagittaria arifolia Nutt. ex J.G. Sm.

Scientific Name: Sagittaria arifolia Nutt. ex J.G. Sm.


Classification: Plantae/ Tracheobionta / Spermatophyta / Magnoliophyta / Liliopsida / Alismatidae / Alismatales / Alismataceae / Sagittaria L./ Sagittaria arifolia Nutt. ex J.G. Sm.

<i>Sagittaria arifolia</i> Nutt. ex J.G. Sm.
General Information
Usda SymbolSAAR26
GroupMonocot
Life CyclePerennial
Growth HabitsForb/herb
Native LocationsSAAR26

Plant Guide

Alternate Names

Indian potato, arrowhead

Uses

Ethnobotanic: Sagittaria is an aquatic plant with tuberous roots that can be eaten like potatoes. The tubers of Sagittaria species were eaten by many different Indigenous groups in Canada, as well as many groups of Washington and Oregon (Kuhnlein and Turner 1991). The tubers were widely traded from harvesting centers to neighboring areas. On the Lower Columbia in Chinook Territory, Katzie families owned large patches of the wapato plants. Family groups camped beside their harvesting sites for a month or more. Indian women collected wapato in shallow water from a canoe, or waded into ponds or marshes in the late summer and loosened the roots with their toes. The roots would rise to the top of the water where they were gathered and tossed into floating baskets. Today, the tubers are harvested with a hoe, pitchfork, or rake. Tubers are baked in fire embers, boiled, or roasted in the ashes. Tubers are skinned and eaten whole or mashed. After cooking, some tubers were dried and stored for winter use. The Chippewa gathered the "Indian potatoes" in the fall, strung them, and hung them overhead in the wigwam to dry. Later, they were boiled for use. Medicinally, the Maidu of California used an infusion of arrowhead roots to clean and treat wounds. The Navaho use these plants for headaches. The Ojibwa and the Chippewa used Sagittaria species as a remedy for indigestion. The Cherokee used an infusion of leaves to bath feverish babies, with one sip given orally. The Iroquois used wapato for rheumatism, a dermatological aid, a laxative, and as a ceremonial blessing when they began planting corn. © M. Kat Anderson USDA, NRCS, NPDC @ PLANTS Wildlife: The small, flattish seeds of arrowheads are eaten by ducks, and the tubers are valuable to many species of wildlife. Muskrat and porcupine are known to eat the tubers Swans, geese, wood ducks, blue-winged teal, lesser and greater scaup, ruddy duck, ring necked duck, pintail, mallard, mottled duck, gadwall, canvasback, black duck and king rail are known to eat arrowhead seeds and tubers (Martin 1951).

Status

Please consult the PLANTS Web site and your State Department of Natural Resources for this plant’s current status, such as, state noxious status and wetland indicator values.

Description

General: Arrowhead Family (Alismataceae). Sagittaria cuneata is an aquatic plant growing in swampy ground or standing water in ponds, lakes, stream edges, and ditches (Hickman 1993). Wapato have white or bluish tubers, which are edible. The leaves are sagittate, with 5-15 cm long erect or floating leaf blades; the lower lobes of the emergent leaf blades are less than the terminal lobe. The inflorescence is simple or branching, often with the lower flowers pistillate and the upper ones staminate. The flowers are white, with three white petals and 3 sepals. Stamens are numerous and bright yellow. The pistils are numerous, spirally arranged on the receptacle. The fruit is a greenish colored achene.

Distribution

For current distribution, please consult the Plant Profile page for this species on the PLANTS Web site. Sagittaria species are obligate wetland plants found in marshes and wetlands throughout temperate North America. Sagittaria cuneata is transcontinental, extending from north central Alaska to Labrador, extending south to California and northern Texas. In California, Sagittaria cuneata ranges from middle to high elevations < 2500 m. Sagittaria species grow in ponds, slow streams, ditches and freshwater wetlands.

