Gooseberryleaf Globemallow

Globe Mallow has many different species, including perennials and annuals. The most notable thing about the Globe Mallow plant is that its leaves are arranged spirally and they are usually toothed. The stems and the leaves of the Globe Mallow plant are downy, or have tiny hairs that cover them. The flowers are shaped like a cup or a saucer. These flowers can be orange, pink, apricot, or anywhere in between.

gooseberryleaf globemallow

currant-leaf globemallow

Information on state-level protected status of plants in the United States is available at Plants Database.

More info for the terms: caudex, dehiscent, forb, fruit, indehiscent, schizocarp

This description provides characteristics that may be relevant to fire ecology and is not meant for identification. Keys for identification are available (e.g., [18,19,20,25,26,27,63]).

Gooseberryleaf globemallow is a perennial forb with an ascending to erect growth form. Plants have few to many hairy stems that emerge from a woody caudex and reach a height of 4 to 43 inches (10-109 cm). Leaves are palmately 3- to 5-lobed, moderately pubescent and 0.5 to 2.6 inches (1.3-5 cm) long and wide. Flowers are solitary or clustered in compound racemes, and petals are 0.3 to 0.9 inch (0.8-2.2 cm) long [8,18,20,26,61,63]. The fruit is a schizocarp with 10 to 20 carpels. Carpels are 2.5 to 4.5 mm long and are dehiscent at the top and indehiscent at the base [5,18,20,63]. In Sphaeralcea grossulariifolia subsp. grossulariifolia carpels are generally 1-seeded while in subsp. pedata carpels are often 2-seeded [26,27]. Seeds are mostly pubescent [8]. A large proportion of the plant biomass in gooseberryleaf globemallow is concentrated below the soil surface in a deep, branched, woody taproot [20]. Plants also have a fibrous root system near the soil surface [53,61]. Plants are short-lived (2-3 years) [8,29].

Gooseberryleaf globemallow is native to the western United States. Sphaeralcea grossulariifolia subsp. grossulariifolia occurs from Washington and Idaho south to California and Arizona. Sphaeralcea grossulariifolia subsp. pedata occurs in Oregon, Nevada, Utah, Arizona and New Mexico [25,60]. Plants Database provides a distributional map of gooseberryleaf globemallow and its infrataxa.

More info for the terms: association, caudex, cover, density, fire regime, fuel, fuel continuity, grassland, low-severity fire, moderate-severity fire, natural, potential natural vegetation, potential natural vegetation group, presence, shrub, shrubland, shrubs, stand-replacement fire, stand-replacement fire regime, woodland

Fire adaptations: Little is known about fire tolerance in gooseberryleaf globemallow. It has been described as "resistant to burning" [57]. Certain morphological characteristics of gooseberryleaf globemallow support this statement. Although aboveground tissue may be killed by fire, the caudex and the deep, woody taproot are likely to survive low- to moderate-severity fire. Carbohydrates stored in the taproot likely aid in the production of new aboveground tissue after fire. After fire and other disturbances, globemallows are thought to regenerate from seeds stored in the soil [61]. Gooseberryleaf globemallow readily invades disturbed areas [44,46] and is a likely postfire colonizer [42,57].

FIRE REGIMES: FIRE REGIMES in communities where gooseberryleaf globemallow occurs vary with location and associated vegetation. Presented below is information on FIRE REGIMES in several plant communities where gooseberryleaf globemallow is common.

Sagebrush: Presettlement FIRE REGIMES in sagebrush ecosystems varied among sagebrush types and locations. Historic fire return intervals in sagebrush ecosystems were variable, ranging from approximately 20 to 100 years. Most fires were mixed-severity and of small extent, although more widespread fires occurred on some sites [67,68]. Cheatgrass (Bromus tectorum) and medusahead (Taeniatherum caput-medusae), nonnative annual grasses, have altered FIRE REGIMES and successional patterns in many sagebrush communities. Fine fuel loads from dry cheatgrass and/or medusahead can support fire return intervals as short as 3 to 6 years [43,66].

Pinyon-juniper woodlands: Fire return intervals in pinyon-juniper woodlands vary greatly, depending upon fine fuel loads and stand density. Livestock grazing in pinyon-juniper tends to increase fire return intervals by reducing fine fuels and increasing woody fuel density (review by [68]). Cheatgrass invasion in some pinyon-juniper communities has greatly decreased fire return intervals [30]. Historical fire return interval for western juniper (Juniperus occidentalis) woodlands is estimated at 10 to 30 years (review by [68]).

