Pointleaf Manzanita

More info for the term: severity

Fire effects to pointleaf manzanita vary with season, severity, and intensity and range from
partial consumption to complete consumption of the aboveground plant [16].

More info for the terms: basal area, density, fire frequency, fire severity, frequency, prescribed fire, seed, severity, shrub, wildfire, woodland

Postfire establishment patterns:
Success of postfire germination and
establishment of pointleaf manzanita varies greatly across sites and is believed
to be the result of fire severity (see "Fire severity and postfire
establishment" below) and postfire site conditions.
For example, in central Arizona Lindenmuth and Glendening [62] found pointleaf manzanita produced "many"
seedlings during the 1st spring after a wildfire. However, seedling mortality rates
were high, with only 10% of seedlings surviving after the 1st dry season.
Mortality was attributed to drought and rooting and trampling by collared peccaries.
In a Madrean oak woodland near
Tucson, Arizona, postfire establishment was monitored after wildfire in July.
Pointleaf manzanita establishment rates were "very low" 1 to 2 years following
burning. In some areas it showed no postfire establishment, while
other areas showed "minimal" recruitment after burning. From these observations
the authors categorized pointleaf manzanita as intolerant to fire [16].
In contrast, studies have shown successful postfire establishment of
pointleaf manzanita. In La Michilía Biosphere
Reserve, Durango, Mexico, pointleaf manzanita showed "strong" seedling
emergence following an "intense" wildfire. Pointleaf manzanita stem densities were
491 stems per hectare on unburned plots compared to 4625 stems per
hectare on adjacent burned plots 11 months after burning [34]. In a central Arizona
shrub live oak-skunkbush sumac community, Pase and Pond [86] found that pointleaf manzanita
density was 486 seedlings/acre 1 year after a wildfire. At postfire year 4, pointleaf manzanita had
declined to 335 seedlings/acre but showed signs of "vigorous growth."

Also in central Arizona, Pase and Lindenmuth [85] found "abundant"
regeneration and "vigorous growth" of pointleaf manzanita seedlings 1 to 5 years
following prescribed fire in a shrub live oak-mountain-mahogany
community. However, mortality of pointleaf manzanita seedlings was high
following emergence during the summer dry seasons
(see Fire Case Studies).

Fire severity and postfire establishment:
During the mid-20th century, stand conversion of pointleaf manzanita and other
chaparral species to grasslands was rationalized by grazing needs, potential
wildlife habitat improvement, and aesthetics. A common tactic during chaparral
conversions involved the use of low-severity prescribed fire. Lathrop and Martin
[59] found that prescribed fire conducted in southern California Jeffrey pine-California black oak
woodlands during the winter killed pointleaf manzanita plants but was not severe
enough to break dormancy of belowground banked pointleaf manzanita seeds.
Burning resulted in a significant reduction (93%, p<0.01) in density and basal area of pointleaf
manzanita in burned areas compared to adjacent unburned stands 2 years following fire.

Fire frequency and postfire establishment:
Research conducted during the mid-20th century focused on the timing and frequency of burning as means of
reducing stands of pointleaf manzanita (see Fire severity and postfire
establishment above). Pointleaf manzanita can be eliminated in areas where fires are frequent
enough to kill young plants that have not matured enough to produce
a seed crop [13,17]. One experimental burn in montane chaparral in California, conducted 3 years after a fire on a
young stand of pointleaf manzanita, resulted in 100% mortality of all plants. No new seedlings established [13].

The Research Project Summary
Response of vegetation to prescribed burning in a Jeffrey pine-California
black oak woodland and a deergrass meadow at Cuyamaca State Park, California,
provides information on prescribed fire and postfire responses of many plant community species including
pointleaf manzanita.

pointleaf manzanita

Mexican manzanita

More info for the terms: cover, density, forbs, frequency, fruit, perfect, shrub

This description provides characteristics that may be relevant to fire ecology,
and is not meant for identification. Keys for identification are available (e.g.[46,51,66,89,104,106]).

Pointleaf manzanita is an erect large round evergreen shrub that reaches 3 to 10
feet (1-3 m) in height. The bark is smooth. Leaves are covered with fine hairs and are thick, leathery, and oval shaped.
The inflorescence is a raceme of perfect, urn-shaped, terminal flowers, 6 mm long.
The fruit is a round berry, 5-8 mm in diameter, containing 1 to several seeds [46,51,66,89,104,106]. The
root system of pointleaf manzanita is shallow and fibrous except in sandy soils,
where taproots are usually well developed. Aboveground biomass
is generally nearly double the biomass of belowground parts [55].

