Arkansas Native Plant Society

Know Your Natives – Bloodroot

Posted on March 20, 2015 by

Bloodroot (Sanguinaria canadensis) of the Papaveraceae (Poppy) Family occurs in eastern Canada and, in the U.S., from eastern Texas to North Dakota and eastward. In Arkansas, the species occurs primarily in the highlands in the northwestern half of the state, with a few scattered records in the Coastal Plain. Bloodroot, the only species in its genus, is a stemless perennial plant of rich, moist soils in well-drained, deciduous woodlands. Bloodroot is an ephemeral, that is, it thrives in full sun in early spring during its flowering and growing season, but goes dormant with the heat of summer. Plants have knobby, reddish rhizomes with coarse fibrous roots. Leaf height may reach ten inches. Rhizomes and leaves exude a reddish sap when cut. Colonies of bloodroot form from spreading rhizomes as well as from seed. The genus name relates to the Latin word for “bleeding”. Bloodroot is also known as red puccoon.*

Photo 1: Bloodroot emergent leaves and flower bud protected by a sheath growing from tips of rhizome. Note growth rings on rhizome.

Photo 2: Bloodroot flower buds emerge with and are enveloped by the leaves.

Bloodroot is one of the first plants to bloom in late winter/early spring. Single flowers with enclosing red-tinged leaf emerge together. Flowers bloom before the leaves mature. Leaves, after seed capsules have formed, are oval to orbicular with five to eight large, deeply cleft, irregularly rounded lobes along with smaller and less cleft lobes dividing the margins of large lobes. Petioles at leaf blades are deeply inset (i.e., the bases are heart-shaped). All leaf margins, including cleft/inset margins, are rounded to wavy. Upper leaf surface of mature leaves is light green with a bluish tinge while lower surface is whitish-green. Palmate venation and reticulated inter-veins are especially prominent on lower surface of the fleshy leaves. Leaves, three to five inches across, are glabrous (hairless). Four-inch long petioles are round in cross-section. Leaves quickly fade in early to mid-summer, depending on weather and sun conditions.

Flowers, up to two inches across, consist of eight to 16 pure white petals of varying widths and lengths which may overlap. Flowers have two light green sepals that fall off as the buds open. Petals have closely spaced parallel veins. A green, elongated ovary is topped by a short, light yellow stigma. Numerous radiating stamens with prominent, elongated yellow anthers encircle the pistil below the ovary. Petals are shed in one or two days of flower opening, with blooms in a colony lasting about a week.

Photo 3: Bloodroot flowers open near the ground while leaves are still growing.

Photo 4: Flowers of bloodroot may vary in appearance.

Flowers are pollinated by small bees and flies feeding on pollen. After fertilization, the supporting stalk for the ovary continues to grow but becomes hidden by the growing leaves. The ovary becomes an elongated, round, green, two-part seed capsule pointed at both ends. Capsules’ stalks are about 3-8 inches long and capsules are about 1-2 inches long. Ten to 16 dark seeds are ejected from dry capsules. Dispersed seeds have an attached external fleshy organ called an “elaiosome”. Seeds may germinate in the duff where they fall from the capsules or may be planted by ants (myrmecochory**) some distance away.

Photo 5: Note discarded flower parts in lower left and developing capsules.

Bloodroot is a nice plant for a garden or for naturalized areas that have deciduous tree shade and moist rich soil. The large, early and showy flowers and large distinctive leaves are very attractive. The plant readily self-seeds in favorable sites and could become too numerous in smaller gardens unless seed capsules are removed shortly after flowers bloom. Plant parts are toxic if ingested, and sap should not be used for body paint due to its escharotic effects (kills skin cells).

* Native Americans used red puccoon (bloodroot) and yellow puccoon (goldenseal) for dyes and treatments for various health issues. Goldenseal (Hydrastis canadensis) has yellowish sap.

** Myrmecochory: Word from Greek for “ant” and “dispersal”. For bloodroot and other plants (spring beauty, violets, trillium, etc), an elaiosme (a fleshy structure) is attached to seeds. Ants carry the seeds into their nests where elaiosomes are eaten. Seeds are then moved to waste disposal areas where germination may occur.

