This description covers characteristics that may be relevant to fire ecology and is not meant for identification. Keys for identification are available (e.g., [27,40,42,52,61,63]).
Cane bluestem is a perennial bunchgrass with erect to spreading stems that are 20 to 60 inches (50-150 cm) tall [25,42,66,67]. With age, stems become more decumbent at the base [91,94]. Cane bluestem produces coarse cauline and basal leaves [42,61]. Leaves are flat, 8 to 12 inches (20-30 cm) long, and 2 to 10 mm wide [40,42,91]. Leaf blades are typically hairless, but stem nodes are densely hairy [25,63,66,67]. Cane bluestem produces terminal fan-shaped panicles with dense racemes [27,51]. The entire inflorescence is 1 to 6 inches long (4-16 cm), and individual racemes are 0.8 to 2.5 inches (2-7 cm) long [25,63,66,67]. Small spikelets, 4 to 6 mm long, occur in pairs at each node [52,66,67]; the upper spikelet is perfect, and the lower spikelet is male or neuter and typically much reduced [66,67,91]. The fertile lemma has a twisted awn that is 0.6 to 1.2 inches (1.5-3 cm) long [25,42,91]. Cane bluestem has been described as "strong-rooted", producing dense, fibrous roots that extend 1 to 4 feet (0.3-1.2 m) deep [23].
Cane bluestem is considered most common in Arizona, New Mexico, western Texas, and north-central Mexico [60]. Although only native to the Southwest, cane bluestem has been introduced to other parts of the United States and grows as far north as British Columbia [6]. Cane bluestem was introduced to Hawaii's Molokai Island in 1905 [23] and, as of 1990, occurred on the islands of Niihau, Oahu, Molokai, and Maui [89].
The Plants database [86] reported cane bluestem in the following states as of 2011:
United States: AZ, CA, CO, FL, HI, NM, NV, OK, SC, TX, UT
Specific information about cane bluestem as a fuel was not reported in the available literature (2011). Because cane bluestem rarely dominates desert grassland, shrubland, or savanna habitat types (see Plant communities), its specific fuel characteristics may not be important to fire behavior and fire frequency.
Based on the fire studies discussed above, cane bluestem is persistent on sites burned almost biennially and may be most "healthy and vigorous" on sites burned often [72]. Cane bluestem is most common in semidesert grasslands and savannas where the average fire frequency can range from 7 to 100 years. For more about this, see the Fire Regime Table, which summarizes information on the prevailing FIRE REGIMES in communities where cane bluestem may occur. 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".
High cane bluestem germination percentages were reported from field and laboratory studies. At a semidesert site on Arizona's Santa Rita Experimental Range, cane bluestem germination generally exceeded 75% [1]. In field experiments in southeastern Arizona, cane bluestem typically germinated rapidly and produced a few, large seedling cohorts. Cane bluestem germinated after rain events, but germination after initial rain was limited [2].
When cane bluestem germination was compared at constant and abruptly or gradually changing temperatures, germination was best (88-93%) and most rapid at a constant temperature of 77 °F (25 °C). Seeds were germinated in incubators under unlimited moisture conditions and temperatures that approached seasonal field conditions. Cane bluestem generally failed to germinate at the minimum and maximum temperatures tested (46 °F (7.8 °C) and 86 °F (30 °C)). Germination was high (80%-92%) when temperature fluctuations were gradual, regardless of the seasonal temperature tested. When temperature changes were abrupt, germination was 76% for summer, 69% for spring, and 56% for winter temperatures [74].
Throughout its range, cane bluestem is described from open slopes, mesas, high plains, and plateaus to bottomlands, washes, swales, and floodplains [5,33,63,90]. Although commonly found on sandy, gravelly sites [40,51,52,91], cane bluestem may be most common in those microsites that support pooling water after high precipitation events [16,49,75].
Climate: In its southwestern range, growth and distribution of cane bluestem are often described in relation to precipitation. When growing in areas that are occasionally flooded by heavy summer rains, cane bluestem may grow where annual precipitation is as low as 5 inches (130 mm) [49]. Increased moisture availability can increase cane bluestem production, but productivity increases are limited. At the Big Spring Field Station in Texas, cane bluestem growth was compared without irrigation and with moderate and heavy irrigation. Plants in moderately irrigated plots were at least twice as productive as those in unirrigated plots but were no more nor less productive than those in heavily irrigated plots [53]. In the field, timing of rainfall may be important to cane bluestem production. On a cattle-grazed, semidesert range at the base of the Santa Rita Mountains in Arizona, August rainfall was highly correlated with the subsequent summer's perennial grass production (r values for the productivity of perennial grasses, including cane bluestem, ranged from 0.63-0.79). Winter precipitation and previous summer's rainfall were not correlated with the next summer's perennial grass production [21].
