Wyethia amplexicaulis

Wyethia amplexicaulis
Conservation status
Apparently Secure  (NatureServe) [1]
Scientific classification
Kingdom:	Plantae
Phylum:	Tracheophytes
Clade:	Angiosperms
Clade:	Eudicots
Clade:	Asterids
Order:	Asterales
Family:	Asteraceae
Genus:	Wyethia
Species:	W. amplexicaulis
Binomial name
Wyethia amplexicaulis (Nutt.) Nutt.
Synonyms [2]
Espeletia amplexicaulis Nutt. Wyethia amplexicaulis subsp. major Piper Wyethia amplexicaulis subsp. subresinosa Piper Wyethia lanceolata Howell

Wyethia amplexicaulis is a common herbaceous perennial plant from the northwestern United States called northern wyethia, northern mule ears, or black sunflower. Because of its tendency to grow together in dense colonies and its large, showy flowering heads it is a well known western wildflower that is often photographed. It is disliked by range managers because its leaves are not very palatable to large herbivores including livestock.

Description

Wyethia amplexicaulis is a cool-season forb (a flowering plant with broad leaves) that usually grows 25–50 centimeters (9.8–20 in) tall, but may occasionally reach 100 centimeters (39 in). ^{[3] [4]} It has many leaves that grow directly from the base of the plant (basal leaves) that are most often 15–30 centimeters (5.9–12 in) long, though sometimes reaching about 40 centimeters (16 in). ^[3] Their width is usually about 15 centimeters (5.9 in). ^[4] The leaves are a shining green, especially on the upper surface due to a light coating of resin (vernicose), with a smooth surface and have a range of possible shapes. They can be slightly lance point shaped, but widest at the midpoint and tapering smoothly to the tip and base (lance-elliptic), somewhat more rectangular in shape with the sides becoming more parallel, but still with an overall lance point shape (oblong-lanceolate), or fully lanceolate, long and narrow with a very pointed tip and tapered base. The edges of the leaves are most often smooth (entire), but will sometimes have small, fine teeth (denticulate) or even be clearly toothed (dentate), but they never have hairs on the edges of the leaves. ^[3] The basal leaves are attached by a short stem. ^[5]

The leaves attached to the stems are the same in shape, but become smaller the higher up they are attached and those highest up lack a leaf stem with the base of the leaf clasping the stem. ^{[3] [6]} The leaves attached to the stem are arranged alternately on it. ^[5]

Wyethia amplexicaulis

Closely packed disc flowers surrounded by ray flowers each with a single larger petal

The plants flower May through July. ^[3] Most often there are 2–8  flower heads, though occasionally a plant will only produce only one. ^{[4] [3]} The flowering head at the end of the stem (the terminal flower head) is generally the largest with the other flowering heads sprouting from where leaves attach to the stem (axillary heads) being smaller in size. ^[5] The structure supporting the flower head (the involucre) ranges in shape from half a sphere to being more of a beetroot shape and is 15–30 millimeters in diameter. The number of bracts (phyllaries) is 18 to more than 36 and have smooth faces without hairs along the edges and the outer ones being the longest at 18–32 millimeters. The ray flowers are large and showy, bright yellow-orange with the petals 25–60 millimeters long. ^{[3] [7]} Usually there are 8 to 21 ray flowers, but occasionally there may be as many as 25. ^[3]

The fruit is technically called a cypsela, a type of dry fruit that resembles an achene. ^[3] Even botanical professionals will frequently say that it produces achenes and non-botanists such as gardeners will usually simply refer to these fruits as seeds. ^{[4] [8]} Each fruit is 8–9 millimeters long, four sided and has a low crown of small scales at one end. ^{[3] [8]}

The root structure of Wyethia amplexicaulis, scale in feet

The taproot of Wyethia amplexicaulis is large, 4–7 centimeters (1.6–2.8 in) in diameter, and can reach depths of 1.8 meters (5 ft 11 in) into the soil. ^[9] Lateral roots can grow to around one meter in length, excluding the main root. ^[4] At the top of the roots is a structure called a caudex, that can be simple or branched. ^[5] The caudex will be covered in buds resembling that of woody plants. ^[8] All parts of Wyethia amplexicaulis, leaves, stems, and flowers have a strong odor. ^[5]