Article and photographs by ANPS member Sid Vogelpohl

Posted in Know Your Natives, Native Plants, White, Wildflowers | Tagged Bloodroot, Papaveraceae, Sanguinaria, Sanguinaria canadensis | 1 Comment

Know Your Natives: Coralberry

Posted on March 3, 2015 by

Coralberry (Symphoricarpos orbiculatus) of the Caprifoliaceae (Honeysuckle) Family occurs in the U.S. from Texas to South Dakota and Minnesota, eastward to central New England and southward, though it is infrequent to absent throughout much of the East Gulf Coastal and Southern Atlantic Coastal Plains. In Arkansas it occurs primarily in the northwestern half of the state in the Interior Highlands, with widely scattered occurrences in the West Gulf Coastal and Mississippi Alluvial Plains. Habitats include moist (but well-drained) to dry woodland openings and borders in partial to full sun, in loamy to sandy soils. Other common names for coralberry include “Indian currant” as well as “buckbrush” and “devil’s shoelaces” (the latter two names are also applied to other, unrelated species). The name of the genus is derived from Greek, meaning “closely grouped fruit”. Coralberry is the only species in the genus occurring in Arkansas.

Coralberry is a deciduous shrub two to four feet tall with arching branches and several main stems. It can eventually form a rounded, much-branched habit, especially if open-grown in ample light and with little crowding from other plants. Young branches in the spring are spindly, brownish green and variably hairy. With age, though, the branches develop exfoliating bark. Mature branches and main stems are rough and scaly. Although coralberry’s leaves are opposite, the previous years’ branches are not noticeably opposite since branches only grow from nodes facing sunlight. This growth pattern gives the shrub its arching appearance, accented too by the current year’s long, weaker branches which droop loosely.

Photo 1: Spring growth of an open-grown coralberry plant in a garden setting. Note a few of the previous year’s berries still remaining on the bush.

Photo 2: Segments of coralberry stems of various ages. Leaves and fruits occur on the youngest twigs. Young to medium-aged branches tend to exfoliate. Older stems and branches are rough and scaly.

Once a coralberry plant is established, it produces runners from the base of its main stems which grow horizontally in or just above the duff (leaf litter) layer. New plants form at ends of the runners and, occasionally, along the runners. Runners, from 1′ to 8′ long, become woody and remain connected to the parent plant even after new offset plants are firmly established. Dense clonal thickets of these runners and offset plants can form, wherein a person can be easily tripped (hence one of the common names, devil’s shoelaces, in reference to the runners).

Coralberry’s opposite, entire leaves, up to 2″ long and 1¼” wide, are oval to elliptic with turned-down margins and pinnate venation. The leaves, on ¼” petioles, have a medium green upper surface and light green lower surface. Upper leaf surfaces are hairless to slightly hairy while lower surfaces are slightly hairy to very hairy. Leaf tips and bases taper equally. Some leaves persist on the stems into winter, even after freezes.

Photo 3: Coralberry inflorescence clusters growing from leaf axils on current year’s twigs. Note flower buds (white arrow), calyces (red arrow) and developing ovaries/fruits (yellow arrow). Also note pinnate leaf venation.

Sessile, densely spaced, bell-shaped flowers occur in short spikes in leaf axils on current year’s new branches. The flowers are light green to rosy tinged. The ¼” long flowers have a short five-lobed tubular corolla, five stamens, a short green calyx with five teeth, and an inferior, pale green ovary. Flowers develop and mature simultaneously all around the shrub. Many flowers on a spike do not develop into full-size fruits, but are still retained on the spike.

Fruit development occurs over several months, with fruit maturing in late fall as plump, rounded to oddly shaped, ¼” purplish red berry-like drupes (stone fruits). Maturing fruit clusters consist of tightly packed drupes that surround the leaf bases. The fruit pulp is whitish and rather dry, with two small, tan stones per fruit, each slightly convex on one side. Fruit may be retained on the plant well into the following spring.

Photo 4: Mature, fully-developed fruits of coralberry along with some “berries” that have not fully developed.