Elevation: In North America, cane bluestem is most common at elevations between 1,600 and 3,900 feet (500-1,200 m) [61], but elevations beyond this range are reported (Table 1).
Table 1. Elevation ranges for cane bluestem by state or region State and/or region Elevation range (feet) Arizona 1,000-6,000 [45,52] Arizona (southern) 3,500-5,000 [5] California <4,000 [42,67] Hawaii 30-2,100 [89] Nevada (southern) 2,300-3,000 [51] New Mexico 3,500-7,000 [33,63] Utah 3,000-6,000 [91]Soils: Cane bluestem grows on a variety of soil types and textures, but growth may be best on calcareous, deep loams or sandy loams with "good plant-soil moisture relationships" [35,60]. Sandy, gravelly, and rocky soils are tolerated, but in coarse-textured soils, cane bluestem may be restricted to depressional, moisture-accumulating areas [16,60]. In southern California, cane bluestem is common on well-drained soils and is frequent along dry washes and gullies [75]. In desert grasslands in Santa Cruz County, Arizona, cane bluestem production was greatest in man-made furrows (about 10 inches (25 cm) deep) where water accumulated [16]. In north-central Texas, cane bluestem is common on stony or rocky limestone soils [27]. In the Grand Prairie and Cross Timbers regions of Texas, cane bluestem is reported on loamy bottomlands and tight sandy loams, respectively [81]. In southwestern rangelands, cane bluestem is "particularly abundant" on graded roads, banks of washes, and other sites with exposed soils [45].
On cattle-grazed, semidesert rangelands in southern Arizona, cane bluestem was most important on sites with shallow stony or cobbly soils and less important on sites with clay subsoils and well-developed horizons or on sites with sand or sandy loam subsoils and weak profile development. Grazing may have confounded the study findings. Cane bluestem's importance on shallow stony soils may have related more to its steep slope position and escape from heavy grazing than to soil texture or depth [21]. On the Appleton-Whittell Research Sanctuary in Santa Cruz County, Arizona, cane bluestem was most common on level to gentle, south-facing, upland slopes that lacked surface rocks [11].
Salinity: In their literature review, Shafroth and others [80] report that cane bluestem tolerates moderate (4-8 dS/m) salinity levels. In the greenhouse, cane bluestem germination was similar between seeds without salt exposure and seeds exposed to low (1.3 dS/m) salinity. Cane bluestem seedling biomass was not different between low and high (15 dS/m) salinity levels [7].
Plant communities: Cane bluestem is generally most common in semidesert and desert grasslands [43,61,64,65], although it also occurs in semidesert shrublands, savannas, and woodlands [49]. It rarely dominates any vegetation type and typically decreases with increasing shading and grazing pressure. In southwestern rangelands, cane bluestem often occurs as scattered plants or small groups of plants; it rarely occurs in dense, pure stands [49,75]. On the Appleton-Whittell Research Sanctuary, cane bluestem was not widespread or abundant in grassland or oak (Quercus spp.) savanna vegetation but, because of its height, was often conspicuous [11].
Grasslands: In parts of southern Arizona, southern New Mexico, and western Texas, cane bluestem can be locally important. On Turkey Creek Ridge in Cochise County, Arizona, the sideoats grama (Bouteloua curtipendula)-cane bluestem community occurs in areas where water concentrates [48]. A black grama (B. eriopoda)-cane bluestem association is recognized on White Sands Missile Range in southern New Mexico [65]. In western Texas, the cane bluestem-multiflower false Rhodes grass (Trichloris pluriflora) vegetation type is found in restricted areas but was nearly eliminated by overgrazing and brush clearing [78,85]. In the Sierra Tierra Vieja Mountains of Trans-Pecos, Texas, cane bluestem cover was "considerable" on the eastern slopes of low foothills [43].
In southeastern Arizona, cane bluestem occurs in desert or semidesert grasslands dominated by grama (Bouteloua spp.) grasses [68,93]. In the Santa Catalina Mountains, desert grasslands occupy quartzite, bajada, and limestone soils [93]. In the central Peloncillo Mountains of New Mexico, cane bluestem occurs in grama steppe [64], and in Texas, cane bluestem is a common midsized grass in mixed-grass prairies (Allred 1956 as cited in [38]).
