Soaptree Yucca

J. L. Reveal (1977c) reduced S. D. McKelvey’s (1938–1947) Yucca utahensis and Y. verdiensis to varieties of Y. elata based primarily u!pon growth forms. J. M. Webber (1953) considered that these taxa are populations of hybrids between members of the Y. glauca alliance of the Great Plains and Y. elata of the American Southwest. Reveal believed that Webber did not provide adequate justification for his hybrid hypothesis. K. H. Clary (1997, pers. comm.) believes that Y. utahensis is genetically distinct from Y. elata and Y. verdiensis, based on DNA evidence and the morphological characters of style, stigma, fruit, and leaf. Her DNA evidence shows that Y. elata and Y. verdiensis are sister taxa, while Y. utahensis is not. Although there is a great range of variation within Y. elata as circumscribed here, the two varieties recognized are difficult to distinguish.

Plants solitary or forming small colonies of rosettes, caulescent or rarely acaulescent, distinctly arborescent, mostly few-branched, 1.2–4.5 m; rosettes usually large, symmetrical or asymmetrical. Stems 1–7 per colony, erect, thick, 1–1.5(–2.5) m. Leaf blade pale green, linear, widest near middle, 25–95 × 0.2–1.3 cm, flexible, margins entire, curled, filiferous, whitish, apex tapering to short spine. Inflorescences mostly paniculate, sometimes distally racemose, arising beyond rosettes, mostly narrowly ovoid to ovoid, 7–15 × 2.5–6.5 dm; branches 0.7–3.5 dm; bracts erect; peduncle sometimes scapelike, 1–2 m, 2.5–5.5 cm diam. Flowers pendent; perianth campanulate or globose; tepals distinct, creamy white, often tinged green or pink, narrow to broadly elliptic or ovate, 3.2–5.7 × 1.3–3.2 cm; filaments 1.5–2.5(–3.2) cm, pubescent; anthers (2–)2.5–4.8 mm; pistil 2–3.2 × 0.6–1 cm; style white or pale green, 6–11 mm; stigmas lobed. Fruits erect, capsular, dehiscent, oblong-cylindric, symmetrical or rarely constricted, 4–8.2 × 2–4 cm, dehiscence septicidal. Seeds dull black, thin, 7–11(–14) mm diam.

More info for the terms: grassland, herbaceous

An extensive body of research has been published on fire effects in
semidesert grassland, oak savanna, and Madrean oak woodlands of southeastern
Arizona, including the response of soaptree yucca to fire. See the Research Project Summary of this work for more information on
soaptree yucca and more than 100 additional species of herbaceous and
woody plant species, birds, small mammals, and grasshoppers.

soaptree yucca

palmilla

Spanish-bayonet

datil

Utah yucca

More info for the term: cover

Soaptree yucca provides cover for small mammals and birds. The white-throated woodrat frequently nests at the base of stems; when these dens are abandoned by woodrats they are often used by desert cottontails [8]. Soaptree yucca is the only perch for birds in much of its range [25].

More info for the terms: dehiscent, fruit, rhizome, shrub, tree

Soaptree yucca is a tree or shrub. It has woody, succulent stems often 9-12 feet (3-4 m) high (occasionally up to 30 feet (9 m) [24]. Utah yucca is smaller, with stems up to approximately 4.5 feet (1.3 m) [49]. Growth form of soaptree yucca varies from a single, erect, trunklike stem to several stems in clumps of 1.6 to 8.2 feet (0.5-2.5 m) in diameter [48]. Like all yucca species with dehiscent fruits, soaptree yucca is rhizomatous. The species is unique in that the rhizome develops downward and later begins lateral root extensions. The "vertical rhizome" as described by Webber [48] commonly grows to 3-5 feet (1-1.5 m) deep, and 3-6 inches (8-15 cm) in diameter. Lateral roots are 6-10 inches (15-20 cm) long and 1-3 inches (2.5-8 cm) in diameter [48]. Leaves are slender, sharply pointed, 2-3 feet (0.6-1 m) in length, and grow in variably loose to densely crowded clumps [8]. Stems are often clumped because they are derived from common rhizome systems [48]. Leaves grow in a tuft at the top of the stem [24]. The stem can be either upright or procumbent [25]. The inflorescence is an open, branching panicle [8], producing a capsular, fleshy, and dehiscent fruit. The fruit commonly contains about 150 viable ovoid seeds [2].

