First overview block: Camassia quamash, Liliaceae, English Names,Common camas, Small camas, Swamp sego
General: Scapose perennial from a deep-seated bulb, the scape 2-7 dm. tall. Leaves: Leaves several, all basal, 8-20 mm. broad, considerably shorter than the scape. Flowers: Inflorescence a raceme, many-flowered, 5-30 cm. long; pedicels 10-20 mm. long, spreading, arched or ascending in flower, incurved-erect in fruit; flowers pale to deep blue or violet, somewhat irregular; tepals 6, distinct, 15-35 mm. long and 2-8 mm. broad, narrowed at base, lowest segment curved outward and downward away from the others, all withering separately and exposing the ovary; stamens 6, anthers yellow or blue, style slender, stigmas 3. Fruit: Capsule ovoid, 3-celled, 1-2.5 cm. long. A bulbous plant with basal clusters of narrow, grass-like, bright green leaves. The flowering racemes are 1-3 ft. tall with dozens of showy, star-like, sky- to deep-blue flowers. Light to deep blue-violet, star-shaped flowers in a raceme; several narrow, grass-like leaves grow mostly near the base. The three sepals and three petals all share the blue color. This species is sometimes so frequent as to color entire meadows blue-violet. Indians pit-roasted the bland bulbs with other leaves, and also boiled them, which yielded a good syrup. Another similar species is Leichtlins Camas (C. leichtlinii), which grows only west of the Cascade Mountains, from southern British Columbia to the southern portion of Californias Sierra Nevada, and has radially symmetrical flowers.
Distribution Both sides of the Cascades, British Columbia to California, east to Montana and Utah. Ecological Setting Open, moist areas, often where dry by late spring, at low to mid-elevations in the mountains.
Mesic to vernally moist meadows and grasslands in the lowland, steppe and montane zones (Douglas et al., 2001). Soil Texture Fine, medium or coarse soils Nutrients Nitrogen rich soils. Soil Reaction / Salinity 5.7-7.0 – no salinity tolerance, low CaCO3 tolerance pH 5.1 to 7.8 (Dave’s Garden, 2006). Moisture Regime High moisture use – no drought tolerance Shade Tolerance Shade-intolerant (Klinka et al., 1989). Successional Status In grasslands and meadows, it is most prevalent in initial and early seral communities, but also occurs in later seres.
Seral species on moist sites. Fire climax on drier sites (USDA, 2006).
Site Rehabilitation Useful for prairie restoration (USDA, 2006). Wildlife Livestock, deer, elk, moose, and caribou graze common camas and pigs consume the bulbs.
A good bee plant (PFF, 2006). Ungulates eat Camassia and gophers may even transport bulbs into new areas (Beckwith, 2004). Landscaping Common camas is planted as an ornamental
Use in meadows, grassy slopes and banks. Showy bloom with attractive seed heads. Excellent in borders, mixed borders and bulb beds. Very tough plant for exposed, hot dry sites once established (S. Bastin, personal communication). First Nations Common camas bulbs were eaten by western Indians, trappers, and early settlers. Many western Indian tribes also used the bulbs as a trade item.
Staple root crop pre-European contact. Prolonged pit cooking converts the high levels of inulin inherent in Camassia to digestible sugars. Hence, Camassia was a sweetener as well as an important trade item. The gathering of Camassia illustrates local systems of land management: family plots were well tended throughout generations and kept clear of weeds and rocks, actively maintained by hand and controlled burns for long-term harvest (Turner, 1995). Cakes have been formed, cooked and dried for storage and trade (Pojar & MacKinnon, 1994). Other Common camas was planted for mountain grassland restoration in western Washington, using bulbs salvaged from a nearby area undergoing subdivision. Plants can also be established by fall planting of seed.
Strongly associated with Coastal Douglas-fir (CDF) Zone and its dry sub-zone characterized by the presence of Quercus garryana (BCMOF, 1999).
Bulb - raw or cooked. The bulb, which can be up to 5cm in diameter, has a mild, starchy flavor when eaten raw, but a gummy texture that reduces the enjoyment of it somewhat. When cooked, however, it develops a delicious sweet flavor somewhat like sweet chestnuts, and is a highly nutritious food. Excellent when slow baked, it can also be dried and made into a powder which can be used as a thickener in stews or mixed with cereal flours when making bread, cakes, etc. The bulbs can be boiled down to make a molasses, this was used on festival occasions by various Indian tribes. The bulbs can be harvested at any time of the year, but are probably best in early summer when the seeds are ripe. One report says that the bulbs contain inulin (a starch that cannot be digested by humans) but that this breaks down when the bulb is cooked slowly to form the sugar fructose which is sweet and easily digested. Quamash bulbs were a staple food of the N. American Indians. The tribes would move to the Quamash fields in the early autumn and, whilst some people harvested the bulbs, others would dig a pit, line it with boulders then fill it with wood and set fire to it. The fire would heat the boulders and the harvested bulbs would then be placed in the pit and the whole thing covered with earth and the bulbs left to cook slowly for 2 days. The pit would then be opened and the Indians would feast on the bulbs until they could no longer fit any more in their stomachs. Whatever was left would be dried and stored for winter use.
Seed sample from: 2011
Average Measurement: 2.8 x 1.8 x 1.8
Measurement Range: L: 2.5 - 3.3, W: 1.5 - 2, D: 1.5 - 2.25
Shape: Narrow at hilum end, broadening out to a more rounded opposite end. CAQU slightly smaller than CALEI.
Color: Seeds black. Hilum more conspicuously contrasting seed color in CALEI than CAQU.
Surface: Seeds frequently pitted, glossy, and heavily wrinkled. CAQU tends to be more lustrous than CALEI. Seeds have a ridge that runs from hilum to opposite end.
Could be confused with: Camassia leichtlinii or Brodiaea coronaria
Basic Explanations and Assumptions:
The dimensions for the seeds are length x width x depth. The location of the hilum is used as the base of the seed, and the length is measured from hilum to the opposite apex. Where a style is present, the length is measured from the hilum to the bottom of the style. Width is measured at a right angle to the length at the widest part. Depth is measured at a right angle to the intersection of height and width lines.
Measurements included are the mean average for each measurement of ten separate seeds.
All measurements in millimeters unless otherwise noted.