Wyethia amplexicaulis may be confused with other sunflower like species such as Balsamorhiza (balsamroot), but can be distinguished by the varnish covered leaves that clasp the stem and lack hairs or divisions to the leaves. ^{[6] [10]} Though W. amplexicaulis is very distinct from its relatives Wyethia helianthoides and Wyethia arizonica , both of these species having many hairs upon their leaves and stems, there can be at times some confusion as W. amplexicaulis will hybridize with both these species where their ranges overlap. ^[11]

Taxonomy

Field of Wyethia amplexicaulis in bloom, Steamboat Lake State Park, Colorado

Wyethia amplexicaulis was first described and named by Thomas Nuttall in 1834 as Espeletia amplexicaulis from preserved specimens collected by Nathaniel Jarvis Wyeth in 1833. ^{[2] [12] [7]} However, when he was able to observe the plant himself during an expedition in 1834 to 1835 he revised his opinion. In a lecture presented to the American Philosophical Society on 2 October 1840 he presented his new view that it belonged in genus Wyethia where he had already placed and named Wyethia helianthoides. ^[13]

After Nuttall's placement of Wyethia amplexicaulis within Wyethia its classification has remained fundamentally the same. There have been some publications where some portion of W. amplexicauliswas split off as a new species or as subspecies. In 1900 Thomas J. Howell published a description of Wyethia lanceolata from the Blue Mountains of Oregon. ^{[2] [14]} More deliberately Charles Piper proposed creating two subspecies, Wyethia amplexicaulis subsp. major and Wyethia amplexicaulis subsp. subresinosa in 1914. ^[7] Though these classification were used by botanists for a time, as of 2023 they are listed as synonyms for W. amplexicaulis in Plants of the World Online (POWO), World Flora Online (WFO), and the Flora of North America. ^{[2] [15] [3]}

Modern genetic research confirms the placement of Wyethia amplexicaulis within a clade of the same name. Its closest relatives are Wyethia angustifolia, Wyethia helianthoides, and Wyethia longicaulis. The other five members of the clade are more closely related to each other. Wyethia glabra being closely related to Wyethia helenioides and Wyethia bolanderia , while Wyethia arizonica, and Wyethia mollis also forming a small sub group within the clade. ^[16] When W. amplexicaulis crosses with W. arizonica it produces the natural hybrid Wyethia × magna which is found in the central and southern parts of the Colorado's West Slope. ^[3]

Names

The genus name, Wyethia was selected by Nuttall to honor the first scientific collections of the genus by Nathaniel Wyeth. The species name, amplexicaulis, is new Latin meaning the base surrounds the stem (amplexus: to entwine or embrace + i + caulis: a stem or cabbage). ^[6] Some of the common names derive from the scientific name such as "northern wyethia", "mule-ear wyethia", or simply "wyethia". ^{[17] [6] [4]} Many of the common names such as "northern mule ears", "yellow mule's-ears", "mule ears", "mule-ears", or "mule ear dock" are comparing the shape of the leaves to that of a mule or mule deer. ^{[18] [19] [20] [4]} Other common names like "black sunflower" and "smooth dwarf sunflower" make reference to the general resemblance of the flowers to that of one of the most well known of the Asteraceae. ^{[4] [21]}

The Goshute people of Utah call Wyethia amplexicaulis pi'-a-kĕn-dzĭp in their own language. ^[22] The Shoshone people living in what is now Nevada call it be-ah-kuk in their language. ^[23]

Range and habitat

Field of Wyethia amplexicaulis in bloom, Fox Creek Mountains, Nevada

The natural range of Wyethia amplexicaulis is from the Pacific Northwest of the United States, mostly east of the Cascade Mountains in Washington and Oregon, to the Rocky Mountains in Montana and Wyoming. It is not known to grow in Canada, though it comes close to the border in Idaho. It grows as far south as Nevada, Utah, and northern Colorado. ^[24]