Soaptree yucca occurs in central Arizona, southern New Mexico, western Texas [2,8], and Coahuila and Chihuahua, Mexico [17]. The PLANTS database provides a distributional map of soaptree yucca in the United States. The typical variety occurs from central Arizona east to southwestern Texas; it is the only variety native to Mexico [24]. Utah yucca occurs from Nevada east to southwestern Arizona and south to north-central Arizona. Verdi yucca is known only in central Arizona [4,24,49].

More info for the terms: density, fire regime, meristem, root crown, shrub

Fire adaptations: Soaptree yucca can sprout from the stem after fire, even when some leaves are burnt. If the apical meristem is damaged the stem may branch, but more commonly it dies and is replaced by sprouts from rhizomes and the root crown [40,43,48].

FIRE REGIMES: Although soaptree yucca can tolerate fire [20,40,42,43], it has increased with the suppression of fires [43]. Thomas and Goodson [40] report that an average fire return interval of 3-10 years on semidesert grasslands would support soaptree yucca (and other succulents), but at a lower density than at present.

Fire return intervals for plant communities in which soaptree yucca occurs are listed below. Find 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".

Community or Ecosystem Dominant Species Fire Return Interval Range (years) saltbush-greasewood Atriplex confertifolia-Sarcobatus vermiculatus desert grasslands Bouteloua eriopoda and/or Pleuraphis mutica 5-100  plains grasslands Bouteloua spp. grama-galleta steppe B. gracilis-P. jamesii blue grama-tobosa prairie B. g.-P. mutica paloverde-cactus shrub Cercidium microphyllum/Opuntia spp. creosotebush Larrea tridentata Ceniza shrub L. t.-Leucophyllum frutescens-Prosopis glandulosa galleta-threeawn shrubsteppe Pleuraphis jamesii-Aristida purpurea mesquite Prosopis glandulosa mesquite-buffalo grass P. g.-Buchloe dactyloides Texas savanna P. g. var. glandulosa 34]

More info for the terms: cover, density, fire tolerant, fuel, seed, shrub, shrubs

It is reasonable to expect 25% mortality of soaptree yucca following fire [20,43]. This may be problematic where fire frequently occurs [43]: young regrowth would likely be less fire tolerant because a larger proportion of stems would be shorter and exposed to lethal temperatures. Though long-term studies of different FIRE REGIMES' effects on soaptree yucca populations have not been conducted, it has been suggested that soaptree yucca would survive in the historic 3-10 year fire return interval of semidesert grasslands; however, in many areas its density would be lower than at present [43].

Managers often seek to eliminate undesirable shrubs by burning in high fuel years (after wet growing seasons or 1-2 years without grazing) to achieve maximum crown burning. This practice may result in high mortality of succulents including soaptree yucca. Damage to succulents is reduced by low-severity fires that kill shrub seedlings and scorch some crowns Although reduction of shrub canopy cover and seed production is not as great as that achieved with crown fires, greater coverage of soaptree yucca and other succulents is retained [38].

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More info for the term: stem succulent

RAUNKIAER [37] LIFE FORM:
Stem succulent

More info for the term: grassland

Soaptree yucca grows on a wide range of sites but prefers coarse soils [8,9,17]. In the Guadalupe Mountains of New Mexico, soaptree yucca is most prevalent on gypsum dunes, but also present on sandhills derived from quartz [9]. In the Davis Mountains of Texas and Coahuila, Mexico, soaptree yucca is common on gentle to moderate slopes with coarse soils derived from igneous materials [17]. In the Chisos Mountains of the Rio Grande area of Texas, soaptree yucca "reached best development" on eroded rocky slopes [30].

The climate of the Jornada Experimental Range is typical of the semidesert grassland communities where soaptree yucca is prevalent. At this site there is an average of 8.33 inches (215 mm) precipitation per year, with 64% occurring in May through September. Mean annual temperature is 59 degrees Fahrenheit (15 oC) [6].

In southwestern Texas and central and southern Arizona soaptree yucca grows between 1,500 and 6,000 feet (450- 1,220 m) in elevation, Verdi yucca grows in central Arizona between 3,000 and 6,000 feet (910-1,220 m) in elevation [24].