Shrublands: Cane bluestem is a minor to common component of coastal sage scrub in California [67], Arizona chaparral in Arizona and New Mexico [24,57,76], and other desert shrublands in the Southwest [91]. The Arizona chaparral type is typically dominated by shrub live oak (Q. turbinella) and pointleaf manzanita (Arctostaphylos pungens) [76]. In southeastern Arizona and southwestern New Mexico, cane bluestem occurs in desert scrub vegetation on limestone soils with Rio Grande saddlebush (Mortonia scabrella), whitethorn acacia (Acacia constricta), and sacahuista (Nolina spp.); it occurs in spinose desert scrub vegetation with ocotillo (Fouquieria splendens), Palmer's century plant (Agave palmeri), and cactus apple (Opuntia engelmannii) [64,93]. In the same region, cane bluestem occurs in the black grama-tobosa-creosotebush (Pleuraphis mutica-Larrea tridentata) vegetation type recognized by Kuchler [54].
Savannas and woodlands: In Arizona, New Mexico, and Texas, cane bluestem can be found with oak, juniper, and mesquite (Juniperus and Prosopis spp.). In central Arizona and western Texas, cane bluestem has been described in Pinchot juniper (J. pinchotii) savannas or woodlands [4,34]. In Arizona, cane bluestem occurs in oak or oak-pine woodlands and savannas where Arizona white oak (Q. arizonica), Emory oak (Q. emoryi), and/or Mexican blue oak (Q. oblongifolia) dominates the canopy layer on acidic and basic soils [17,29,92,93,93]. In New Mexico and Texas, cane bluestem is often associated with mesquite savannas [55,56,62]. In Texas, mesquite cover types are reported on deep sands, gravelly loams, and clays [26,28].
Outside of cane bluestem's most common range, savannas and woodland associates can be more variable. In California, cane bluestem occurs in Joshua tree (Yucca brevifolia) woodlands [67]. In southern Utah, cane bluestem is found in pinyon (Pinus spp.)-juniper and ponderosa pine (P. ponderosa) communities [91]. In the arid zone on Molokai Island, Hawaii, cane bluestem is "plentiful" in deep, fertile soils with mesquite and tanglehead (Heteropogon contortus) [22]. BOTANICAL AND ECOLOGICAL CHARACTERISTICS SPECIES: Bothriochloa barbinodisCane bluestem is a perennial bunchgrass with erect to spreading stems that are 20 to 60 inches (50-150 cm) tall [25,42,66,67]. With age, stems become more decumbent at the base [91,94]. Cane bluestem produces coarse cauline and basal leaves [42,61]. Leaves are flat, 8 to 12 inches (20-30 cm) long, and 2 to 10 mm wide [40,42,91]. Leaf blades are typically hairless, but stem nodes are densely hairy [25,63,66,67]. Cane bluestem produces terminal fan-shaped panicles with dense racemes [27,51]. The entire inflorescence is 1 to 6 inches long (4-16 cm), and individual racemes are 0.8 to 2.5 inches (2-7 cm) long [25,63,66,67]. Small spikelets, 4 to 6 mm long, occur in pairs at each node [52,66,67]; the upper spikelet is perfect, and the lower spikelet is male or neuter and typically much reduced [66,67,91]. The fertile lemma has a twisted awn that is 0.6 to 1.2 inches (1.5-3 cm) long [25,42,91]. Cane bluestem has been described as "strong-rooted", producing dense, fibrous roots that extend 1 to 4 feet (0.3-1.2 m) deep [23].
Raunkiaer [71] life form:Pollination and breeding system: Cane bluestem flowers are generally self-fertilized before florets open [38]. In a greenhouse study, 51.4% of self-fertilized flowers produced seed, and 76.9% of cross-fertilized flowers produced seed. Researchers reported that florets were often closed at anthesis. Anthers and stigmas made contact before florets opened, and cleistogamous seeds were produced [79].
Seed production: In the reviewed literature (as of 2011), little was reported about cane bluestem seed production under field conditions. Following revegetation of desert grasslands in Arizona, researchers reported cane bluestem seed yields were generally low [5].
Under ideal growing conditions, cane bluestem may produce seed in its first year. In October 1989, cane bluestem seed collected from Big Bend National Park was planted in a research field in Knox City, Texas. By the following fall, cane bluestem had produced seed [3].