Stand structure:
In interior chaparral pointleaf manzanita
often occurs in dense stands that often exceed 70% crown
cover. The density of these stands suppresses the growth of forbs and
grasses in the understory except in scattered openings or on rocky outcrops [50,84].
However, frequency and percent cover of pointleaf manzanita vary among plant communities.
The following table presents frequency of occurrence and percent cover
of pointleaf manzanita in several vegetation types of central Arizona [18]:

 
Frequency (% )
Mean Cover (%)
Pointleaf manzanita chaparral 100.0 54.5
Shrub live oak-datil yucca-yellowleaf silktassel 85.7 3.0
Shrub live oak-mixed shrub 50.0 3.0
Pringle manzanita chaparral 46.2 1.9
Arizona cypress-shrub live oak 50.0 1.4
Arizona oak-yellowleaf silktassel-Emory oak 50.0 0.9
Shrub live oak-birchleaf mountain-mahogany 14.3 0.7
Yerba santa-desert ceanothus
chaparral 50.0 0.6

Pointleaf manzanita occurs discontinuously throughout the mountainous areas of Arizona, New
Mexico, southern California, extreme southern Nevada and Utah, western Texas, and Mexico
[46,50,66,89,104]. In California pointleaf manzanita occurs along the Coast Ranges south to the Santa Ynez,
Liebre, San Gabriel, San Bernardino, San Jacinto, Cuyamaca, and Laguna
mountains. In Arizona pointleaf manzanita occurs
frequently in foothills, mountain slopes, and canyons
from the Virgin Mountains at the southern edge of Nevada-Utah boarder southeastward
across the Mogollon Rim. From
central Arizona and southern New Mexico east to the Chios Mountains of western
Texas, pointleaf manzanita occurs less frequently on dry
mountainous slopes. In Mexico pointleaf manzanita is found
in abundance in the northern and central states from Chihuahua, Coahuila, and
Nuevo Leon south to Mexico City. Pointleaf manzanita also occurs in the
Sierra Juárez and San Pedro Martir mountains of Baja California
[1,27,28,84,106]. Plants database
provides a distributional map of pointleaf manzanita.

More info for the terms: fire regime, forest, layering, seed, shrub, shrubs, woodland

Fire adaptations:
Pointleaf manzanita is dependent on fire for germination of its dormant, banked seed [19,84,103].

FIRE REGIMES:
Historic FIRE REGIMES in stands where
pointleaf manzanita occur varied by geographic
region and forest type. For example, prior to 1930, fire return intervals in Madrean pine-oak woodlands
of La Michilía Biosphere Reserve in Durango, Mexico,
ranged from 3 to 37 years. In that region, short fire intervals are
characteristic of low elevations and small fire size, while longer fire
intervals are typical of higher elevations and larger fires [32]. In
the interior chaparral communities of Arizona, New Mexico, and adjacent Mexico, fires
historically burned at intervals of 50 to 100 years, and at high
severities over large areas [84]. In southern
California and northern Baja California, fires in montane chaparral
burned frequently (<20 years) at low severities and small sizes, while larger,
severe fires burned infrequently (>50 years) [4,70,87].

Fire exclusion: In the absence of fire, mature
(>30 yrs old) pointleaf manzanita
shrubs may grow larger than 20 feet (6 m) in diameter. Large individual shrub size and
high densities of pointleaf manzanita are attributed to layering [17].

The following table provides fire return intervals for plant communities and
ecosystems where pointleaf manzanita may be important. 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".

Community or Ecosystem Dominant Species Fire Return Interval Range (years)
California chaparral Adenostoma and/or Arctostaphylos spp.
< 35 to < 100
California montane chaparral Ceanothus and/or Arctostaphylos spp. 50-100 [87]
curlleaf mountain-mahogany* Cercocarpus ledifolius 13-1,000 [7,94]
Arizona cypress Cupressus arizonica < 35 to 200
western juniper Juniperus occidentalis 20-70
Rocky Mountain juniper Juniperus scopulorum 87]
pine-cypress forest Pinus-Cupressus spp. 4]
pinyon-juniper Pinus-Juniperus spp. 87]
Mexican pinyon Pinus cembroides 20-70 [75,99]
Jeffrey pine Pinus jeffreyi 5-30
Pacific ponderosa pine* Pinus ponderosa var. ponderosa 1-47 [4]
interior ponderosa pine* Pinus ponderosa var. scopulorum 2-30 [4,8,60]
Arizona pine Pinus ponderosa var. arizonica 2-15 [8,20,95]
Rocky Mountain Douglas-fir* Pseudotsuga menziesii var. glauca 25-100 [4,6,104]
coastal Douglas-fir* Pseudotsuga menziesii var. menziesii 40-240 [4,77,92]
California mixed evergreen Pseudotsuga menziesii var. menziesii-Lithocarpus densiflorus-Arbutus menziesii < 35
California oakwoods Quercus spp. 4]
oak-juniper woodland (Southwest) Quercus-Juniperus spp. 87]
coast live oak Quercus agrifolia 2-75 [38]
canyon live oak Quercus chrysolepis <35 to 200
blue oak-foothills pine Quercus douglasii-P. sabiniana 4]
California black oak Quercus kelloggii 5-30 [87]
interior live oak Quercus wislizenii 4]


*fire return interval varies widely; trends in variation are noted in the species review

More info for the terms: cover, fire management, forest, fuel, litter, prescribed fire, seed, shrub, shrubs, top-kill, wildfire

Elimination of pointleaf manzanita can occur if prescribed fire is used frequently.
If pointleaf manzanita is desired on a site, burning intervals must allow enough time for pointleaf
manzanita to produce seed for future postfire cohorts [13,17]. In
contrast, grasslands and woodlands where fire intervals exceed historical ranges
(see FIRE REGIMES)
are susceptible to chaparral encroachment
into ecotonal areas and increases in chaparral fuel loads [16,76,79,84].