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This species is known to occur in association with the following cover types (as classified by the Society of American Foresters):

More info for the term: cover

SAF COVER TYPES [12]:




68 Mesquite

242 Mesquite

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This species is known to occur in the following ecosystem types (as named by the U.S. Forest Service in their Forest and Range Ecosystem [FRES] Type classification):

More info for the term: shrub

ECOSYSTEMS [15]:




FRES30 Desert shrub

FRES32 Texas savanna

FRES33 Southwestern shrubsteppe

FRES38 Plains grasslands

FRES40 Desert grasslands

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This species is known to occur in association with the following plant community types (as classified by Küchler 1964):

More info for the term: shrub

KUCHLER [28] PLANT ASSOCIATIONS:




K039 Blackbrush

K040 Saltbush-greasewood

K041 Creosote bush

K042 Creosote bush-bursage

K043 Paloverde-cactus shrub

K044 Creosote bush-tarbush

K045 Ceniza shrub

K046 Desert: vegetation largely lacking

K053 Grama-galleta steppe

K054 Grama-tobosa prairie

K058 Grama-tobosa shrubsteppe

K059 Trans-Pecos shrub savanna

K060 Mesquite savanna

K061 Mesquite-acacia savanna

K065 Grama-buffalo grass

K076 Blackland prairie

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This species is known to occur in association with the following Rangeland Cover Types (as classified by the Society for Range Management, SRM):

More info for the terms: cover, shrub, vine

SRM (RANGELAND) COVER TYPES [39]:




211 Creosote bush scrub

212 Blackbush

501 Saltbush-greasewood

502 Grama-galleta

503 Arizona chaparral

505 Grama-tobosa shrub

506 Creosotebush-bursage

507 Palo verde-cactus

508 Creosotebush-tarbush

701 Alkali sacaton-tobosagrass

702 Black grama-alkali sacaton

703 Black grama-sideoats grama

705 Blue grama-galleta

706 Blue grama-sideoats grama

707 Blue grama-sideoats grama-black grama

708 Bluestem-dropseed

712 Galleta-alkali sacaton

713 Grama-muhly-threeawn

714 Grama-bluestem

715 Grama-buffalo grass

716 Grama-feathergrass

725 Vine mesquite-alkali sacaton

729 Mesquite

More info for the terms: fire tolerant, frequency, meristem

Fire generally top-kills soaptree yucca, but it can be fire tolerant depending on the intensity and frequency of fire [40,43]. Two studies, both low-severity spring fires, one in the Sierrita Mountains near Tucson, Arizona, and one in the Whetstone Mountains of southeastern Arizona, found 25% and 27% mortality of soaptree yucca after several months, respectively [20,43]. In both cases, damage to the apical meristem was a frequent cause of mortality. Leaves remaining on the stem, whether dead or living, insulate conductive tissue and reduce fire damage to the stem and vascular tissue [42]. Meristem protection also increases fire tolerance of soaptree yucca: apical meristems are protected by the dense terminal rosette and belowground meristems along rhizomes are protected by soil [38,42,43].

Livestock use soaptree yucca leaves as a secondary or seasonal source of feed. A number of wildlife species also use the species as browse, but quantitative data are lacking. The following table summarizes soaptree yucca use by birds and mammals [8,11,23,25,46,51].

Common name Use white-throated woodrat leaves are up to 33% of diet (by volume) [51], nests built at base of stems [8] southern plains woodrat leaves are up to 16% of diet [51] black-tailed jackrabbit leaves a small part of diet (mean = 2%) when within reach [25,46] desert cottontail leaves part of diet when within reach [8,25] kangaroo rats seeds are minor part of diet [11] desert mule deer leaves, inflorescence stalks part of diet [25,26] pronghorn inflorescences consumed [25]

More info for the terms: cacti, shrub, shrubs

Soaptree yucca is present in many desert scrub
communities and is also an important component of semi-desert grasslands. In the
San Simon Valley of southeastern Arizona, soaptree yucca, Mariola (Parthenium incanum),
and cacti (Opuntia spp.) were subdominant in communities where
creosotebush (Larrea tridentata), tarbush (Flourensia cernua),
mesquite (Prosopis spp.), or acacia (Acacia spp.) were dominant
[10]. Similar shrub communities were described in the Huachuca Mountains of the
southern border of Arizona below 4,500 feet (1,370 m). Grass species present here were
black grama (Bouteloua eriopoda), crowfoot grama (B. rothrockii), burrograss (Sclerpogon
brevifolius), fluffgrass (Tridens pulchellus), bush muhly (Muhlenbergia porteri),
and threeawns (Aristida spp.). Desertholly (Perezia nana) and burrowweed (Isocoma
tenuisecta) were present in disturbed areas [45]. Soaptree yucca is also subdominant
on the Jornada Experimental Range near Las Cruces, New Mexico, and similar communities
occur there [3].