Seed dispersal: Cane bluestem seeds can be transported "some distance" by wind [23]. Twisted awns on fertile lemmas suggest that cane bluestem seeds may be transported by animals. During revegetation studies in Arizona, researchers reported that cane bluestem spread "fairly effectively" through seeding [5].
Seed banking: Cane bluestem seed bank studies were uncommon in the reviewed literature (as of 2011). However, a study comparing aboveground vegetation and seed banks at 2 sites in Arizona suggests the cane bluestem seed bank may be short-lived. At the Appleton-Whittell Research Ranch, cane bluestem occurred in the aboveground vegetation at all 8 plots but was recovered from a seed bank sample from only 1 plot. Cane bluestem seed germinated from the litter layer sample and comprised only 0.1% of the seed bank for the site. At Oracle State Park in Pinal County, cane bluestem occurred in the aboveground vegetation in 3 of 8 plots but did not germinate from any seed bank samples put in the growth chamber [70].
Germination: High cane bluestem germination percentages were reported from field and laboratory studies. At a semidesert site on Arizona's Santa Rita Experimental Range, cane bluestem germination generally exceeded 75% [1]. In field experiments in southeastern Arizona, cane bluestem typically germinated rapidly and produced a few, large seedling cohorts. Cane bluestem germinated after rain events, but germination after initial rain was limited [2].
When cane bluestem germination was compared at constant and abruptly or gradually changing temperatures, germination was best (88-93%) and most rapid at a constant temperature of 77 °F (25 °C). Seeds were germinated in incubators under unlimited moisture conditions and temperatures that approached seasonal field conditions. Cane bluestem generally failed to germinate at the minimum and maximum temperatures tested (46 °F (7.8 °C) and 86 °F (30 °C)). Germination was high (80%-92%) when temperature fluctuations were gradual, regardless of the seasonal temperature tested. When temperature changes were abrupt, germination was 76% for summer, 69% for spring, and 56% for winter temperatures [74].
Seedling establishment and plant growth: The few studies available suggest that postgermination moisture may be most important to cane bluestem establishment and survival. Cane bluestem seedlings develop rapidly, but environmental conditions and grazing can affect seedling growth. After revegetation studies in desert grasslands in Arizona, researchers reported "rapid" and "vigorous" cane bluestem seedling growth [5]. In a laboratory wind tunnel, early growth of cane bluestem seedlings was reduced by exposure to wind and wind with sand. Decreases due to exposure were greater at the 2-leaf stage than at the 6-leaf stage. Generally wind with sand decreased seedling production more than wind alone [30]. In a greenhouse study, cane bluestem seedling root growth was rapid until the 3-leaf stage, when root growth began to slow. By the 12-leaf stage, root growth was again rapid. Removing 30% to 60% of first-year plant biomass did not significantly affect root or herbage production, but 90% removal significantly (P<0.05) reduced both root and herbage production [8]. In a field experiment, the length of 29-day-old seedling roots was greatest in frequently watered pots, but the number of tiller roots was greatest in pots watered less frequently. Watering frequencies evaluated included: 1) 200 ml of water every 2 days, 2) 400 ml of water every 4 days, 3) 300 ml water every 3 days, or 4) 600 ml water every 6 days [2].
Field studies suggest that the moisture available following germination may be the most important influence on seedling establishment and survival. During field experiments in southeastern Arizona, cane bluestem generally germinated rapidly and produced few but large seedling cohorts. Seedling mortality was greatest in the first week after emergence. The probability of successful establishment increased when seeds were planted during the summer rainy season, typically July through September when 60% of annual precipitation occurs. For seeds sown on 28 June or 10 August, cane bluestem seedling survival on 15 October averaged 77.5%. About 10% of seedlings produced tillers, and fewer than 4% of seedlings produced seed [2].
Precipitation after seeding was more important than plot treatments in Lehmann lovegrass (Eragrostis lehmanniana)-dominated semidesert grasslands in southern Arizona. In 1992, cane bluestem establishment was better after sowing seed in June than in August, a year in which July precipitation was more consistent than August precipitation. In 1993, establishment was better after sowing seed in August than in June, a year in which precipitation was more consistent in August and September than in June and July. Differences between treatments were significant in the 1992 planting but not in the 1993 planting. In the 1992 planting, cane bluestem seedling establishment was significantly greater in mowed than herbicide-treated plots, in herbicide-treated than burned plots, and in burned than control plots (Table 2). Differences between treatments observed in the 1992 planting persisted to some extent into the 2nd year, when density of seedlings was significantly greater on burned, mowed, and herbicide-treated plots than on control plots (P<0.05 for all treatment and control comparisons). There were 14 cane bluestem seedlings/m² on mowed plots, 7.2 seedlings/m² on herbicide-treated plots, 3.6 seedlings/m² on burned plots, and 0.4 seedlings/m² on control plots [9].