Wyethia amplexicaulis grow most vigorously in meadows that are at least seasonally moist, but not permanently waterlogged. ^[9] They grow near shadscale, sagebrush steppe, within juniper scrublands, between and in aspen groves, and in meadows in the lower montane zone. ^{[25] [26] [27]} While they will grow on many soil types, they thrive on heavier soils such as clay soil types and are more likely to dominate them. ^[25] In addition they most often grow in areas that are flat or with gentle slopes. ^[28]

Conservation

Wyethia amplexicaulis was evaluated by NatureServe as apparently secure (G4) in 2003. At the state level they evaluated it as "vulnerable" S3 in Wyoming, but has not yet evaluated its status for any other state as of 2023. ^[1]

Ecology

Wethia amplexicaulis under Aspens, Nevada

Wyethia amplexicaulis is often locally abundant, forming dense populations that are dominate or co-dominate with another species such as the grass Poa nevadensis . When overgrazed W. amplexicaulis will increase its cover particularly on clay soils. ^{[25] [26]} Once dominance is established by W. amplexicaulis due to overgrazing it is very difficult for other species to reestablish themselves. The open park like areas are a dense knee high expanse of green leaves with only a few other species scattered within it such as Lupinus species, Drymocallis glandulosa , Potentilla gracilis , and Symphoricarpos oreophilus . ^[26] Wildfires also increase the number of W. amplexicaulis in the landscape in the years after the fire, though the immediate effects on plants is not yet documented. ^[4]

Early in the growing season the tender young foliage of Wyethia amplexicaulis is eaten by mule deer, though it is not preferred forage. Likewise sheep will eat their leaves in the spring and early summer. The mature leaves are coarse and dry out by mid-summer, so the plants are not much consumed later in the season. They are not much grazed by other large herbivores like cattle and elk. Though elk, deer, and all livestock eat the flower heads with apparent enjoyment. ^[4] Though it is not preferred forage, there are no reported livestock losses from its consumption. ^[5]

Wyethia amplexicaulis is one of many plants consumed by the insect Allorhinocoris speciosus , a true bug in the family Miridae (leaf bugs). ^[29]

Galls are formed on the leaves of Wyethia amplexicaulis by the nematode Anguillulina balsamophila . They enter developing leaves on the caudex of the plant and form galls in the leaves as they mature. Very heavily infested plants can be stunted by this. ^[30]

Wyethia amplexicaulis in bloom being visited by Bombus fervidus , Steamboat Lake State Park, Colorado

Pollinators

In northern Utah the bee Osmia californica collects the majority of the pollen it needs to provision its young from just three related flowers, Balsamorhiza macrophylla , Wyethia amplexicaulis, and Helianthella uniflora . In one study conducted in the 1990s, 74.3–87.7% of the pollen collected by the bees was from these plants. Neal M. Williams hypothesizes that this specialization is much about the efficiency that the female O. californica bees have in collecting from flowers in Heliantheae as the nutritional needs can be met by other pollen from other flowers in laboratory experiments. ^[31] Likewise the bee Osmia montana relies heavily on pollen collected from flowers in the family Asteraceae the including Wyethia amplexicaulis. The small carpenter bee Ceratina acantha , which is not selective in the flowers it visits, has also been recorded visiting it. ^[32]

Field of Wyethia amplexicaulis Grand Teton National Park

Uses

Cultivation

Because of their showy display when massed together, northern wyethia is sometimes planted in wildflower gardens. Though they provide strong early cover and growth they tend to be planted together with other wildflowers like blue flax ( Linum lewisii ), blanket flower ( Gaillardia pulchella ), or tufted evening primrose ( Oenothera caespitosa ) as they are vigorous in mid to late spring, but fade in the heat of summer. ^[8]

The main method of propagation for northern wyethia in gardens is the same as in the wild, seeds. The seeds require at least one month of cold, moist stratification for successful germination at temperatures below 4.5 °C (40 °F). They are planted by gardeners at an approximate depth of 6 millimeters either directly in the soil in their final location or in flats or pots. Plants in containers are moved to their planting location in the fall after a season of growth. Northern wyethia can also be propagated by root divisions in the fall or early spring before growth starts. Each piece of root must have at least one bud. ^[8]

Northern wyethia performs best in somewhat heavier soils such as clay-loam with a moderate amount of moisture, however it is adaptable to many soil types including gravel. The ideal pH is 6.0–7.5, a more neutral rather than acidic or alkaline soil. It is winter hardy in USDA zones 4–8. ^[8]