Soaptree yucca occurs in an irregular,
clumped distribution in grasslands dominated by
gramas (Bouteloua spp.), threeawns, tobosagrass (Pleuraphis mutica), and dropseeds
(Sporobolus spp.) [6,17,32]. On the Jornada Experimental Range, soaptree yucca
is described as a "structural dominant:" 1 of few shrubs growing in
black grama grasslands [25].

Soaptree yucca, creosotebush, and fourwing saltbush (Atriplex canescens) are the predominant shrubs in the large area of dune fields
known as the
Mesilla Basin, New Mexico and adjacent Chihuahua, Mexico [29].

More info for the terms: shrub, tree

Tree-shrub

More info for the terms: cover, fire suppression, fruit, seed, shrub

Soaptree yucca is relatively resistant to browsing pressure in the short term because of frequent
clonal reproduction. Because of this reproductive strategy, an early
source stated that leaving seed trees is unnecessary except to provide shade [8].
However, a more recent study cited several reasons for reducing
browsing pressure on soaptree yucca inflorescences. The authors stated that
overconsumption of inflorescences may: 1) lead to local declines in the
flight-limited yucca moth, reducing pollination in subsequent years, 2) reduce
mobilization of nutrients and carbohydrates from aborted fruit to other parts of
the plant, leading to decreased ability
to produce new caudices, 3) reduce recruitment of seedlings that maintain
genetic diversity in populations and provide a means of colonizing new habitats,
and 4) reduce local biodiversity, especially birds and insects because of loss
of species that depend on the inflorescence and fruit [25]. The study concluded that in
soaptree yucca populations where some members are tall enough (>1.7
m) to escape fruit consumption by livestock, tall individuals are
important refugia for yucca moths and help maintain genetic diversity. In populations where no individuals are tall enough to escape
browsing, management should reduce grazing in spring to avoid complete
consumption of inflorescences [25].

Grazing may favor soaptree yucca if more palatable forage is available. Some sources have cited
grazing as a cause of increase in soaptree yucca cover, but the data are not
conclusive. Two studies were conducted on the New Mexico State University
College Ranch; 1 found shrub cover in general was consistently higher in grazed
areas compared to ungrazed areas, but cover of soaptree yucca was significantly higher (p
<0.05) in grazed areas only on
some sample locations and times [19]. In the 2nd study, there was a trend for
soaptree yucca to have more cover on good condition than excellent condition range, but the
trend was not statistically significant [40].

Desert grasslands have declined due to cultivation, urbanization,
and shrub invasion [19,20,32,36,40,45]. Causes of shrub increase include fire suppression and grazing.
Desert grasslands are important for biodiversity, as
many avifauna use both soaptree yucca-black grama communities in the Chihuahua Desert and shortgrass prairies elsewhere [25,36]. Raitt and
Pimm [36] conclude that "lowland grasslands in the Chihuahua Desert
region... are relevant beyond immediate, local considerations, however
important. The future of a number of continental bird populations may
depend upon their success." Fire and grazing
management strategies are used by managers to maintain or restore desert grasslands that have
become shrub-dominated [20].

Soaptree yucca foliage, particularly actively growing apices, is low in acid-detergent lignin [25].
The consumption
of the nutritious apex is limited by larger fibrous leaves with pointed tips below
[8,25]. The nutritional value of
soaptree yucca leaves, collected on the New Mexico State University College Ranch
during active cattle browsing, was analyzed 5 times. The following shows nutritional content expressed as percentages of dry weight
[26]:

Sample date Protein Acid-detergent fiber Acid-detergent lignin Ash Ca P K
March 1962 10.2 43.4 10.6 1.6 1.05 0.13 0.74
Nov. 1962 10.9 46.2 9.0 4.4 0.95 0.19 1.07
Dec. 1962 10.8 36.0 10.4 5.4 1.43 0.16 0.83
Jan. 1963 8.6 37.1 9.1 4.8 1.25 0.11 0.57
Feb. 1963 10.6 43.5 10.6 5.8 1.58 0.16 0.78


The inflorescences are high in moisture and protein. The nutritional value of
inflorescences collected on
the New Mexico State University College Ranch in 1991was analyzed as
follows. Data are means and 1 standard deviation [25].