Coralberry, which is shallow-rooted, can be managed as a single specimen shrub in a garden setting by frequently pruning runners. Along with its attractive, rounded, compact growth habit, its winter-long purplish red fruit provides a nice visual accent in the otherwise drab season. For naturalizing in a woodland understory or for erosion control, it can be allowed to send out runners and form colonies. The flowers attract bees, wasps and flies. Clearwing moth larvae will eat coralberry leaves. Leaves may be eaten by deer (thus another common name: buckbrush) and fruit may be eaten by various birds, but it apparently is not necessarily a preferred food choice for either. Coralberry colonies are used by near-ground-nesting birds and by small mammals for cover.

Photo 5: A well-fruited coralberry shrub growing in a garden setting. Runners have been removed.

Article and photographs by ANPS member Sid Vogelpohl

Posted in Green, Know Your Natives, Native Plants, Shrubs, Wildflowers | Tagged Caprifoliaceae, Coralberry, Symphoricarpos orbiculatus | 2 Comments

Know Your Natives – American Bluehearts

Posted on February 5, 2015 by Eric Hunt

American Bluehearts

Buchnera americana, commonly known as American Bluehearts, is a species in the Broomrape (Orobanchaceae) family. It is found in prairies, glades, moist areas, wet depressions, and open woods. It favors high quality habitats.

It is found in widely scattered counties across Arkansas. Outside of Arkansas it is found in the south-central states, along the Gulf and southern Atlantic Coasts and in Florida.

American Bluehearts - Buchnera americana

Closeup of the flowers

American Bluehearts are hemi-parasites. They are able to parasitize a wide variety of woody and non-woody plants or none if necessary. We know they can parasitize a range of trees, from oaks to pines to cottonwoods.

The flowers are held at the top of a slender inflorescence roughly 16 to 30 inches tall

Bloom time is summer and early to mid fall in Arkansas. The species is fire-dependent for seed germination and growth.

Fruit of American Bluehearts - Buchnera americana

Immature fruit

Article and photographs by ANPS member Eric Hunt

Posted in Know Your Natives, Native Plants, Purple, Wildflowers | Tagged American Bluehearts, Buchnera, Buchnera americana, Orobanchaceae, Wildflower | Leave a comment

Know Your Natives – Mistletoe

Posted on January 30, 2015 by

As many as twenty-three species of mistletoe in the genus Phoradendron, of the Santalaceae (Sandalwood) Family, have been identified in the U.S. (though some authorities lump them together into fewer species). Only one mistletoe of the genus is known to occur in Arkansas: Phoradendron leucarpum (in the strictest sense…a few others are sometimes lumped with it as subspecies). Phoradendron leucarpum ranges from Mexico into the U.S. to Arizona and Kansas, eastward to Illinois, New York and southward. In Arkansas, it occurs statewide. The genus name is derived from the Greek for “tree thief.” The word “mistletoe,” from Anglo-Saxon, relates to “twigs” and “birds.” Common names for the Arkansas species include oak mistletoe, eastern mistletoe, or just simply “mistletoe,” which is used herein. This species has previously been placed in the Loranthaceae or Viscaceae Families, an artifact of the evolving understanding of mistletoe taxonomy. Similarly, other scientific names have also been applied to this species, including Phoradendron serotinum. It should be noted that mistletoe is not the same as “witches’ broom,” which is actually a collection of deformed tree branches and twigs caused by fungi, viruses, pests, or bacteria.

Mistletoe is a perennial, evergreen shrub which depends on deciduous trees for its niche and birds to “plant” its seeds. Mistletoe, a hemiparasite, has its own chlorophyll to produce sugars, but relies on host trees for water, minerals, and other nutrients. Mistletoe favors mature, open-crowned host trees in open spaces or at edges of wooded areas. The plants tend to be found high up in trees or at the crown perimeter where sunlight is stronger and the hosts’ branches are of appropriate size–that is, branches not too thin and bark not too thick.

Photo 1: Mistletoe plants, often remaining hidden while host trees bear leaves, become starkly obvious in winter.