Salt-desert shrubland: Historically, a lack of continuous fuels made fire rare to nonexistent in salt-desert shrublands except under unusual circumstances [64,69]. Increased presence of nonnative annual grasses in salt-desert ecosystems has shortened fire return intervals [6,65,69]. Wet years such as those brought by El Niño encourage growth of fine fuels in salt-desert communities. In particular, annual grasses such as cheatgrass and red brome (Bromus rubens) develop enough fine fuel biomass to support wildfires [10,41]. Once fire occurs, cover of annuals and probability of subsequent fire increase [10]. Harper [17] found little to no cheatgrass on saltbush and other desert shrub sites on the Desert Experimental Range of west-central Utah in 1959, a dry year. In 1990, a wet year, Sparks and others [54] found the same sites had converted to cheatgrass and other annual weeds "on a massive scale" and fuels were continuous enough to carry fire. Long recovery periods are needed when large-acreage fires occur in salt-desert shrub [9,10].

Blackbrush: The blackbrush association is composed of dense to scattered low-stature shrubs and dense to open grasses. It maintains the highest plant cover of any desert shrub community. Blackbrush experiences a stand-replacement fire regime, though historical documentation of blackbrush fire cycles is limited. Frequent large fires have eliminated blackbrush from some areas. Blackbrush occurs in areas with approximately 7 inches (180 mm) of annual precipitation. Cyclic desert precipitation above 10 to 14 inches (250-360 mm) may increase biomass and fuel continuity enough to increase fire potential [40].

The following table provides fire regime information that may be relevant to gooseberryleaf globemallow. Find further fire regime information for the plant communities in which this species may occur by entering the species name in the FEIS home page under "Find FIRE REGIMES".

Fire regime information on vegetation communities in which gooseberryleaf globemallow may occur. For each community, fire regime characteristics are taken from the LANDFIRE Rapid Assessment Vegetation Models [32]. These vegetation models were developed by local experts using available literature, local data, and/or expert opinion as documented in the PDF file linked from the name of each Potential Natural Vegetation Group listed below. Cells are blank where information is not available in the Rapid Assessment Vegetation Model. Pacific Northwest California Southwest Great Basin Northern Rockies Pacific Northwest

• Northwest Shrubland

Vegetation Community (Potential Natural Vegetation Group) Fire severity* Fire regime characteristics Percent of fires Mean interval
(years) Minimum interval
(years) Maximum interval
(years) Northwest Shrubland Salt desert scrubland Replacement 13% 200 100 300 Mixed 87% 31 20 100 Salt desert shrub Replacement 50% >1,000 500 >1,000 Mixed 50% >1,000 500 >1,000 Wyoming big sagebrush semidesert Replacement 86% 200 30 200 Mixed 9% >1,000 20   Surface or low 5% >1,000 20   Wyoming sagebrush steppe Replacement 89% 92 30 120 Mixed 11% 714 120   Low sagebrush Replacement 41% 180     Mixed 59% 125     Mountain big sagebrush (cool sagebrush) Replacement 100% 20 10 40 California

• California Shrubland
• California Woodland

Vegetation Community (Potential Natural Vegetation Group) Fire severity* Fire regime characteristics Percent of fires Mean interval
(years) Minimum interval
(years) Maximum interval
(years) California Shrubland Saltbush Replacement 70% 100 60 200 Mixed 30% 235 10   California Woodland Ponderosa pine Replacement 5% 200     Mixed 17% 60     Surface or low 78% 13     Southwest