FIRE CASE STUDIES

SPECIES: Arctostaphylos pungens

• CASE NAME
• REFERENCES
• FIRE CASE STUDY AUTHORSHIP
• SEASON/SEVERITY CLASSIFICATION
• STUDY LOCATION
• PREFIRE VEGETATIVE COMMUNITY
• TARGET SPECIES PHENOLOGICAL STATE
• SITE DESCRIPTION
• FIRE DESCRIPTION
• FIRE EFFECTS ON TARGET SPECIES
• FIRE MANAGEMENT IMPLICATIONS

CASE NAME:


Effects of prescribed fire on vegetation and sediment in oak-mountain mahogany
chaparral

REFERENCE:


Pase, C. P.; Lindenmuth, A. W. 1971. [85]


FIRE CASE STUDY AUTHORSHIP:


League, Kevin. 2005.


SEASON/SEVERITY CLASSIFICATION:


fall/variable


STUDY LOCATION:


The study was located in the Sierra Ancha Experimental Forest in central Arizona,
near the community of Globe.


PREFIRE VEGETATIVE COMMUNITY:


Prefire vegetation was dominated by shrub live oak (Quercus
turbinella) and true mountain-mahogany (Cercocarpus montanus). Other
important species included pointleaf manzanita (Arctostaphylos pungens), Pringle
manzanita (A. pringlei), Wright silktassel (Garrya wrightii),
desert ceanothus (Ceanothus greggii), banana yucca (Yucca
baccata), narrowleaf yerba santa (Eriodictyon angustifolium), and
Wright buckwheat (Eriogonum wrightii).


TARGET SPECIES PHENOLOGICAL STATE:


Not reported


SITE DESCRIPTION:


Elevation: 5,300 feet (1,615 m)

Annual precipitation: 25.0 inches (640 mm), 30% received June through September

Soils: coarse, poorly developed

Parent material: weathered diabase

Average slope length: 120 to 190 feet (37-58 m), few > 200 feet (61 m)

Slope steepness: moderate, averaging 30% [85]


FIRE DESCRIPTION:


Management objective were to (1) increase forage quality for wildlife by
reducing cover of old shrubs and increasing the number of shrubs in young age
classes, and (2) minimize postfire erosion. Areas to be burned were sprayed with
a mixture of 2,4-D and 2,4,5-T 6 weeks prior to ignition to increase shrub
top-kill and flammability. Burns were conducted in the fall (late September/early October) once in each
of 4 consecutive years. Average weather and fuel conditions during
burns were [85]:

  September 1961 September 1962 September-October 1963 October 1964
drought index  75 91 82 79
rate of spread index  15-20 10-20 10 10
maximum air temperature (oF) 69 85 80 79
relative humidity (%) 46 34 25 33
wind speed (mph) 17 5 6 5
litter moisture (%) 13 8 6 7

It is recognized that prefire herbicide treatment of chaparral would
probably not be included in current fire prescriptions. However, this Fire Case
Study provides useful quantitative information on ability of pointleaf manzanita
to establish after prescribed fire.

FIRE EFFECTS ON TARGET SPECIES:


Numerous pointleaf and Pringle manzanita seedlings emerged following fire, with 86% emerging
the 1st postfire year and none in the 5th post fire year [85,86]. Pringle manzanita regenerates only by seed in the
same manner as pointleaf manzanita [35], and the data for the 2 species were
pooled. Manzanita seedling emergence in each postfire year was as follows [85]:

Postfire year seedlings/acre
1 612
2 62
3 28
4 9
5 0



FIRE MANAGEMENT IMPLICATIONS:


The prescribed fire met both management objectives. It enhanced the browse quality of the mature
chaparral stand. Total shrub coverage was reduced from 59% before fire to 45% at
postfire year 5. Younger-age-class browse became available for wildlife. Numerous manzanita seedlings emerged after fire. Sprouting
shrubs also provided young browse for wildlife. As for watershed protection, at
postfire year 5 mean sediment yield on the burned watershed was low compared to
a similar watershed burned by wildfire (0.30 acre-foot/mi²
vs. 3.2 acre-feet/mi², respectively).

More info on this topic.