With stems of a single individual radiating in all directions from a single portion of a host’s branch, mature mistletoe shrubs may appear ball-like. The stems are bright green and break easily at swollen nodes from which leaves and side stems grow. A stem may be two or more feet long. Oblong to obovate leaves are bright green, thick, simple, opposite, and entire. Leaves range in size up to 1.5” long and 1” wide. The leaves and stems have a thick, waxy outer layer and are noticeably hairy when young. They are evergreen, with leaves persisting for years.

Mistletoe shrubs are either female or male (the species is dioecious). Inconspicuous, greenish-yellow squat flowers (less than 1/8” wide) are crowded on short axillary spikes in the fall. Flowers have a three-lobed calyx. Female and male flowers look similar, but with close examination, female flowers can be seen to have a style and stigma over an inferior ovary. Female shrubs have fewer flowers per spike as compared to male shrubs. Pollen is transported by wasps and bees.

Photo 2: A female mistletoe shrub with developing flower spikes.

Fruit development, in late fall into winter, first shows as green berries that become glassy bright white at maturity. The fruit, numerous and crowded, are round and about 1/8” in diameter. The smooth skin of the fruit easily separates from an inner mucous-like, very sticky glob (viscin) with one embedded, white, flattened seed. A tangle of fine hairs is embedded in the viscin.

Photo 3: A mature female mistletoe shrub showing ball-like structure and white fruit.

Photo 4: Close-up of mistletoe stem with fruit. Note that some fruit has already gone (yellow arrow) while several flowers persist (red arrow).

When birds eat (or attempt to eat) the fruit, the viscin may stick to their beaks and feet, causing the birds to scrape their beaks or feet on nearby branches to rid themselves of the sticky object. The viscin, with embedded strings, then dries to the branch in such a way to essentially glue the embedded seed to the host tree. A germinating seed produces a “radicle” (initial root sprout) which forms a “holdfast” that anchors the seed to the branch. Once anchored, the seed produces haustoria (specialized parasitic roots), which, all things favorable, penetrate the branch’s epidermis and grow into the xylem* and phloem* layers of the bark. Once water and nutrient flow is established from the host tree, the new mistletoe plant develops stems and leaves. With time, the haustoria extend laterally farther along the branch; however, stems continue to grow only from near the anchoring site.

Mistletoe takes all its water and minerals from the host’s xylem, as well as any sugars it cannot produce through its own photosynthesis from the phloem. Unless a host tree is significantly “overgrown” with mistletoe or during periods of extreme stress, such as severe droughts, the host tree is not usually significantly harmed except that the portion of the branch beyond a mistletoe shrub may become less vigorous and even die. If the stems of a mistletoe are broken off the host branch, the shrub can regrow from the parasitic roots within the branch. Mistletoe is the only hemiparasite that occurs on trees in Arkansas.

Some people see mistletoe as an “infestation” to be rid of, but mistletoe is an important part of the ecosystem. The fruit is an important food source for birds and and other animals, especially during dry years when mistletoe has all the water it needs from its host to bear fruit. The shrub provides shelter to birds and possible nest sites. Mistletoe is also the only plant on which caterpillars of the Great Purple Hairstreak (Atlides halesus) feed. Be aware, though, that mistletoe can be toxic to people and should not be consumed.

* Xylem is the transport tissue of vascular plants that moves water and soluble minerals from roots throughout the plant. Phloem is the alternate transport tissue that moves sugars produced in the leaves to the roots and developing fruit.

Article and photographs by ANPS member Sid Vogelpohl

Posted in Green, Know Your Natives, Native Plants, Wildflowers, Yellow | Tagged mistletoe, Phoradendron, Phoradendron leucarpum, Santalaceae | Leave a comment

Know Your Natives – Crane-Fly Orchid

Posted on January 16, 2015 by

Crane-fly orchid (Tipularia discolor) of the Orchidaceae (Orchid) Family is the only species of the genus found in North America. This perennial plant is found in the eastern US (except New England), west to Illinois and south to Texas. In Arkansas, the species occurs throughout much of the southern half of the state in the Gulf Coastal Plain and Ouachita Mountains, also extending up the Arkansas Valley and into portions of the Boston Mountains. It additionally can be found on Crowley’s Ridge. Habitat is moist, fairly rich soils on slopes and terraces of oak-pine forest and woodlands, often in sandy soils, but it sometimes also occurs in wetlands. Underground portions of crane-fly orchid consist of a series of connected edible corms with a few fibrous roots radiating form their bases. One to a couple of new corms branch off the previous corm so that, over time, sizable clumps can develop. Newly forming corms produce a single winter-time (hibernal) leaf that grows directly from the corm.