• Southwest Grassland
• Southwest Shrubland
• Southwest Woodland

Vegetation Community (Potential Natural Vegetation Group) Fire severity* Fire regime characteristics Percent of fires Mean interval
(years) Minimum interval
(years) Maximum interval
(years) Southwest Grassland Desert grassland Replacement 85% 12     Surface or low 15% 67     Desert grassland with shrubs and trees Replacement 85% 12     Mixed 15% 70     Plains mesa grassland Replacement 81% 20 3 30 Mixed 19% 85 3 150 Plains mesa grassland with shrubs or trees Replacement 76% 20     Mixed 24% 65     Southwest Shrubland Salt desert scrubland Replacement 13% 200 100 300 Mixed 87% 31 20 100 Desert shrubland without grass Replacement 52% 150     Mixed 48% 165     Southwestern shrub steppe Replacement 72% 14 8 15 Mixed 13% 75 70 80 Surface or low 15% 69 60 100 Southwestern shrub steppe with trees Replacement 52% 17 10 25 Mixed 22% 40 25 50 Surface or low 25% 35 25 100 Low sagebrush shrubland Replacement 100% 125 60 150 Mountain sagebrush (cool sage) Replacement 75% 100     Mixed 25% 300     Mountain-mahogany shrubland Replacement 73% 75     Mixed 27% 200     Southwest Woodland Pinyon-juniper (mixed fire regime) Replacement 29% 430     Mixed 65% 192     Surface or low 6% >1,000     Pinyon-juniper (rare replacement fire regime) Replacement 76% 526     Mixed 20% >1,000     Surface or low 4% >1,000     Ponderosa pine/grassland (Southwest) Replacement 3% 300     Surface or low 97% 10     Great Basin

• Great Basin Grassland
• Great Basin Shrubland
• Great Basin Woodland

Vegetation Community (Potential Natural Vegetation Group) Fire severity* Fire regime characteristics Percent of fires Mean interval
(years) Minimum interval
(years) Maximum interval
(years) Great Basin Grassland Great Basin grassland Replacement 33% 75 40 110 Mixed 67% 37 20 54 Great Basin Shrubland Blackbrush Replacement 100% 833 100 >1,000 Salt desert scrubland Replacement 13% 200 100 300 Mixed 87% 31 20 100 Salt desert shrub Replacement 50% >1,000 500 >1,000 Mixed 50% >1,000 500 >1,000 Basin big sagebrush Replacement 80% 50 10 100 Mixed 20% 200 50 300 Wyoming big sagebrush semidesert Replacement 86% 200 30 200 Mixed 9% >1,000 20 >1,000 Surface or low 5% >1,000 20 >1,000 Wyoming big sagebrush semidesert with trees Replacement 84% 137 30 200 Mixed 11% >1,000 20 >1,000 Surface or low 5% >1,000 20 >1,000 Wyoming sagebrush steppe Replacement 89% 92 30 120 Mixed 11% 714 120   Mountain big sagebrush Replacement 100% 48 15 100 Mountain big sagebrush with conifers Replacement 100% 49 15 100 Mountain sagebrush (cool sage) Replacement 75% 100     Mixed 25% 300     Black and low sagebrushes Replacement 33% 243 100   Mixed 67% 119 75 140 Black and low sagebrushes with trees Replacement 37% 227 150 290 Mixed 63% 136 50 190 Great Basin Woodland Juniper and pinyon-juniper steppe woodland Replacement 20% 333 100 >1,000 Mixed 31% 217 100 >1,000 Surface or low 49% 135 100   Ponderosa pine Replacement 5% 200     Mixed 17% 60     Surface or low 78% 13     Northern Rockies

• Northern Rockies Shrubland

Vegetation Community (Potential Natural Vegetation Group) Fire severity* Fire regime characteristics Percent of fires Mean interval
(years) Minimum interval
(years) Maximum interval
(years) Northern Rockies Shrubland Salt desert shrub Replacement 50% >1,000 500 >1,000 Mixed 50% >1,000 500 >1,000 Wyoming big sagebrush Replacement 63% 145 80 240 Mixed 37% 250     Basin big sagebrush Replacement 60% 100 10 150 Mixed 40% 150     Low sagebrush shrubland Replacement 100% 125 60 150 Mountain shrub, nonsagebrush Replacement 80% 100 20 150 Mixed 20% 400     Mountain big sagebrush steppe and shrubland Replacement 100% 70 30 200 *Fire Severities:
Replacement=Any fire that causes greater than 75% top removal of a vegetation-fuel type, resulting in general replacement of existing vegetation; may or may not cause a lethal effect on the plants.
Mixed=Any fire burning more than 5% of an area that does not qualify as a replacement, surface, or low-severity fire; includes mosaic and other fires that are intermediate in effects.
Surface or low=Any fire that causes less than 25% upper layer replacement and/or removal in a vegetation-fuel class but burns 5% or more of the area [16,31].