More info for the term: phanerophyte

RAUNKIAER [90] LIFE FORM:



Phanerophyte

More info for the term: grassland

Soils:
Pointleaf manzanita occurs on dry
rocky slopes and mesas. Soils are usually gravelly sandy loams derived from granitic
parent materials that are poorly developed, unstable, and coarse. Soils are
generally acidic [18,22,24,84,105]. Pointleaf manzanita associates with "abundant
amounts" of mycorrhizae that enhance mineral nutrient and water uptake of
the roots [56].

Climate:
Two distinct climatic patterns occur in regions where
pointleaf manzanita occurs. Climate in the desert southwest follows a bimodal distribution with
nearly equal amounts of precipitation in winter and summer, while
drought is common during fall and spring. Storm systems bring rain and snow in the
winter, while monsoons bring thunderstorms in summer. In contrast, climate in California is
considered "mediterranean," where 80% of the annual total precipitation occurs in
the fall, winter, and spring from Pacific storms. Summer droughts are
common. Pointleaf manzanita
typically occurs in areas where annual precipitation ranges from 10 to
30 inches (250-800 mm) [84]. Annual average
precipitation is:

State
Location
Mean Annual Precipitation
Citation
California San Diego 10.0 inches (250 mm) [72]
California Cuyamaca 32.5 inches (825 mm) [84]
Arizona Oracle 20.8 inches (528 mm) [17]
New Mexico Luna 16.4 inches (417 mm) [47]
Texas Mt. Locke 18.8 inches (477 mm) [84]
Chihuahua Majalca 19.7 inches (500 mm) [28]
Sonora Pilaares de Nacozari 22.8 inches (578 mm) [84]

Elevation:
Pointleaf manzanita occurs in chaparral and woodlands between 3,000
to 8,000 feet (900-2,500 m). Elevations above
and below where pointleaf manzanita occurs are generally occupied by montane coniferous forests
and desert or coastal grassland types, respectively
[51,66,89,106]. Elevational ranges by state are:

State
Elevation
Citation
Utah
3,280-6,234 feet (1,000-1,900 m)
[104]
California
2,953-7,382 feet (900-2,250 m)
[46]
Arizona
3,500-6,500 feet (1,067-1,981 m)
[51]
Texas
~6,000 feet (~1,900 m)
[89]
New Mexico
5,000-8,000 feet (1,524-2,439 m)
[66]
Nevada
4,200-8,000 feet (1,280-2,439 m)
[52]
Chihuahua
6,234-6,890 feet (1,900-2,100 m)
[28]

More info on this topic.

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 [29]:




210 Interior Douglas-fir

220 Rocky Mountain juniper

229 Pacific Douglas-fir

230 Douglas-fir-western hemlock

235 Cottonwood-willow

237 Interior ponderosa pine

238 Western juniper

239 Pinyon-juniper

240 Arizona cypress

241 Western live oak

243 Sierra Nevada mixed conifer

244 Pacific ponderosa pine-Douglas-fir

245 Pacific ponderosa pine

246 California black oak

247 Jeffrey pine

248 Knobcone pine

249 Canyon live oak

250 Blue oak-foothills pine

255 California coast live oak

More info on this topic.

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 [36]:





FRES20 Douglas-fir

FRES21 Ponderosa pine

FRES28 Western hardwoods

FRES33 Southwestern shrubsteppe

FRES34 Chaparral-mountain shrub

FRES35 Pinyon-juniper

More info on this topic.

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, shrubland, woodland

SRM (RANGELAND) COVER TYPES [96]:




107 Western juniper/big sagebrush/bluebunch wheatgrass

109 Ponderosa pine shrubland

110 Ponderosa pine-grassland

201 Blue oak woodland

202 Coast live oak woodland

204 North coastal shrub

205 Coastal sage shrub

206 Chamise chaparral

207 Scrub oak mixed chaparral

208 Ceanothus mixed chaparral

209 Montane shrubland

210 Bitterbrush

216 Montane meadows

322 Curlleaf mountain-mahogany-bluebunch wheatgrass
412 Juniper-pinyon woodland

413 Gambel oak

415 Curlleaf mountain-mahogany

416 True mountain-mahogany

417 Littleleaf mountain-mahogany

503 Arizona chaparral

504 Juniper-pinyon pine woodland

509 Transition between oak-juniper woodland and mahogany-oak association

Fire kills pointleaf manzanita [16].

More info for the term: cover

Pointleaf manzanita provides food and cover for wildlife and livestock
[10,26,51,64,66,68,80,107]. Many frugivorous animals eat the berries, including
blue grouse, Montezuma quail, wild turkeys, Gambel's quail, white-tailed deer, mule deer,
American black bears, coyotes, hooded skunks, and collared peccaries
[10,26,51,66,68,80,107]. Domestic goats prefer pointleaf manzanita browse.
One of only several populations of pointleaf manzanita in Texas is reported to
be decreasing due to browsing pressure by domestic goats [37,51].

Palatability/nutritional value:
Palatability of pointleaf manzanita is considered "low" for deer species [81].