Floral part Mass (g) Moisture (%) Neutral- detergent fiber (%, n=3)  Acid- detergent fiber         
(%, n=3) Crude protein       
(%, n=3) Ash (%, n=3)
young stalk  88.1 (49.5, n=5) 65.4 (4.4, n=5) 28.3, (2.9) 23.6 (2.3) 21.7 (1.3) 6.4 (0.7)
mature inflorescence  1160.3 (638.6, n=5) 73.0 (2.9, n=5) 44.1 (4.8) 37.7 (3.7) 16.9 (1.5) 6.2 (0.4)
flowers  600.3 (385.7, n=5) 78.7 (3.5, n=5) 13.7 (0.8) 14.3 (1.4) 26.5 (3.4) 8.6 (0.4)
young leaves 82.6 (30.1, n=4) 70.1 (3.3, n=4) 55.3 (1.0) 45.5 (1.0) 10.6 (2.2) 6.7 (0.5)

AZ NV NM TX

MEXICO

Native Americans traditionally consumed young flowerstalks and the lowest part of the stem [4,9,24], and ground interior portions of the trunk into flour [4,9]. Historically, they also used yucca fibers (including that of soaptree yucca) for clothing and rope. Yucca fibers were economically important during World War I, when New Mexico and Texas "produced 80 million pounds of bagging and burlap" [27]. Crushed soaptree yucca roots and stems can be used to make soap or shampoo [24,35]. Whole plants can be ground to pulp, much as trees are prepared for paper pulp, to provide a valuable emergency livestock feed [24,27,35,52]. Complete population recovery following extensive soaptree yucca harvest has not been observed [48].

More info for the terms: climax, shrub, shrubs

Livestock browse soaptree yucca leaves during winter and spring months when
young regrowth is available and grasses are least productive [8,16,25]. Soaptree yucca is palatable to cattle [25].
Cattle on the
Jornada Experimental Range consumed soaptree yucca leaves in March (14% of diet) and December (17%) [16]. Similarly, in
southern New Mexico soaptree yucca leaves comprise up to 20% of
cattle diets in winter and spring [18]. Campbell and Keller [8]
commented that livestock use soaptree
yucca infrequently on "conservatively grazed range, supporting the black grama climax."
On
the New Mexico State University College Ranch, cattle browsed soaptree yucca
more heavily than any other shrub present. Grasses, primarily gramas and dropseeds, were 86% of the winter diet, soaptree yucca was approximately
9% of the diet, and other shrubs were 2% [50].

Soaptree yucca inflorescences are consumed heavily by livestock
[25,35] and wildlife including mule deer, pronghorn, black-tailed jackrabbit, and several types of
woodrats. In cattle exclosures on the New Mexico State University
College Ranch, woodrats consumed a mean of 15% (n= 10, range = 0-42%) of
soaptree yucca floral production. Up to 98% of
inflorescences were consumed on similar sites with cattle (density = 50 cows/ha) [25].

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More info for the terms: fruit, meristem, seed

In Arizona, New Mexico, and Texas soaptree yucca flowers between May 15 and July 15; fruit ripens between August 1 and October 1; and seed is dispersed in September and October [2]. On the Jornada Experimental Range soaptree yucca initiated new leaf growth in May and June and continued producing new leaves throughout the summer [8]. Leaf elongation occurred until early fall. The period of most rapid growth was at the end of July, when average length of new leaves doubled in 1 week [8]. During their 1st year leaves grow parallel to the stem. In subsequent years they are oriented outward, providing some protection for the apical meristem [8]. Leaves remain green for 3-5 years. Dry leaves remain on the stem [8].

More info for the terms: density, meristem, root crown, seed

Soaptree yucca sprouts from rhizomes, the root crown, and undamaged stems after fire [43]. Frequent production of belowground sprouts makes soaptree yucca unique among leaf succulents [38,42]. In the Whetstone Mountains of Arizona, 51% of soaptree yucca survived fire only by producing sprouts from belowground meristems [43], 33% of surviving soaptree yucca regrew from the apical meristem [43], 7% regenerated from the apical meristem and produced belowground sprouts, and 2% grew from seed. Few (7%) soaptree yucca were unburned, showing that the species is a fire tolerator rather than evader [43]. The authors concluded that in most cases, regeneration of soaptree yucca occurs via vegetative reproduction rather than from seed trees surviving on unburned patches [43]. Seedling establishment following fire is not thought to be a reliable means of recovery for soaptree yucca in most years, but it may be important during wet years following fire [42,43]. The estimated time for yucca species to recover to prefire density is 2-5 years [42].