Table 2. Average cane bluestem seedling densities (seedlings/m²) at the end of the 1st growing season [9] Sowing date Burned Mowed Herbicide-treatedVegetative regeneration: Cane bluestem likely sprouts from the root crown after top-kill, although this was not specifically reported in the reviewed literature (as of 2011). Because cane bluestem is a bunchgrass, increase in plant size through tillering also occurs.
Deer, pronghorn, and cattle graze cane bluestem. In excellent-condition rangelands southeast of Sonora, Texas, white-tailed deer spent most (18%) of their feeding time in July equally divided between cane bluestem and Johnson grass (Sorghum halepense) [19]. In the Trans-Pecos region of Texas, pronghorn preferred cane bluestem; in stomach analyses, cane bluestem frequency was 49% [20]. Many studies indicate that cattle utilize cane bluestem (see Grazing). In Hawaii, cattle readily graze cane bluestem after it greens up with rains [23]. In areas grazed heavily by cattle, cane bluestem decreases. Some recommend that grazing should not exceed 60% of the current year's growth [60]. In southeastern Arizona, cane bluestem was a dominant species in areas consistently grazed below the 35% utilization level but was not a dominant in more heavily grazed areas [18].
Palatability and nutritional value: Palatability ratings for cane bluestem range from fair to excellent for pronghorn, horses, cattle, and domestic sheep [20,51]. According to Sampson and others [75], cane bluestem is more palatable to cattle and horses than to domestic sheep. Cane bluestem palatability is highest when foliage is green and young and decreases with drying and age [33,51,52].
On the Edwards Plateau of Texas, the nutritional composition of cane bluestem was reported from April through December. Protein, phosphorus, and digestible organic matter levels ranged from 3% to 9%, 0.03-0.15%, and 33% to 57%, respectively. For more details, see Huston and others [46]. The chemical composition of cane bluestem collected from sites in northwestern Texas at different stages of development is presented by Fudge and Fraps [31].
Cover value: No information is available on this topic.
In the reviewed literature (as of 2011), little was reported about cane bluestem seed production under field conditions. Following revegetation of desert grasslands in Arizona, researchers reported cane bluestem seed yields were generally low [5].
Under ideal growing conditions, cane bluestem may produce seed in its first year. In October 1989, cane bluestem seed collected from Big Bend National Park was planted in a research field in Knox City, Texas. By the following fall, cane bluestem had produced seed [3].
The few studies available suggest that postgermination moisture may be most important to cane bluestem establishment and survival. Cane bluestem seedlings develop rapidly, but environmental conditions and grazing can affect seedling growth. After revegetation studies in desert grasslands in Arizona, researchers reported "rapid" and "vigorous" cane bluestem seedling growth [5]. In a laboratory wind tunnel, early growth of cane bluestem seedlings was reduced by exposure to wind and wind with sand. Decreases due to exposure were greater at the 2-leaf stage than at the 6-leaf stage. Generally wind with sand decreased seedling production more than wind alone [30]. In a greenhouse study, cane bluestem seedling root growth was rapid until the 3-leaf stage, when root growth began to slow. By the 12-leaf stage, root growth was again rapid. Removing 30% to 60% of first-year plant biomass did not significantly affect root or herbage production, but 90% removal significantly (P<0.05) reduced both root and herbage production [8]. In a field experiment, the length of 29-day-old seedling roots was greatest in frequently watered pots, but the number of tiller roots was greatest in pots watered less frequently. Watering frequencies evaluated included: 1) 200 ml of water every 2 days, 2) 400 ml of water every 4 days, 3) 300 ml water every 3 days, or 4) 600 ml water every 6 days [2].
Field studies suggest that the moisture available following germination may be the most important influence on seedling establishment and survival. During field experiments in southeastern Arizona, cane bluestem generally germinated rapidly and produced few but large seedling cohorts. Seedling mortality was greatest in the first week after emergence. The probability of successful establishment increased when seeds were planted during the summer rainy season, typically July through September when 60% of annual precipitation occurs. For seeds sown on 28 June or 10 August, cane bluestem seedling survival on 15 October averaged 77.5%. About 10% of seedlings produced tillers, and fewer than 4% of seedlings produced seed [2].