Cover value: The Chauilla
people considered stands of pointleaf manzanita excellent cover for white-tailed and mule
deer and desert bighorn sheep [10]. Hooded skunk, white-tailed deer, mule deer, blue grouse,
Montezuma quail, Gambel's quail, desert kangaroo rats, American black bears, coyote, and numerous bird
species are found in stands of pointleaf manzanita
[10,51,66].

More info for the terms: cover, cover type, graminoid, grassland, shrub, shrubs, tree, woodland

Pointleaf manzanita occurs as a primary understory species in Madrean pine-oak
(Pinus-Quercus spp.) woodlands
in southern Arizona and New Mexico, western Texas, and Mexico.
Associated tree species include shrub live oak (Q. turbinella), Mexican blue oak (Q. oblongifolia),
Emory oak (Q. emoryi), Palmer oak (Q. dunnii), Arizona white oak (Q. arizonica), silverleaf oak
(Q. hypoleucoides), Mexican pinyon (P. cembroides),
Chihuahua pine (P. leiophylla var. chihuahuana),
Arizona cypress (Cupressus arizonica), Arizona rosewood (Vauquelinia californica),
alligator juniper (Juniperus deppeana), oneseed juniper (J. monosperma),
and birchleaf mountain-mahogany (Cercocarpus betuloides).
Important shrubs include Wright silktassel (Garrya wrightii), ashy silktassel (G. flavescens),
Palmer's century plant (Agave palmeri), Schott's century plant (A. schottii),
Pringle manzanita (Arctostaphylos pringlei), desert ceanothus (Ceanothus
greggii), skunkbush sumac (Rhus
trilobata), sugar sumac (R. ovata), Stansbury cliffrose (Purshia mexicana var.
stansburiana), Wilcox's barberry (Berberis wilcoxii), Wheeler
sotol (Dasylirion wheeleri), sacahuista (Nolina microcarpa),
Schott's yucca (Yucca schottii), banana yucca (Y. baccata),
and wait-a-minute (Mimosa aculeaticarpa var. biuncifera). Grasses include sideoats grama (Bouteloua
curtipendula), bull grass (Muhlenbergia emersleyi), and mutton grass (Poa
fendleriana) [3,16,17,23,28,30,57,67,78,83].

Pointleaf manzanita is found in the understory of pinyon-juniper (Juniperus
spp.) woodlands in southwestern New
Mexico. This cover type is typical of low to mid-slopes on eastern
exposures at elevations from 6,365 to 7,875 feet (1,940-2,400 m) elevation. Dominant trees
in this type include Colorado pinyon (P. edulis), Mexican pinyon, singleleaf pinyon (P.
monophylla), alligator juniper, Utah juniper (J. osteosperma), birchleaf mountain-mahogany,
gray oak (Q. grisea), and shrub live oak.
Graminoid associates include blue grama (Bouteloua gracilis), pine muhly
(M. dubia), and common wolfstail (Lycurus phleoides)
[47,74,104].

Pointleaf manzanita is a common shrub in Arizona and New Mexico's interior chaparral.
This vegetation type, found along the Mogollon Rim, is dominated by shrubs and
small trees. Shrub associates include Pringle manzanita, sugar sumac, skunkbush
sumac, smooth sumac (R. glabra), deer brush (C. integerrimus),
Mojave ceanothus (Ceanothus greggii var. vestitus), Mohave buckbrush (C. g.
var. perplexans), redberry buckthorn (Rhamnus crocea), Wright
silktassel, wait-a-minute, narrowleaf yerba santa (Eriodictyon
angustifolium), and sacahuista. Shrubby tree associates may include shrub
live oak, Nuttall's scrub oak (Q. dumosa), curlleaf mountain-mahogany (Cercocarpus ledifolius),
and hairy mountain-mahogany (C. montanus var.
paucidentatus). Larger trees such as Chihuahua pine, interior ponderosa pine (P.
ponderosa var. scopulorum), border pinyon (P.
discolor), alligator juniper, Emory oak, silverleaf oak, and Arizona white
oak may have scattered occurrences. Important grasses include lemon grass (Cymbopogon
citratus), Orcutt's threeawn (Aristida
schiedeana var. orcuttiana), and bull muhly (M. emersleyi) [18,24,44,51,63,67,69,84].

The most diverse community where pointleaf manzanita occurs is
the montane chaparral of the higher-elevation Coastal Ranges of northern, central,
and southern California, the Transverse and Peninsular ranges of southern California, and the
Sierra San Pedro Mártir of northern Baja California.
Characteristic species that associate with pointleaf manzanita in montane
chaparral include whiteleaf manzanita, bigberry manzanita (A.
glauca), yerba santa (E. californicum), eastern redbud (Cercis
canadensis), wedgeleaf ceanothus (Ceanothus cuneatus), California buckthorn (Frangula californica ssp.
cuspidata), common snowberry (Symphoricarpos albus), birchleaf mountain-mahogany, thickleaf yerba santa (E.
crassifolium), flannelbush (Fremontodendron californicum), California
coffeeberry (Rhamnus californica), and yellowleaf silktassel (G. flavescens) [2,27,40,59,71].
Tecate cypress (Cupressus forbesii)
may associate in southern California and northern Baja California [25]. Montane chaparral
often succeeds to Jeffrey pine (P.
jeffreyi), Coulter pine (P. coulteri), and Pacific
ponderosa pine (P. ponderosa var. ponderosa), and/or California
black oak (Q. kelloggii) [2,27,40,59,71].