More info for the terms: adventitious, caudex, shrub

POSTFIRE REGENERATION STRATEGY [41]:
Small shrub, adventitious bud/root crown
Caudex, growing points in soil

More info for the terms: facilitation, fruit, seed, shrubs

Soaptree yucca produces from seed and by sprouting. Soaptree yucca has an obligate mutualistic relation to its pollinator the yucca moth (Tegeticula yuccsella) [21]. The yucca moth pollinates its flowers and moth larvae feed on the developing fruit, decreasing viable seed production by up to 20% [1,25]. Soaptree yucca aborts many fruits, killing larvae therein; this process is thought to help maintain the mutualistic relationship [22]. Fruits produce many small, windblown seeds [1,25]. Little information is published regarding seed longevity and seed banking.

In most cases, reproduction is primarily clonal [8,8,35,42,43]. Sprouts originate from meristems on rhizomes and the root crown. Soaptree yucca may also resume growth from unburned portions of the stem [40,43,48,48]. Seedling establishment is not thought to be a reliable means of regeneration for soaptree yucca, primarily because germination and seedling establishment are controlled by a number of factors including, most importantly, adequate soil moisture and facilitation by other shrubs [42,43].

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This species can be found in the following regions of the western United States (according to the Bureau of Land Management classification of Physiographic Regions of the western United States):

BLM PHYSIOGRAPHIC REGIONS [5]:




7 Lower Basin and Range

11 Southern Rocky Mountains

12 Colorado Plateau

13 Rocky Mountain Piedmont

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More info for the terms: secondary colonizer, shrubs, succession

Soaptree yucca occurs in both early and later succession. Early descriptions of honey mesquite (Prosopis glandulosa) dunes list soaptree yucca as a secondary colonizer [7]. Honey mesquite was dominant on unprotected areas with frequent wind erosion or sand aggradation, while soaptree yucca established after several years of favorable conditions on sites where topography or honey mesquite had stabilized soils [7]. A more recent source cites soaptree yucca as a major component of dune vegetation in the Mesilla Basin of New Mexico. The author reported that mounds of sand formed around soaptree yucca, implying that it did not require other shrubs to stabilize sand and advance succession [29].

The scientific name of soaptree yucca is Yucca elata (Engelm.) Engelm. (Agavaceae)
[4,23,24]. Three varieties of soaptree yucca are
recognized [23]:



Yucca elata var. elata  soaptree yucca

Yucca elata var. utahensis (McKelvey) Reveal   Utah yucca

Yucca elata var. verdiensis (McKelvey) Reveal  Verdi yucca

Most literature regarding the soaptree yucca does not specify which subspecies is studied.
However, most research has focused on populations of New Mexico, Arizona, and
the Chihuahuan Desert of Texas and adjacent Mexico; these populations are either
the typical variety (Y. e. var. elata) or Verdi yucca.

In southwestern Utah and southeastern Nevada, Utah yucca ×
narrow-leaved yucca (Y. angustissima) hybrids are common [48]. Soaptree yucca × soapweed yucca (Y. glauca)
hybrids have been reported in
northern Arizona and New Mexico [47,48]. Soaptree yucca reportedly hybridizes with Buckley yucca (Y.
constricta) in Pecos and Howard Counties, Texas,
and in southeastern New Mexico [48].

More info for the terms: adventitious, litter

Because soaptree yucca is 1 of few long-lived woody plants on many sites, it is of value for long-term soil quality. Its litter increases soil organic matter and helps retain soil water [8]. Soaptree yucca helps stabilize sand in dune areas [29]. The stems often produce adventitious roots that increase sand stability [48].

Soaptree yucca is difficult to transplant. Campbell and Keller [8] reported that only 25% of soaptree yucca transplants survived due to taproot breakage. Soaptree yucca has been transplanted to revegetate highway rights-of way, but there was great expense in removing entire roots, as is required for successful planting. Successful transplanting of yuccas (an unspecified amount of which were soaptree yucca) has been done; plants were removed with as little root damage as possible and immediately watered when replanted [48].

Yucca elata is a perennial plant, with common names that include soaptree, soaptree yucca, soapweed, and palmella. It is native to southwestern North America, in the Sonoran Desert and Chihuahuan Desert in the United States (western Texas, New Mexico, Arizona), southern Nevada, southwestern Utah, and northern Mexico (Chihuahua, Coahuila, Sonora, Nuevo León). Yucca elata is widely distributed, although its population appears to be decreasing.