Precipitation after seeding was more important than plot treatments in Lehmann lovegrass (Eragrostis lehmanniana)-dominated semidesert grasslands in southern Arizona. In 1992, cane bluestem establishment was better after sowing seed in June than in August, a year in which July precipitation was more consistent than August precipitation. In 1993, establishment was better after sowing seed in August than in June, a year in which precipitation was more consistent in August and September than in June and July. Differences between treatments were significant in the 1992 planting but not in the 1993 planting. In the 1992 planting, cane bluestem seedling establishment was significantly greater in mowed than herbicide-treated plots, in herbicide-treated than burned plots, and in burned than control plots (Table 2). Differences between treatments observed in the 1992 planting persisted to some extent into the 2nd year, when density of seedlings was significantly greater on burned, mowed, and herbicide-treated plots than on control plots (P<0.05 for all treatment and control comparisons). There were 14 cane bluestem seedlings/m² on mowed plots, 7.2 seedlings/m² on herbicide-treated plots, 3.6 seedlings/m² on burned plots, and 0.4 seedlings/m² on control plots [9].
Table 2. Average cane bluestem seedling densities (seedlings/m²) at the end of the 1st growing season [9] Sowing date Burned Mowed Herbicide-treatedSite characteristics: Throughout its range, cane bluestem is described from open slopes, mesas, high plains, and plateaus to bottomlands, washes, swales, and floodplains [5,33,63,90]. Although commonly found on sandy, gravelly sites [40,51,52,91], cane bluestem may be most common in those microsites that support pooling water after high precipitation events [16,49,75].
Climate: In its southwestern range, growth and distribution of cane bluestem are often described in relation to precipitation. When growing in areas that are occasionally flooded by heavy summer rains, cane bluestem may grow where annual precipitation is as low as 5 inches (130 mm) [49]. Increased moisture availability can increase cane bluestem production, but productivity increases are limited. At the Big Spring Field Station in Texas, cane bluestem growth was compared without irrigation and with moderate and heavy irrigation. Plants in moderately irrigated plots were at least twice as productive as those in unirrigated plots but were no more nor less productive than those in heavily irrigated plots [53]. In the field, timing of rainfall may be important to cane bluestem production. On a cattle-grazed, semidesert range at the base of the Santa Rita Mountains in Arizona, August rainfall was highly correlated with the subsequent summer's perennial grass production (r values for the productivity of perennial grasses, including cane bluestem, ranged from 0.63-0.79). Winter precipitation and previous summer's rainfall were not correlated with the next summer's perennial grass production [21].
Elevation: In North America, cane bluestem is most common at elevations between 1,600 and 3,900 feet (500-1,200 m) [61], but elevations beyond this range are reported (Table 1).
Table 1. Elevation ranges for cane bluestem by state or region State and/or region Elevation range (feet) Arizona 1,000-6,000 [45,52] Arizona (southern) 3,500-5,000 [5] California <4,000 [42,67] Hawaii 30-2,100 [89] Nevada (southern) 2,300-3,000 [51] New Mexico 3,500-7,000 [33,63] Utah 3,000-6,000 [91]Soils: Cane bluestem grows on a variety of soil types and textures, but growth may be best on calcareous, deep loams or sandy loams with "good plant-soil moisture relationships" [35,60]. Sandy, gravelly, and rocky soils are tolerated, but in coarse-textured soils, cane bluestem may be restricted to depressional, moisture-accumulating areas [16,60]. In southern California, cane bluestem is common on well-drained soils and is frequent along dry washes and gullies [75]. In desert grasslands in Santa Cruz County, Arizona, cane bluestem production was greatest in man-made furrows (about 10 inches (25 cm) deep) where water accumulated [16]. In north-central Texas, cane bluestem is common on stony or rocky limestone soils [27]. In the Grand Prairie and Cross Timbers regions of Texas, cane bluestem is reported on loamy bottomlands and tight sandy loams, respectively [81]. In southwestern rangelands, cane bluestem is "particularly abundant" on graded roads, banks of washes, and other sites with exposed soils [45].