Chamise (Adenostoma fasciculatum) chaparral is the most common type of chaparral in California,
occurring in the North and Central Coast Ranges, Sierra Nevada foothills,
southern California, and northern Baja California. Whiteleaf
manzanita (Arctostaphylos
viscida) may codominate with chamise on some sites. Pointleaf manzanita and
other associated species are infrequently in this type. Associated shrubs
include Nuttall's scrub oak, laurel sumac (Malosma laurina), white
sage, (Salvia mellifera), black sage (S. apiana), sugar sumac, and
eastern Mojave buckwheat (Eriogonum fasciculatum). Giant wildrye (Leymus condensatus)
is a common grass associate [43,73].

Pointleaf manzanita is found in the understory of oak woodlands of the
lower-elevation Coastal Ranges of northern, central, and southern California, the Transverse and
Peninsular ranges of southern California, and the
Sierra San Pedro Mártir of northern Baja California.
Oak woodlands vary in structure from open savanna to dense woodland with a
shrubby understory. They merge or form a mosaic with annual
grassland at low elevations and with montane chaparral at higher elevations.
Overstory associates include valley oak (Q. lobata), coast live oak (Q. agrifolia), interior live
oak (Q. wislizenii),
California shrub live oak (Q. turbinella var. californica), leather oak (Q. durata),
canyon live oak (Q. chrysolepis), blue oak (Q. douglasii),
California black oak, Coulter pine, gray pine (P. sabiniana),
and California buckeye (Aesculus californica).
Common shrub associates include wedgeleaf ceanothus,
coffeeberry, chamise, poison-oak, and toyon (Heteromeles arbutifolia). Some common ground cover
associates are annual bluegrass (Poa annua), annual fescues (Vulpia spp.),
annual ryegrass (Lolium multiflorum), medusahead (Taeniatherum caput-medusae),
ripgut brome (Bromus rubens), wild oat (Avena fatua), and bur clover (Medicago
polymorpha) [9,39].

Classifications describing plant communities in which pointleaf manzanita is
a dominant species are as follows:

Arizona [3,14,18,31,44,58,82]

New Mexico [3,31,58]

California [39,42,43,48]

More info for the term: shrub

Shrub

More info for the term: fire management

See Fire Management Considerations.

More info for the terms: fruit, fuel

Pointleaf manzanita was an important food of the Chauilla. Stands of
pointleaf manzanita
were managed by the Chauilla for production of food, firewood, and construction materials.
The fruits were smashed and used to
make a beverage, eaten raw, or made into a cake. Leaves were occasionally
mixed with tobacco for smoking or used in a tea for several types of remedies
[10]. The Navajo smoked the leaves of pointleaf manzanita for good luck
[101]. A decoction using the leaves of pointleaf manzanita was locally used in
Arizona and New Mexico as a remedy for stomach trouble [51,89].

The fruits of pointleaf manzanita are edible and are commonly used in jelly, and sold in markets
in Mexico [51,89]. The leaves and fruit of pointleaf manzanita are used in
Mexican household remedies for dropsy, bronchitis, venereal diseases, and other
infections [19].

Pointleaf manzanita is sometimes used for fuelwood in Arizona and New Mexico,
although it is considered "nondesirable" fuel [11].

More info for the terms: forest, shrub, woodland

KUCHLER [54]





K005 Mixed conifer forest

K009 Pine-cypress forest

K010 Ponderosa shrub forest

K011 Western ponderosa forest

K012 Douglas-fir forest

K014 Grand fir-Douglas-fir forest

K018 Pine-Douglas-fir forest

K019 Arizona pine forest

K022 Great Basin pine forest

K023 Juniper-pinyon woodland

K024 Juniper steppe woodland

K029 California mixed evergreen forest

K030 California oakwoods

K031 Oak-juniper woodland

K032 Transition between K031 and K037

K033 Chaparral

K034 Montane chaparral

K035 Coastal sagebrush

K036 Mosaic of K030 and K035

K037 Mountain-mahogany-oak scrub

More info on this topic.

More info for the term: fruit

Depending on geographic location, elevation, and seasonality of precipitation,
pointleaf manzanita flowers from January to July and produces fruit from April to
September. Pointleaf manzanita fruit matures from April to September [46,50,51,53,89,104,106].

Pointleaf manzanita establishes from long-lived, soil-stored seeds 1 to 5 years after fire 
[18,86].