Traditional uses

The seeds of Wyethia amplexicaulis have been gathered by the Goshute people of Utah as a food source. Tightly woven baskets were traditionally used to gather the seeds from the mature flower heads by knocking the seed heads with a tool made of wood into the basket under it. ^[22]

References

1. NatureServe (2023). "Wyethia amplexicaulis". NatureServe Explorer. Arlington, Virginia. Retrieved 24 August 2023.
2. "Wyethia amplexicaulis (Nutt.) Nutt". Plants of the World Online . Royal Botanic Gardens, Kew . Retrieved 20 August 2023.
3. Weber, William A. (5 November 2020). "Wyethia amplexicaulis – FNA". Flora of North America. Retrieved 21 August 2023.
4. Matthews, Robin F. (1993). "Wyethia amplexicaulis". Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. Retrieved 21 August 2023.
5. Stubbendieck, James L. (2011). North American Wildland Plants : a Field Guide (2nd ed.). Lincoln, Nebraska: University of Nebraska Press. ISBN   978-0-8032-3485-7 . Retrieved 23 August 2023.
6. Shaw, Richard J. (1995). Utah Wildflowers : a Field Guide to Northern and Central Mountains and Valleys. Logan, Utah: Utah State University Press. p. 70. ISBN   978-0-87421-170-2 . Retrieved 21 August 2023.
7. Piper, Charles V. (1914). "Wyethia helianthoides Nuttall and Wyethia amplexicaulis Nuttall". Proceedings of the Biological Society of Washington. 27: 97–98. ISSN   0006-324X . Retrieved 21 August 2023.
8. Art, Henry Warren (1990). The Wildflower Gardener's Guide. Pacific Northwest, Rocky Mountain, and Western Canada Edition (1st ed.). Pownal, Vermont: Storey Communications, Inc. p. 154. ISBN   978-0-88266-584-9 . Retrieved 22 August 2023.
9. Weaver, John Ernest (1917). A Study of the Vegetation of Southeastern Washington and Adjacent Idaho. Lincoln, Nebraska: University of Nebraska. pp. 106–107. Retrieved 23 August 2023.
10. Shaw, Richard J. (2004). Wildflowers of Grand Teton and Yellowstone National Parks : Including the Greater Yellowstone Ecosystem. Helena, Montana: Wheelwright Press. p. 21. ISBN   978-0-9702067-2-5.
11. Weber, William A. (November 1952). "The Glabrate Form of Wyethia Arizonica". Leaflets of Western Botany. VI (12). San Francisco, California: John Thomas Howell: 223–225. Retrieved 23 August 2023.
12. Nuttall, Thomas (1834). "A Catalogue of a Collection of Plants Made Chiefly in the Valleys of the Rocky Mountains or Northern Andes, Towards the Sources of the Columbia River, by Mr. Nathaniel B. Wyeth, and Described by T. Nuttall". Journal of the Academy of Natural Sciences of Philadelphia. 7 (1). Academy of Natural Sciences of Philadelphia: 38. Retrieved 20 August 2023.
13. Nuttall, Thomas (1841). "Article XX. – Descriptions of new Species and Genera of Plants in the natural Order of the Composit, collected in a Tour across the Continent to the Pacific, a Residence an Oregon, and a Visit to the Sandwich Islands and Upper California, during the Years 1834 and 1835". Transactions of the American Philosophical Society. 7. American Philosophical Society: 283, 352–353. doi:10.2307/1005312. JSTOR   1005312 . Retrieved 19 August 2023.
14. Howell, Thomas (1903). Flora of northwest America Vol. 1. Portland, Oregon: Thomas Howell. p. 341. Retrieved 23 August 2023.
15. WFO (2023). "Wyethia amplexicaulis (Nutt.) Nutt". World Flora Online. Retrieved 24 August 2023.
16. Moore, Abigail J.; Bohs, Lynn (1 July 2007). "Phylogeny of Balsamorhiza and Wyethia (Asteraceae: Heliantheae) Using ITS, ETS, and trnK Sequence Data" (PDF). Systematic Botany. 32 (3): 682–691. doi:10.1600/036364407782250661. S2CID   34269095 . Retrieved 23 August 2023.