More info for the term: natural

Gooseberryleaf globemallow has been shown to persist or increase following prescribed burning [39]. Because gooseberryleaf globemallow establishes well on disturbed, arid sites [4,42,46,57,61] and can persist or increase after fire [37,39,42], it may be valuable in natural revegetation or seeding on burned areas.

More info on this topic.

More info for the term: chamaephyte

RAUNKIAER [49] LIFE FORM:
Chamaephyte

More info for the term: shrub

Gooseberryleaf globemallow is found on dry plains, open deserts, washes, playas, hillsides, foothills, mesas and canyons [20,26,48]. It occasionally occurs along streams at lower elevations [27]. In salt-desert shrub habitat in the Southwest, it occurs in and along drainages and on alluvial fans [14]. It occurs in shoreline boulder areas and dry sand in canyons along the Colorado River [11]. Gooseberryleaf globemallow grows best in open or disturbed sites [44,46], including burned areas [4,42,57,61].

Elevation: Gooseberryleaf globemallow occurs between 2,600 and 7,500 feet (800-2,300 m) across its range [4,18,20,26,27,63].

Elevational range of gooseberryleaf globemallow by state or region State Elevation Arizona 3,000-6,000 feet (900-1,800 m) [27] Nevada 3,100-7,500 feet (940-2,300 m) [4,26] Utah 2,600-7,500 feet (800-2,300 m) [63] Intermountain West 2,600-7,500 feet (800-2,300 m) [20]

Temperature: Gooseberryleaf globemallow is tolerant of cold winter temperatures [57].

Moisture: Gooseberryleaf globemallow is drought tolerant [13,21,29,57]. It is most common in areas that receive 8 to 12 inches (20-30 cm) of annual precipitation [3,14,21,48]. Gooseberryleaf globemallow relies more on summer precipitation than on groundwater [15]. Plants commonly remain green throughout the summer. Late-summer precipitation results in additional plant growth [3]. Flood tolerance is fair [57].

Soils: Gooseberryleaf globemallow grows in soil textures ranging from clay to gravel. It grows in alkaline soils and tolerates moderate salinity [4,42,61]. It is found on volcanic soils throughout its range [5,18,26].

More info for the terms: caudex, moderate-severity fire, top-kill

Gooseberryleaf globemallow is likely top-killed by fire [61]. It has a deep, woody taproot [20] and caudex, however, that are likely to survive low- to moderate-severity fire. Sprouting from the caudex after top-kill by fire is likely, though not documented in the available literature.

More info for the terms: cover, forbs

Gooseberryleaf globemallow is a desirable forage species for some livestock and wildlife, in part because it is drought resistant and commonly remains green throughout the summer [3,8,21]. It is a principal forage plant for domestic sheep in the Intermountain West [51,61]. In a 1953 study, average utilization of gooseberryleaf globemallow by domestic sheep on moderately grazed winter range was 80% [22].

Pronghorn eat gooseberryleaf globemallow in western Utah. Gooseberryleaf globemallow comprised, on average, 4.6% of the forage contained in pronghorn rumen samples collected in western Utah over 7 years. It is eaten by pronghorn into late summer and fall when few other forbs are available [3]. Deer, elk and bighorn sheep use of globemallows varies with location and condition of plants [42]. Gooseberryleaf globemallow is also eaten by jackrabbits, rodents, grasshoppers and Mormon crickets [61]. Globemallow seeds are eaten by various species of birds and rabbits [42].

Palatability/nutritional value: Gooseberryleaf globemallow is moderately palatable to livestock and wildlife [21,47,57]. Palatability ratings for gooseberryleaf globemallow forage are none to fair for cattle and fair to excellent for domestic sheep, pronghorn, elk and deer [42,57,61]. It is most palatable to pronghorn when in flower. Crude protein content in gooseberryleaf globemallow plants is relatively high (up to 22% of dry matter) [42]. In-vitro digestibility is 69.7% [62]. Additional nutritional information is provided by Rumbaugh and others [52].

Cover value: In Utah, the cover value of gooseberryleaf globemallow is poor for upland game birds and waterfowl, fair for small non-game birds, and good for small mammals [12].