More info for the terms: adventitious, ground residual colonizer, secondary colonizer, seed, shrub

POSTFIRE REGENERATION STRATEGY [97]:




Shrub without adventitious bud/root crown

Ground residual colonizer (on-site, initial community)

Secondary colonizer (on-site or off-site seed sources)

Prostrate woody plant, stem growing in organic mantle

More info for the terms: layering, monoecious, scarification, seed

Pointleaf manzanita regenerates from seed or through layering [19,102].

Breeding system:
Pointleaf manzanita is monoecious [49].

Pollination is insect mediated [49].

Seed production:
Pointleaf manzanita produces "prolific" or "many" seeds
[62,84]. Quantitative measurements of seed crops are not available as of this
writing (2005).

Seed dispersal:
No information is available on this topic.

Seed banking:
Pointleaf manzanita seeds remain viable in the soil for decades [18,84,86].

Germination of pointleaf
manzanita is stimulated by scarification of seed by fire [18,23,34,85].

Seedling establishment/growth:
Pointleaf manzanita is widely considered an "obligate seeder" or
"fire-recruiter." Regeneration depends almost entirely on germination from seed
after fire [19,84,85,103]. During the spring after burning,
varying numbers of pointleaf manzanita seedlings appear. High mortality rates are common
the 1st year after seedling establishment, possibly because of summer
drought [62]. Pointleaf manzanita seedlings reach heights
of 14 to 16 inches (35-40 cm) 2 years after fire [17].

Asexual regeneration:
Pointleaf manzanita regenerates by layering when branches that lie on
the ground for extended periods (>2 years) take root [17,102].

More info on this topic.

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 [12]:




2 Cascade Mountains

3 Southern Pacific Border

4 Sierra Mountains

6 Upper Basin and Range

7 Lower Basin and Range

12 Colorado Plateau

(key to state/province abbreviations)


UNITED STATES


AZ CA NM OR TX UT NV



MEXICO
B.C.N. B.C.S. Chih. Coah. Dgo. Edo. M Oax.
Son. Ver. Zac.

More info on this topic.

More info for the terms: association, climax, cover, fire exclusion, fire severity, forbs, herbaceous, layering, mesic, seed, severity, shrub, shrubs, succession

Succession in stands where pointleaf manzanita
occurs is not easily predicted and depends on a number of variables including plant association,
community type, proximity to boundaries with other communities, geographic and topographic
location, climate, fire severity, and time since last fire [41].

Pointleaf manzanita occurs in a "fire-induced climax association." This
is defined as species that must have fires at regular intervals to maintain dominance. Stand-level
regeneration of pointleaf manzanita occurs
after fire that scarifies long-lived, soil-stored seed. Depending on geographic location,
moisture availability, and time since last fire, fire exclusion results in the
successional replacement of pointleaf manzanita [18]. This is especially
apparent at the upper elevational limits of pointleaf manzanita, where chaparral or oak woodlands
transition to higher, more mesic pine forests. In these areas, very old stands of pointleaf manzanita
are susceptible to encroachment by
conifers [16,76,79,84].

Stands where pointleaf manzanita occurs change rapidly during the first 1 to 4
postfire years. In areas
where pointleaf manzanita associates with sprouting shrub species, postfire
succession can typically be described in 3 stages: (1) During the 1st postfire
year, grasses and forbs form the dominant cover, while chaparral
shrub seedlings and sprouts emerge. (2) During the 2nd postfire year, mortality of shrub and subshrub seedlings
is high. (3) In subsequent years, the remaining
shrub seedlings and sprouts become well established while herbaceous vegetation
gradually decreases. After 8 to 10 postfire years, a relatively mature chaparral cover
with little understory exists [23,41,98].

Between fires vegetative regeneration by layering occurs on the perimeters of parent shrubs and
creates a discrete age and size "aggregate" from the center of the parent shrub to
the outside of the aggregate.  This assemblage may resemble one large
individual shrub. As the parent shrub ages, it often senesces and dies while the aggregates continue growth leaving
a "fairy ring" growth pattern [17].

The scientific name of pointleaf manzanita is Arctostaphylos pungens K. Kunth. (Ericaceae) [46,51,66,89,104,106].
Pointleaf manzanita may hybridize with Eastwood manzanita (A. glauca) [52].