Establishment

Sagittaria species may be planted from bare root stock, by transplanting the tubers, and by seeding directly into wetland soil. Live plant transplants or transplanting tubers are preferred revegetation methods where there is moving water. It takes two years for seed to germinate; planting bare root stock or tubers gives faster revegetation results. Live Plant Collections: No more than 1/4 of the plants in an area should be collected. A depth of 15 cm (6 in) is sufficiently deep for digging plugs. This will leave enough plants and rhizomes to grow back during the growing season. Wild plants should be collected from the time leaves emerge in spring until first frost. Plants can be pulled up easily from wet soil. When collecting wild plants, rinse roots gently. Leaves and stems can be clipped from 15 to 25 cm (6 to 10 inches); this allows the plant to allocate more energy into root production. The roots should always remain moist or in water until planted. Plants should be transported and stored in a cool location prior to planting. Water depth should be 0 to 6" and the soils should be wet. Sagittaria grows prolifically around ponds or wetlands in shallow water. Plug spacing of 25-30 cm will fill in within one growing season. Soil should be kept saturated, with approximately 1 cm of water over the surface of the soil after planting. If water is low in nutrients (oligotrophic), fertilization will speed biomass production and revegetation. Many surface waters are already rich in nutrients (eutrophic), and fertilization is not necessary. Transplanting tubers: Transplant success may be greater with the tubers than with bare root stock. The little underground potatoes can be separated from the parent plants with a rake, hoe, or shovel. In unconsolidated soils, the tubers can be pulled up by hand by searching around the roots of the plant. After collecting, the Sagittaria tubers should be kept moist and cool, and stored in peat moss. Wapato tubers are then planted in shallow water, in the same conditions as described above for the whole plants. Tubers should be collected and planted when plants are dormant, in the fall, winter and early spring. Seeds: Seeds of Sagittaria species take two years to germinate, because they have a double dormancy requiring cold then warm then cold temperatures. Temperature has a multiple role in the regulation of timing of germination. Dormant seeds become nondormant only at specific temperatures, non-dormant seeds have specific temperature requirements for germination, and nondormant seeds of some species are induced into dormancy by certain temperatures. Once Sagittaria seeds germinate, they have fairly high viability. Procedures for growing Sagittaria seeds in the greenhouse have not been developed at this time; however, Sagittaria seeds can be planted directly in wetlands or ponds. Prepare the area by creating a washboard in shallow water, at mudflat consistency. Seeds should then be scattered on the surface of the soil, as the seeds need sunlight to germinate well. Light and temperature in natural conditions will promote seed germination, and in two years Sagittaria plants will emerge.

Management

Hydrology is the most important factor in determining wetland type, revegetation success, and wetland function and value. Changes in water levels influence species composition, structure, and distribution of plant communities. Water management is absolutely critical during plant establishment, and remains crucial through the life of the wetland for proper community management. Sagittaria species require moist soils to standing water for successful revegetation. Muskrats have evolved with wetland ecosystems and form a valuable component of healthy functioning wetland communities. Muskrat eat-outs increase wetland diversity by opening up the dense tule and cattail stands, and providing opportunities for aquatic vegetation, such as Sagittaria to become established in the open water. Muskrat huts provide a substrate for shrubs and other plant species. Caches of Sagittaria tubers stored by muskrat and beaver were often sought by Indian people. We have no record of specific traditional resource management techniques other than anecdotal information of the use of fire to keep dense tule marshes open, which provided an opportunity for colonization and spread of Sagittaria species. The harvest of arrowhead was usually made in late summer as the stems and leaves were dying (and usually when the water table was lower) (Balls 1962). Cultivars, Improved and Selected Materials (and area of origin) This species is readily available from native plant nurseries within its range. Contact your local Natural Resources Conservation Service (formerly Soil Conservation Service) office for more information. Look in the phone book under ”United States Government.” The Natural Resources

Conservation

Service will be listed under the subheading “Department of Agriculture,” , Use soil moisture sensors to measure the soil moisture of Sagittaria arifolia Nutt. ex J.G. Sm..

References

Angier, B. 1974. Field guide to edible wild plants. Stackpole Books. 255 pp. Barrett, S.A. & E.W. Gifford 1933. Miwok material culture Indian life of the Yosemite region. Yosemite Association. Yosemite National Parks, California. 388 pp. Clarke, C. B. 1977. Edible and useful plants of California. University of California Press. 280 pp. Densmore, F. 1974. How Indians use wild plants for food, medicine and crafts. Dover Publications, Inc., New York, New York. 397 pp. Fowler, C. S. 1992. In the shadow of Fox Peak. An ethnography of the Cattail-Eater Northern Paiute People of Stillwater Marsh. Cultural Resource Series #5. USDI, FWS, Stillwater National