On cattle-grazed, semidesert rangelands in southern Arizona, cane bluestem was most important on sites with shallow stony or cobbly soils and less important on sites with clay subsoils and well-developed horizons or on sites with sand or sandy loam subsoils and weak profile development. Grazing may have confounded the study findings. Cane bluestem's importance on shallow stony soils may have related more to its steep slope position and escape from heavy grazing than to soil texture or depth [21]. On the Appleton-Whittell Research Sanctuary in Santa Cruz County, Arizona, cane bluestem was most common on level to gentle, south-facing, upland slopes that lacked surface rocks [11].
Salinity: In their literature review, Shafroth and others [80] report that cane bluestem tolerates moderate (4-8 dS/m) salinity levels. In the greenhouse, cane bluestem germination was similar between seeds without salt exposure and seeds exposed to low (1.3 dS/m) salinity. Cane bluestem seedling biomass was not different between low and high (15 dS/m) salinity levels [7].
Plant communities: Cane bluestem is generally most common in semidesert and desert grasslands [43,61,64,65], although it also occurs in semidesert shrublands, savannas, and woodlands [49]. It rarely dominates any vegetation type and typically decreases with increasing shading and grazing pressure. In southwestern rangelands, cane bluestem often occurs as scattered plants or small groups of plants; it rarely occurs in dense, pure stands [49,75]. On the Appleton-Whittell Research Sanctuary, cane bluestem was not widespread or abundant in grassland or oak (Quercus spp.) savanna vegetation but, because of its height, was often conspicuous [11].
Grasslands: In parts of southern Arizona, southern New Mexico, and western Texas, cane bluestem can be locally important. On Turkey Creek Ridge in Cochise County, Arizona, the sideoats grama (Bouteloua curtipendula)-cane bluestem community occurs in areas where water concentrates [48]. A black grama (B. eriopoda)-cane bluestem association is recognized on White Sands Missile Range in southern New Mexico [65]. In western Texas, the cane bluestem-multiflower false Rhodes grass (Trichloris pluriflora) vegetation type is found in restricted areas but was nearly eliminated by overgrazing and brush clearing [78,85]. In the Sierra Tierra Vieja Mountains of Trans-Pecos, Texas, cane bluestem cover was "considerable" on the eastern slopes of low foothills [43].
In southeastern Arizona, cane bluestem occurs in desert or semidesert grasslands dominated by grama (Bouteloua spp.) grasses [68,93]. In the Santa Catalina Mountains, desert grasslands occupy quartzite, bajada, and limestone soils [93]. In the central Peloncillo Mountains of New Mexico, cane bluestem occurs in grama steppe [64], and in Texas, cane bluestem is a common midsized grass in mixed-grass prairies (Allred 1956 as cited in [38]).
Shrublands: Cane bluestem is a minor to common component of coastal sage scrub in California [67], Arizona chaparral in Arizona and New Mexico [24,57,76], and other desert shrublands in the Southwest [91]. The Arizona chaparral type is typically dominated by shrub live oak (Q. turbinella) and pointleaf manzanita (Arctostaphylos pungens) [76]. In southeastern Arizona and southwestern New Mexico, cane bluestem occurs in desert scrub vegetation on limestone soils with Rio Grande saddlebush (Mortonia scabrella), whitethorn acacia (Acacia constricta), and sacahuista (Nolina spp.); it occurs in spinose desert scrub vegetation with ocotillo (Fouquieria splendens), Palmer's century plant (Agave palmeri), and cactus apple (Opuntia engelmannii) [64,93]. In the same region, cane bluestem occurs in the black grama-tobosa-creosotebush (Pleuraphis mutica-Larrea tridentata) vegetation type recognized by Kuchler [54].
Savannas and woodlands: In Arizona, New Mexico, and Texas, cane bluestem can be found with oak, juniper, and mesquite (Juniperus and Prosopis spp.). In central Arizona and western Texas, cane bluestem has been described in Pinchot juniper (J. pinchotii) savannas or woodlands [4,34]. In Arizona, cane bluestem occurs in oak or oak-pine woodlands and savannas where Arizona white oak (Q. arizonica), Emory oak (Q. emoryi), and/or Mexican blue oak (Q. oblongifolia) dominates the canopy layer on acidic and basic soils [17,29,92,93,93]. In New Mexico and Texas, cane bluestem is often associated with mesquite savannas [55,56,62]. In Texas, mesquite cover types are reported on deep sands, gravelly loams, and clays [26,28].