17. Jolley, Russ (1988). Wildflowers of the Columbia Gorge : a Comprehensive Field Guide. Portland, Oregon: Oregon Historical Society Press. p. 272. ISBN   978-0-87595-188-1 . Retrieved 21 August 2023.
18. Blackwell, Laird R. (Laird Richard) (2005). Great Basin Wildflowers : a Field Guide to Common Wildflowers of the High Deserts of Nevada, Utah, and Oregon (1st ed.). Guilford, Connecticut: FalconGuide. p. 134. ISBN   978-0-7627-3805-2 . Retrieved 21 August 2023.
19. Shaw, Richard J. (1981). Plants of Yellowstone and Grand Teton National Parks (2nd ed.). Salt Lake City, Utah: Wheelwright Press Ltd. p. 70. ISBN   978-0-937512-02-9 . Retrieved 21 August 2023.
20. Earle, A. Scott (2012). Idaho Mountain Wildflowers : a Photographic Compendium (3rd ed.). Boise, Idaho: Larkspur Books. p. 50. ISBN   978-0-615-58854-4 . Retrieved 21 August 2023.
21. Carr, R. (24 December 2019). "Wyethia amplexicaulis". Flora of Eastern Washington and Adjacent Idaho. Eastern Washington University. Retrieved 21 August 2023.
22. Chamberlin, Ralph Vary (1964). The Ethno-Botany of the Gosiute Indians of Utah. New York: Kraus Reprint Corporation. p. 341. Retrieved 23 August 2023.
23. "Shoshoni Dictionary". Shoshoni Language Project. The University of Utah. Retrieved 24 August 2023.
24. Wyethia amplexicaulis, USDA Natural Resources Conservation Service PLANTS Profile, 22 August 2023
25. Jankovsky-Jones, Mabel.; Jankovsky-Jones, Mabel; Murphy, Chris; Coulter, Cyndi; Moseley, Robert K. (2001). Riparian and Wetland Plant Associations of Southwestern Idaho : With a Focus on the Bureau of Land Management's Lower Snake River District. U.S. Dept. of the Interior, Bureau of Land Management, National Science and Technology Center, Information and Communications Group. pp. 167–168. Retrieved 23 August 2023.
26. Youngblood, Andrew P.; Mueggler, Walter F. (April 1981). Aspen Community Types On The Bridger-Teton National Forest in Western Wyoming. United States Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. pp. 11, 20. Retrieved 23 August 2023.
27. Mueggler, W. F.; Campbell, Robert B. (1982). Aspen Community Types on the Caribou and Targhee National Forests in Southeastern Idaho. Ogden, Utah: U.S. Dept. of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. pp. 18–19.
28. "Mulesear". Range Plants of Utah. Utah State University Extension. Retrieved 23 August 2023.
29. Schwartz, Michael D.; Asquith, Adam; Lattin, John D. (1989). "The Genus Allorhinocoris in North America (Heteroptera: Miridae: Mirinae)". Pan-Pacific Entomologist. 65 (3). Retrieved 23 August 2023.
30. Goodey, J. Basil (June 1948). "The Galls Caused by Anguillulina balsamophila (Thorne) Goodey on the leaves of Wyethia amplexicaulis Nutt. and Balsamorhiza sagittata Nutt". Journal of Helminthology. 22 (2): 109–116. doi:10.1017/s0022149x00032223. PMID   18873200. S2CID   38551997.
31. Williams, Neal M. (January 2003). "Use of novel pollen species by specialist and generalist solitary bees (Hymenoptera: Megachilidae)". Oecologia. 134 (2): 229, 231, 235. Bibcode:2003Oecol.134..228W. doi:10.1007/s00442-002-1104-4. PMID   12647164. S2CID   12957563.
32. Krombein, Karl V.; Hurd, Paul D.; Smith, David R.; Burks, B. D. (1979). Catalog of Hymenoptera in America North of Mexico Vol. 2. Washington, D.C.: Smithsonian Institution Press. pp. 2035, 2181, 2182. Retrieved 24 August 2023.