Wildlife

Refuge. 264 pp. Gilmore, M. R. 1977. Uses of plants by the Indians of the Missouri River region. University of Nebraska Press, Lincoln and London. 125 pp. Goodrich, J., C. Lawson, & V. P. Lawson 1980. Kashaya Pomo Plants. Heyday Books. Berkeley, California. 171 pp. Harrington, H.D. 1972. Western edible wild plants. The University of New Mexico Press. 156 pp. Hedrick, U.P. 1972. Sturtevant's edible plants of the world. Dover Publications, Inc., New York, New York. 686 pp. Hoag, J.C. & M. E. Sellers 1995. Use of greenhouse propagated wetland plants versus live transplants to vegetate constructed or created wetlands. Interagency Riparian/Wetland Plant Development Project. USDA, NRCS, Plant Materials Center, Aberdeen, Idaho. Hoag, J.C. & M.E. Sellers 1994. Seed and live transplant collection procedures for 7 wetland plant species. Interagency Riparian/Wetland Plant Development Project, USDA, NRCS, Plant Materials Center, Aberdeen, Idaho. Kuhnlein, H.V. & N.J. Turner 1991. Traditional plant foods of Canadian Indigenous peoples. Nutrition, Botany and Use. Gordon and Breach Science Publishers. 633 pp. Martin, A.C., H.S. Zim, & A. L. Nelson 1951. American wildlife and plants: A guide to wildlife food habits. Dover Publications, Inc., New York, New York. 500 pp. Mason, H.L. 1957. A flora of the marshes of California. University of California Press. 878 pp. Mayer, K.E. & W.F. Laudenslayer Jr. (eds) 1988. A guide to wildlife habitats of California. USDA, Forest Service, California Department of Fish and Game, and PG&E. Moerman, D.E. 1986. Medicinal plants of Native America. University of Michigan Museum of Anthropology. Technical Reports, Number 19. 534 pp. Peterson, L.A. 1977. A field guide to edible wild plant. Eastern and central North America. Houghton Mifflin Company. 330 pp. Strike, S.S. 1994. Ethnobotany of the California Indians. Volume 2. Aboriginal uses of California's indigenous plants. Koeltz Scientific Books, USA/Germany. 210 pp.

Plant Traits

Growth Requirements

Temperature, Minimum (°F)-33
Adapted to Coarse Textured SoilsNo
Adapted to Fine Textured SoilsYes
Adapted to Medium Textured SoilsYes
Anaerobic ToleranceHigh
CaCO3 ToleranceHigh
Cold Stratification RequiredNo
Drought ToleranceNone
Fertility RequirementLow
Fire ToleranceNone
Frost Free Days, Minimum95
Hedge ToleranceNone
Moisture UseMedium
pH, Maximum8.6
pH, Minimum4.7
Precipitation, Maximum50
Precipitation, Minimum14
Root Depth, Minimum (inches)14
Salinity ToleranceNone
Shade ToleranceIntolerant


Morphology/Physiology

After Harvest Regrowth RateSlow
ToxicityNone
Resprout AbilityNo
Shape and OrientationErect
Active Growth PeriodSpring
BloatNone
Coppice PotentialNo
Fall ConspicuousNo
Fire ResistantNo
Flower ColorYellow
Flower ConspicuousYes
Foliage ColorGreen
Foliage Porosity SummerModerate
Foliage Porosity WinterPorous
Fruit/Seed ConspicuousNo
Growth FormBunch
Growth RateModerate
Height, Mature (feet)2.6
Known AllelopathNo
Leaf RetentionNo
LifespanModerate
Low Growing GrassNo
Nitrogen FixationNone
Foliage TextureMedium


Reproduction

Propagated by CuttingsNo
Propagated by SeedYes
Propagated by SodNo
Propagated by SprigsNo
Propagated by TubersNo
Fruit/Seed Period EndSummer
Seed per Pound77000
Seed Spread RateModerate
Small GrainNo
Vegetative Spread RateNone
Propagated by ContainerNo
Propagated by BulbNo
Propagated by Bare RootNo
Fruit/Seed PersistenceNo
Fruit/Seed Period BeginSummer
Fruit/Seed AbundanceMedium
Commercial AvailabilityRoutinely Available
Bloom PeriodIndeterminate
Propagated by CormNo


Suitability/Use

Veneer ProductNo
Pulpwood ProductNo
Post ProductNo
Palatable HumanNo
Palatable Browse AnimalHigh
Nursery Stock ProductNo
Naval Store ProductNo
Lumber ProductNo
Fodder ProductNo
Christmas Tree ProductNo
Berry/Nut/Seed ProductNo

<i>Sagittaria arifolia</i> Nutt. ex J.G. Sm.

<i>Sagittaria arifolia</i> Nutt. ex J.G. Sm.

[Plant Index] [Site Map]