Glabrous leaves, appearing in late fall, mature to have a semi-glossy, dark green upper surface and strongly purple lower surface. Leaves, with acute tips, are up to 3 inches long and elliptic with parallel veins. Slight up-folding along veins gives leaves a convex corrugated appearance. The upper surface is often marked by raised purple spots. Winter-time leaves, easily seen in contrast to the decaying leaves and branches of a woodland floor (duff), lie mostly flat on the ground. Leaves persist through winter months and then wither well before flowering in summer.

Photo 1: Two new corms of crane-fly orchid growing from “current” corm. “Current” corm produced an inflorescence in previous summer. (Photo date: November 20, 2014)

Photo 2: Crane-fly orchid leaves showing strongly purple color of lower leaf surface and raised spots on upper surface. (Photo date: April 14, 2014)

At flowering in late summer, straight peduncles (flowering stems) with multiple flowers emerge from the duff. Flowering stems of crane-fly orchid occur singly from corms that developed and had leaves the past winter. Flowers, on pedicels (stems bearing individual flowers), occur along the upper half of peduncles in raceme-like inflorescences with all flowers (20 or more) maturing at the same time. Although peduncles are tall (15-18 inches), their obscure color and that of the flowers cause inflorescences to be difficult to see in summer-time woodlands.

Down facing flowers, ½ inch across, are greenish to purplish. Flowers have three sepals and two lateral petals. Flowers are asymmetrical (unusual for an orchid) due to the dorsal sepal and lip (labellum) being off-set to one side on the central axis. Also, one lateral petal is typically twisted down so that it overlaps the adjacent lateral sepal. Flowers have a spindly crane-fly-like character, hence the name. The lobed lip of the column, a modified third petal of irregular shape, attracts insects and provides a landing platform. A long spur (nectary), more than twice the length of the remainder of flower, extends back from the lip. Pollen packs (pollinia), attached to the eyes of noctuid moths, are transferred from flower to flower.

Photo 3: Crane-fly orchid peduncles with flowers. All flowers open and mature simultaneously. (Photo date: August 10, 2014)

Photo 4: Spindly and asymmetrical flowers said to resemble crane-flies. Note long nectary and adjacent “inferior” ovary. (Photo date: August 23, 2014)

After pollination, flowers form round, elongated, dangling seed capsules with slightly corrugated surfaces. Peduncles with capsules become dry and tan-colored and persist even when new leaves emerge in fall. Capsules contain multitudes of yellowish-tan, dust-like seed.

Photo 5: Peduncles of crane-fly orchid with mature seed capsules. (Peduncles arranged for photo.) (Photo date: October 26, 2014)

Crane-fly orchids should be welcome in any garden with suitable habitat. The plants provide a focal point in winter-time gardens while being innocuous. Plants remain dormant through drought periods.

Article and photos by ANPS member Sid Vogelpohl

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Posted in Know Your Natives, Native Plants, Wildflowers | Tagged Crane-fly orchid, Orchidaceae, Tipularia discolor | 1 Comment

Trees of Arkansas Is Now User-Friendly with Full Color Pictures

Posted on January 3, 2015 by

The tried and true handbook of the Arkansas Forestry Commission, Dwight Moore’s Trees of Arkansas, has been reissued (2014) in a smart, new, user-friendly, and full-color edition.

Photo by Joe Sundell

Moore’s book dates back to 1950, when the author revised Lewis M. Turner’s 1937 manual of the same name. For more than 60 years, Moore’s excellent handbook has been teacher and field guide to Arkansas’ schoolchildren and outdoor enthusiasts. (Until the 1989 publication of Carl Hunter’s Trees, Shrubs, & Vines of Arkansas, now regrettably out of print, it was the only field guide to our state’s beautiful, majestic, fascinating trees.)