Uva-ursi tomentosa (Pursh) Abrams, Bull. N. Y. Bot. Gard
6: 433. 1910.
Arbutus tomentosa Pursh, FI. Am. Sept. 1: 282. 1814.
Arbutus tomentosa hispida Hook. Fl. Bor. Am. 2: 36. 1834
Arbutus tomentosa nuda Hook. Fl. Bor. Am. 2: 36. 1834
Arctostaphylos tomentosa Lindl. Bot. Reg. 21: pi. 1791. 1836.
Arctostaphylos tomentosa hispida Lindl. Bot. Reg. 21: under pi. 1791 1836
Arctostaphylos tomentosa nuda Lindl. Bot. Reg. 21: under pi. 1791 1836
Arctostaphylos cordifolia Lindl. Bot. Reg. 21: under pi. 1791, 1836.
Andromeda bracteosa DC. Prodr. 7: 607. 1839.
Andromeda bracteosa trichoclada DC. Prodr. 7: 607. 1839.
Andromeda bracteosa hebeclada DC. Prodr. 7: 607. 1839.
Xerobotrys cordifolius Nutt. Trans. Am. Phil. Soc. II. 8: 268. 1843.
Xerobotrys tomentosus Nutt. Trans. Am. Phil. Soc. II. 8: 267. 1843.
Daphnidostaphylis tomentosa Klotzsch, Linnaea 24: 79. 1851.
Daphnidostaphylis cordifolia Klotzsch, Linnaea 24: 81. 1851.
Arctostaphylos media Greene, Pittonia 2: 171. 1891.
Arctostaphylos glandulosa Eastw. Proc. Calif. Acad. III. 1: 82. 1897.
Arctostaphylos canescens Eastw. Proc. Calif. Acad. III. 1: 84. 1897.
Arctostaphylos intermedia Greene; Howell, Fl. NW. Am. 1: 415. 1901. (Misprint for A. media )
Arctostaphylos hispidula Howell, Fl. NW. Am. 1: 415. 1901.
Arctostaphylos oblongifolia Howell, Fl. NW. Am. 1: 416. 1901.
Arctostaphylos parvifoUa Howell, Fl. NW. Am. 1: 416. 1901.
Arctostaphylos intricata Howell, Fl. NW. Am. 1: 416. 1901.
Arctostaphylos cinerea Howell, Fl. NW. Am. 1: 416. 1901.
Arctostaphylos bracteata Howell, Fl. NW. Am. 1: 417. 1901.
Arctostaphylos stigosa Howell, Fl. NW. Am. 1: 417. 1901.
Arctostaphylos virgata Kastw. in Sarg. Trees & Shrubs 1: 203. 1905.
An erect branching shrub, forming a low compact rounded bush a meter or more high, or sometimes arborescent and 3-4 m. high; bark smooth, bright or dark reddish-brown; young branchlets more or less tomentose and often setose-hispid or glandularvillous ; leaf-blades petioled, broadly ovate to oblong-lanceolate, mostly more than 25 mm. long, varying from rather dark-green and nearly glabrous to densely canescent or glandular-pubescent at least toward the base; flowers in open or crowded panicles; bracts usually more or less foliaceous, often longer than the pedicels, persistent; pedicels variously pubescent or sometijies glabrate; calyxlobes ovate to orbicular, nearly or quite glabrous, more or less ciliate on the margins; corolla white to rose-colored, 6-7 mm. long; filaments densely bearded at the base to nearly glabrous; ovary densely tomentose and more or less glandular to almost naked; fruit depressed-globose, 6-^ mm. broad, light yellowish-brown to deep chestnut-brown, glabrous, more or less tomentose or glandular; nutlets irregularly coalescent, acutely carinate.
Type wjcality: Northwest coast of America.
Distribution: Southern British Columbia to northern Lower California; most abundant and

Uva-ursi pungens (H. B. K.) Abrams, Bull. N. Y. Bot. Gard
6; 432. 1910.
Arctostaphylos pungens H. B. K. Nov. Gen. & Sp. 3: 278. 1819. Arbutus myrtifolia Willd.; Steud. Nom. Bot. ed. 2. 1: 119, 120, as a synonym. 1840. Arbutus rigida Willd.; Steud. Nom. Bot. ed. 2. 1: 119, 120, as a synonym. 1840. Daphnidostaphylis pungens Klotzsch, Linnaea 24: 80. 1851.
An erect shrub, branching from the base, 1-3 m. high, with smooth reddish-brown bark and branchlets more or less cinereous with a fine tomentum; leaf -blades ovate to lanceolate or obovate to oblanceolate, 15-30 mm. long, usually less than 15 mm. wide, minutely grayishtomentose when young, becoming dull-green or more or less shining; flowers in short spike-like racemes, the racemes simple or with 1 or 2 shorf branches; bracts triangular, 3 mm. long, tomentose throughout; pedicels 5-7 mm. long, glabrous; calyx-lobes rounded, 1.5 mm. long, glabrous; corolla 7 mm. long; ovary glabrous; fruit depressed-globose, 5-8 mm. broad, smooth, chestnut-brown; nutlets separable or irregularly coalescent, carinate and prominently corru-
gately wrinkled.
Type locality: On mountain slopes near the city of Mexico.
Distribution: Utah and the San Bernardino Mountains of southern California, and southward through the Mexican Plateau region to Oaxaca.

Arctostaphylos pungens, with the common name pointleaf manzanita, is a species of manzanita. It is native to the Southwestern United States and to northern and central Mexico, where it grows in chaparral and woodland habitats, and on desert ridges. Arctostaphylos pungens can be seen growing at Tent Rocks National Monument in New Mexico at an elevation of about 6000 feet.