More info for the terms: forb, shrub

Gooseberryleaf globemallow is widely distributed in salt-desert shrub, pinyon-juniper
(Pinus spp.-Juniperus spp.), sagebrush (Artemisia spp.), mountain brush
and some ponderosa pine (Pinus ponderosa) communities [26,27,63]. It is a
dominant forb in shadscale (Atriplex confertifolia) communities in southwestern
Utah, Nevada, and eastern California [1,7,59]. Gooseberryleaf globemallow is also commonly
associated with mountain-mahogany (Cercocarpus spp.), saltbush (Atriplex spp.),
blackbrush (Coleogyne ramosissima), sagebrush, greasewood (Sarcobatus vermiculatus)
and rabbitbrush (Chrysothamnus spp.) [8,20,26].

More info for the terms: forb, shrub

Forb-shrub

Gooseberryleaf globemallow is tolerant of grazing [28], although plants can
be damaged by close grazing in late spring [57].

Because of its drought tolerance, continuous flowering, and ease of establishment, gooseberryleaf globemallow is recommended for use in landscaping in arid climates [57].

More info on this topic.

More info for the term: seed

Growth begins in gooseberryleaf globemallow in early spring. Plants mature between June and August and green up again in the fall [61]. Seed matures unevenly between June and August [42,57]. Flowering times vary and are summarized in the table below. Gooseberryleaf globemallow flowering date by state/region Location Flowering date Arizona April to October [27] Nevada April to October [26] Utah May to July [42] Great Basin May to July [61] Intermountain West mid-March to early October [20,57]

More info for the terms: forest, frequency, seed, wildfire

Gooseberryleaf globemallow is common in disturbed sites [44,46], including burned areas [4,42,57,61]. Seed may be stored in the soil [44] or come from off-site sources [57]. Gooseberryleaf globemallow often establishes in sagebrush (Artemisia spp.) and pinyon-juniper (Pinus spp.-Juniperus spp.) communities after fire [35,42]. In sagebrush and pinyon-juniper vegetation in west-central Utah, gooseberryleaf globemallow frequency was greater in burned than in unburned sites as shown in the table below. Preburn data were not provided [37].

Frequency (number of plots in which species was present) by treatment and year of gooseberryleaf globemallow following a 1996 wildfire [37]   Postfire year 1 Postfire year 2 Postfire year 3 Unburned 2 2 2 Burned 4 3 5

Gooseberryleaf globemallow increased after burning in a chaparral community on the Tonto National Forest in central Arizona [39]. Abundance of gooseberryleaf globemallow before and after burning is given in the table below.

Abundance (lbs/acre) of gooseberryleaf globemallow before and after burning in Arizona chaparral [39]   Preburn Postfire year 1 North slopes 9 30 South slopes 10 18

More info for the terms: caudex, ground residual colonizer, herbaceous, initial off-site colonizer, root crown, secondary colonizer, seed

POSTFIRE REGENERATION STRATEGY [58]:
Caudex or an herbaceous root crown, growing points in soil
Ground residual colonizer (on site, initial community)
Initial off-site colonizer (off site, initial community)
Secondary colonizer (on-site or off-site seed sources)

More info for the terms: caudex, dehiscent, indehiscent, scarification, seed, stratification, top-kill

Gooseberryleaf globemallow reproduces by seed. Because plants are short-lived, successful establishment by seed every 2 to 3 years is necessary for perpetuation of gooseberryleaf globemallow [8]. Gooseberryleaf globemallow populations cycle in response to climatic conditions. Kitchen [29] observed that favorable growing conditions result in "explosive reproductive events" which are often followed by a period of die-off.

Pollination: Several genera of bees pollinate globemallows, including Diadasia, Apis, Agapostemon, Calliopsis, Halictus and Melissodes. Wasps from the genus Ammoplanus are also important pollinators. Self-pollination is rare [42].

Breeding system: No information is available on this topic.

Seed production: There is no quantitative information available on seed production in gooseberryleaf globemallow. Seed production is "moderate" [57]. There are approximately 510,000 seeds per pound [21,48].

Seed dispersal: In gooseberryleaf globemallow the dehiscent section of the carpel opens at maturity. The indehiscent section of the carpel holds the seed until the reticulate wall has disintegrated. This may be an adaptation to ensure that some seeds encounter favorable germination conditions [38,42]. There is no information available on the mechanisms of seed dispersal in gooseberryleaf globemallow.