The newly revised eighth edition of Trees of Arkansas faithfully conserves the heart of Dwight Moore’s book: his thorough, accurate species descriptions as well as his comprehensive and very readable overview of the forest regions of Arkansas. Also retained are the fine pen-and-ink drawings that date back to Arkansas’ original tree manual of 1924, Common Forest Trees of Arkansas: How to Know Them, by John T. Buchholz and Wilbur R. Mattoon. These detailed botanical drawings had lost clarity over many years of reprinting—finer structures such as the buds and bud scales of winter twigs, once so crisp, had become too muddy to be of any representational value. The line drawings were restored by technical editor Adriane Barnes using that factotum of the high tech age, the smart phone. Adriane photographed the line drawings, still sharp in Turner’s glossy 1937 manual, and sent them digitally to the manuscript of the new edition.

Two major changes to the old handbook should make this new effort an even better field companion: color photographs and rewritten identification keys.

Mexican plum. with unripe summer fruit and rough-textured leaves. See page 123. Photo by Mike Weatherford

Each of the 115 pages devoted to full descriptions of the trees is now illustrated with usually 2-3 color photos of leaves, flowers, fruits, and most significantly, bark. Colored fruits and flowers and even plain old green leaves turn black-and-white pages bright and lively—and of course supplement the line drawings that supplement Moore’s descriptions.

Mexican plum, with early, lovely spring flowers. See page 123. Photo by Mike Weatherford,

The bark photos, on the other hand, give visual information brand new to this edition.

Bark of Mexican plum. Photo by Mike Weatherford

Distinctive bark of Mexican plum. See page 123. Photo by Mike Weatherford

Photos were provided by Forestry Commission county foresters and other agency personnel as well as by several members of the Arkansas Native Plant Society: Linda Ellis, Marvin and Karen Fawley, Norm and Cheryl Lavers, John Simpson, Sid Vogelpohl, and Mike Weatherford. Sid Vogelpohl’s gorgeous picture of pawpaw flowers appears on the front cover.

To spare readers the chore of picture-hunting through more than 100 pages in search of their trees, Trees of Arkansas is equipped with identification tools called keys. These keys (to trees in both summer and winter condition) have been rewritten and are now strictly dichotomous—meaning that at each step along the way, the user is faced with only two choices. Keys in past editions offered as many as four and even five choices, making progress slow-going, something like Robert Frost’s “pathless wood, where your face burns and tickles with the cobwebs broken across it…” The new keys are easier to use—and hopefully, just as accurate!

A few other changes can be mentioned. Three new species are added to the roster of Arkansas’ tree flora: Pignut hickory, Carya glabra, is one of the most common hickories in the Southeastern forests east of the Mississippi River, and probably the most poorly understood hickory species as well, with such a range of variability that botanists are uncertain whether the taxon comprises a single extremely variable species or a number of weak, closely related segregate species. Pignut, which occurs uncommonly in Arkansas, is very close to black hickory, Carya texana, and the two species can be hard to tell apart. Two alien invasive species have unfortunately become so widespread in the state that they merit inclusion: Callery pear, Pyrus calleryana, a scourge statewide and Chinese tallow tree or popcorn tree, Triadica sebifera, at present restricted to southern and central counties.

The use of DNA as a source of taxonomic evidence has become common and has exposed genealogical information that morphology and biochemistry had been previously too imprecise to reveal. This has necessitated, in turn, some surprising taxonomic changes, especially in the circumscription of plant families. Some familiar genera have been evicted from their longtime family homes and forced to move into unfamiliar quarters. For example, royal paulownia is out of the snapdragon/figwort family and into its very own princess tree family. Similarly, sweetgum is on its own now: out of the witch hazel family, into the sweetgum family. Most “counter-intuitive,” the hackberries, with their simple, alternate leaves, are transferred from the elm family, where they looked so comfortable, to the hemp family—the home of marijuana, with its palmately compound, opposite leaves. And there are one or two more. I could not quite force myself to vaporize the maple family, but if we see a new edition of Trees of Arkansas some time down the road, our maples will be no doubt submerged in the soapberry family. The arrangement of families has been changed from an outdated taxonomic sequence to alphabetical order by common name.

Books are available from the Arkansas Forestry Commission office in Little Rock and from most AFC regional offices around the state, for the price of $5 [sic]!

Article by ANPS member Eric Sundell

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Posted in Book Review, Native Plants, Trees | Tagged Flowering Tree, Mexican Plum, Plum, Prunus, Prunus mexicana, Rosaceae, Trees of Arkansas | Leave a comment

Know Your Natives – Blanketflower

Posted on December 27, 2014 by

Gaillardia aestivalis is a lovely Arkansas native. It shares the common name of blanketflower with several different Gaillardia species. There are at least two forms of Gaillardia aestivalis in Arkansas. One has red ray flowers (“petals”) and one has yellow ray flowers (“petals”). The picture shown here is with yellow ray flowers.

Having observed this plant for several years now, I must say that sometimes it acts like a short lived perennial & other times like an annual. The bloom time is very long – usually from late May through October. It seeds around moderately & requires little care. It seems to be happy in average to dry, unamended soils in full sun.

Height is about 24 inches with the width being about 36 inches. Flower heads are approximately 2 to 3 inches across. Attracts many bee species including honeybees, bumblebees, miner bees & Halictid bees as well as numerous butterflies.

Article and photographs by ANPS member MaryAnn King

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Posted in Know Your Natives, Native Plants, Wildflowers, Yellow | Tagged Asteraceae, blanketflower, Gaillardia, Gaillardia aestivalis ssp. flavovirens | Leave a comment

Know Your Natives – Missouri Gooseberry

Posted on December 21, 2014 by Eric Hunt

Missouri Gooseberry

Missouri Gooseberry (Ribes missouriense) is one of four species of gooseberries in Arkansas.

Sometimes called currants, the genus is found across most of the northern hemisphere, extending down into South America via the Andes. It is the only genus in the Grossulariaceae (Currant/Gooseberry) family.

The flowers appear in early spring

Missouri gooseberry occurs primarily in the Ozarks and one southwestern county. This species favors cleared lands, disturbed lands, fields and meadows. Arkansas is at the southern edge of this species’ range in North America.

Young fruit have formed by mid-spring

The flowers are small and a creamy white color. The ripe fruits are said to dry well and make excellent tarts.

Flowering and fruit set is heavy

Gooseberries are generally armed against plant-eaters in the environment. The stems of Missouri Gooseberry have widely spaced thorns of moderate size. More importantly – the fruit is smooth – no prickles or thorns, an important factor in its desirability.

Article and photographs by ANPS member Eric Hunt

Posted in Know Your Natives, Native Plants, Shrubs, White, Wildflowers | Tagged Fruit, Gooseberry, Grossulariaceae, Ribes, Wildflower | Leave a comment

Know Your Natives – Camphorweed “Blooms” Frost Flowers

Posted on December 16, 2014 by

Camphorweed (Pluchea camphorata) of the Asteraceae (Aster) Family occurs in the Southeast and lower Midwest from Texas and Kansas to Illinois, Ohio, New Jersey and southward. In Arkansas, the species occurs statewide, though is somewhat less frequent in the central Ozarks. Camphorweed, an annual to short-lived perennial herb, grows at the edges of ponds and lakes, in marshes, on creek and river banks, in bottomland forests and in other moist areas. In its preferred habitats, this species can become weedy.

Camphorweed, a.k.a. stinkweed, marsh fleabane or Plowman’s-wort, is an erect plant growing three or more feet tall. Plants, with one to several erect, round, hairy and semi-woody stems, have an almost overpowering, musky (camphor-like) aroma when handled.