Seed banking: Gooseberryleaf globemallow seed lies dormant in the soil until sufficient moisture and light stimulate germination [44]. There is no information available on how long seeds may persist under field conditions. In an open, unheated, uncooled warehouse, however, gooseberryleaf globemallow seed can be stored for ~15 years without notable loss of viability [23]. After 15 years germination percentage decreases [24,55]. Mean percentage germination of seed after 2 to 25 years of storage is summarized in the table below.

Germination (%) of gooseberryleaf globemallow seed after storage [24] Years of storage 2 3 4 5 7 10 15 25 Percent germination 7 7 6 9 6 7 6 2

Germination: Gooseberryleaf globemallow has a hard seed coat and is difficult to germinate [23,38,61]. Average germination rates are between 50% and 60% [42]. Afterripening for 1 month or stratification for 1 to 3 months is necessary for successful germination [23]. Germination is enhanced by chemical or mechanical scarification [2,38,50,61]. As mechanical scarification time increases, however, the seed may be damaged and germination percentage may decrease. In a germination experiment, average germination was 47.4% after 5 seconds of mechanical scarification, 10.5% after 15 seconds and 8.0% after 25 seconds. If mechanical scarification is used, care is needed to prevent injury to the seed [38].

The optimum germination temperature for gooseberryleaf globemallow seed is 72 °F (22 °C) [2]. Exposing seed to alternating temperatures of 59 °F (15 °C) and 72 °F (22 °C) for 12 hour periods increases germination [38,61]. Seeds germinate equally well in light and in darkness [2,38].

Seedling establishment/growth: Gooseberryleaf globemallow generally produces strong and persistent seedlings [34,57]. Seedling survival is relatively low, however, on arid Utah rangeland [42]. Seedling growth rates in globemallows are "moderately high" [34]. Gooseberryleaf globemallow seedlings may mature by the second growing season [61].

Vegetative regeneration: As of this writing (2007) there are no accounts in the literature of vegetative regeneration in gooseberryleaf globemallow. However, it is likely that gooseberryleaf globemallow sprouts from the caudex after top-kill.

More info on this topic.

More info for the terms: forest, frequency, tree, wildfire

Gooseberryleaf globemallow is classified by Stephen and Monsen [56] as a pioneer, early-seral, and late-seral species. It is moderately shade tolerant but thrives in full sun in open areas [42,46,48,57,61]. Gooseberryleaf globemallow grows well on disturbed sites [44,46]. In a pinyon-juniper (Pinus spp.-Juniperus utahensis) forest in Utah, gooseberryleaf globemallow showed "remarkable" growth in the second year after tree removal and chaining [44]. Frequency of gooseberryleaf globemallow was also greater on chained than on unchained sites following a 1996 wildfire in west-central Utah [36].

Malvastrum grossulariifolium (Hook. & Arn.) Rydb. [19,63]

The scientific name of gooseberryleaf globemallow is Sphaeralcea
grossulariifolia (Hook. & Arn.) Rydb. (Malvaceae) [18,19,20,25,26,27,63].
There are 2 subspecies [25,26]:

Sphaeralcea grossulariifolia (Hook. & Arn.)
Rydb. subsp. grossulariifolia

Sphaeralcea grossulariifolia (Hook. & Arn.) Rydb. subsp. pedata
(Torr. ex Gray) Kearney

More info for the term: forbs

Gooseberryleaf globemallow is one of very few native forbs suitable for seeding on disturbed, exposed and eroded sites in harsh environments in the Intermountain West [21,57,61]. It is adapted for seeding in blackbrush, shadscale, pinyon-juniper, saltbush, greasewood, Wyoming big sagebrush (Artemisia tridentata subsp. wyomingensis), threetip sagebrush (A. tripartita) and basin big sagebrush (A. tridentata subsp. tridentata) communities. Fall seeding is recommended [21,45,56,61]. Its soil stabilization value is fair [53]. Gooseberryleaf globemallow is particularly suited for seeding in basic soils and can be used to suppress cheatgrass and other annuals [57]. Information on seeding methods for gooseberryleaf globemallow is provided by Monsen and Stevens [34], McArthur and Young [33], Jorgensen and Stevens [23], and Kitchen [29].

Sphaeralcea grossulariifolia is a species of flowering plant in the mallow family known by the common name gooseberryleaf globemallow. It is native to the western United States, where it can be found in the Great Basin and surrounding regions. It grows in sagebrush, woodlands, playas, and the canyons of the upper Colorado River. It is common in disturbed areas, such as habitat recently cleared by wildfire.