Alternate, ovate to broadly elliptical simple leaves are largest mid-stem of main stems. There is one leaf per node. Leaves, on short petioles, are acutely tapered toward the tip and broadly tapered toward the base. The leaves, which are sticky (due to glandular hairs), have shallowly serrate margins with widely spaced teeth. The veins are pinnate and raised on the lower leaf surface. The upper leaf surface is covered with sparse, soft hairs while the lower surface is more densely hairy.

Spring growth of Camphorweed with beginning of inflorescence at top of the stem.

Inflorescences in mid-summer consists of rounded clusters (panicles) of cream-colored to pinkish-rose-colored terminal flower heads at the top of small plants or at the ends of many branches and sub-branches on larger plants. Each flower head has the outer flowers pistillate, with a highly reduced corolla, and a smaller number of staminate central flowers. As in all members of the Aster Family, the ovary is inferior, with the corolla attached at its tip. Corollas of the central flowers are round (radially symmetrical) with five lobes, and appear bisexual with one style and five stamens, but the style is undivided and the ovary sterile.

The involucre, which supports the head as a calyx would an individual flower in most other families, comprises overlapping bracts (phyllaries) that are ovate to linear in shape and similar in color to the flowers. The appressed phyllaries tightly clasp the flower head.

Large and small plants of Camphorweed in bloom.

A panicle of Camphorweed flower heads. Note the infertile pistils on central flowers.

One-seeded fruits, in mid-fall, are tiny achenes tipped with a bristly pappus. Like closely related sunflower “seeds,” (what we call seeds are actually fruits), the wall of the fruit (pericarp) is not fused to the seed inside.

Camphorweed in seed after a “killing frost.”
Fertile and infertile achenes set to disperse.

Frost flowers on Camphorweed.

Two other species of Pulchea are known from Arkansas: Pulchea odorata (sweetscent) and Pluchea foetida (stinking camphorweed). Sweetscent differs from camphorweed in having inflorescence panicles strictly terminal or branching from only the upper nodes, elongated to nearly the level as the terminal panicle, giving the entire inflorescence a somewhat domed, flat-topped or layered appearance. The flower heads of sweetscent are consistently deep rose-purple and the phyllaries are more densely hairy. Sweetscent occurs in Arkansas primarily in the Coastal Plain and Arkansas River Valley, with a few scattered inland occurrences in the Ouachita Mountains along major rivers. Stinking camphorweed differs from the previous two in having sessile, clasping leaves and flowers consistently light cream-colored. It occurs in Arkansas exclusively in the Coastal Plain. These two latter species can also produce frost flowers.

(For information regarding formation of frost flowers, see a “Know Your Natives” article posted November 26, 2013) link.

Article and Photos by ANPS member Sid Vogelpohl

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Posted in Know Your Natives, Native Plants, Purple, Wildflowers | Tagged Asteraceae, Know Your Natives, Pluchea, Pluchea odorata, Sweetscent | 1 Comment

Know Your Natives – Great Plains and Fragrant ladies’-tresses orchids

Posted on December 6, 2014 by Eric Hunt

Arkansas has 9 species of ladies’-tresses orchid in the genus Spiranthes. They are found across the state in a wide variety of habitats, from disturbed areas, lawns and roadside ditches to high quality meadows, marshes, prairies and woodlands.

Two of the more uncommon species in Arkansas are the Great Plains (S. magnicamporum) and fragrant (S. odorata) ladies’-tresses.

Great Plains ladies’-tresses orchid – Spiranthes magnicamporum

Great Plains ladies’-tresses are known from a few counties in southwestern Arkansas. It is found in high quality prairie habitat and blooms in the fall, typically around the middle of October, after the leaves have withered and disappeared. It is highly fragrant.

fragrant ladies’-tresses orchid – Spiranthes odorata

Fragrant ladies’-tresses can be found widely scattered across Arkansas, but is absent from the most northern counties. It grows in wetlands and bogs, often in standing water. The basal leaves are generally present on blooming plants. It blooms in October and is also highly fragrant.

Article and photographs by ANPS member Eric Hunt

Posted in Know Your Natives, Native Plants, White, Wildflowers | Tagged Ladies-tresses, Orchid, Orchidaceae, Spiranthes, Spiranthes magnicamporum, Spiranthes odorata | Leave a comment