Outside of cane bluestem's most common range, savannas and woodland associates can be more variable. In California, cane bluestem occurs in Joshua tree (Yucca brevifolia) woodlands [67]. In southern Utah, cane bluestem is found in pinyon (Pinus spp.)-juniper and ponderosa pine (P. ponderosa) communities [91]. In the arid zone on Molokai Island, Hawaii, cane bluestem is "plentiful" in deep, fertile soils with mesquite and tanglehead (Heteropogon contortus) [22].A simple discussion of cane bluestem's successional status is not possible. Cane bluestem tolerates early-seral conditions but is also described as a persistent or "climax" species in desert grasslands. Cane bluestem has been reported on disturbed and newly exposed soils; but as an established plant, cane bluestem is not highly tolerant of shading, grazing, or mechanical disturbances.
Cane bluestem has been described as both an early- and late-seral species. Because of high growth rates, precocious reproduction, high productivity, and tolerance of early-seral conditions by beardgrass species (Bothriochloa spp.) in South America, researchers categorized them as "r" strategists, which would likely thrive in early-seral conditions [79]. In the Grand Prairie and the western Cross Timbers regions of Texas, cane bluestem is reported in late-seral communities [81], and in the Rolling Hills and Brewster Hills of Trans-Pecos Texas, cane bluestem is considered a "climax" grass [20].
Several studies indicate that cane bluestem tolerates early-seral conditions. Humphrey [45] reported that cane bluestem was "particularly abundant" on graded roads, banks of washes, and other sites with exposed soils. Cane bluestem was first reported on a pipeline 4 years after construction was completed in succulent desert vegetation in Guadalupe Mountains National Park. Immediately following construction, the pipeline was entirely devoid of vegetation [34]. On 5- to 3,100-year-old debris flows along the Colorado River in the Grand Canyon, cane bluestem occurred on two 28-year-old flows [14].
Shade tolerance: Studies suggest that cane bluestem is less productive in the shade than in the open. On a ranch near Mertzon, Texas, cane bluestem production was "improved" by the 4th growing season after herbicide treatments controlled 92% of Pinchot juniper [73]. In a grassland on shallow soil in Lynn County, Texas, cane bluestem was not reported beneath the canopy of live Pinchot juniper trees, but 1 year after the trees were treated with herbicide, cane bluestem production beneath dead trees was 42 lbs/acre [39]. Cane bluestem density and cover were greatest on open sites when these were compared with sites beneath canopies of velvet mesquite (Prosopis velutina) and buck-horn cholla (Cylindropuntia acanthocarpa) in a semidesert grassland north of Tucson, Arizona (Table 3). Differences between open and buck-horn cholla sites were not significant. Researchers suggested that the open-canopy structure of buck-horn cholla may have produced conditions similar to that of open sites. Study findings are summarized in Table 3 [61].
Table 3. Comparison of cane bluestem density and cover between open and canopy sites in a Chihuahuan semidesert grassland [61] Canopy conditions Open Buck-horn cholla Velvet mesquite Density (plants/0.25 m²) 8.8 a 2.0 ab 1.4 b Cover (%) 5.7 a 4.3 ab 1.9 b Values within a row with different letters are significantly different (P<0.05).Disturbance tolerance: Studies indicate that mechanical disturbances and grazing can reduce cane bluestem abundance. Results from fire studies are not as consistent; in some cases, fire has increased cane bluestem abundance [47] and recruitment [83] (for details, see Fire Effects and Management).
In the South Texas Plains, the cane bluestem-multiflower false Rhodes grass vegetation type was nearly eliminated by overgrazing and brush clearing [85].
Grazing: Several studies report decreased cane bluestem abundance with livestock grazing. Because cane bluestem decreases "rapidly" with over utilization, some consider its high abundance a useful indicator of good to excellent range condition [33]. Although cane bluestem abundance is typically less on grazed than protected sites, duration of protection, grazing intensity, and grazing frequency can affect abundance. On most sites cane bluestem cover is generally low (see Plant communities), so even small changes in cover can reflect large differences in the abundance on and appearance of a site.
In several studies that compared grazed and protected sites in southern Arizona, cane bluestem abundance on protected sites was more than double that on grazed sites [10,15,77]. In one southern Arizona study, frequency of cane bluestem was much greater on protected (30%) than unprotected (3.7%) desert grassland sites. Researchers classified cane bluestem as a "climax" species that decreased with grazing [77].
Several studies suggest that continuous and heavy grazing may be most detrimental to cane bluestem. At the Big Spring Field Station in Texas, production of cane bluestem clipped 3 times/season was less than that of unclipped plants [53]. At the Sonora Research Station on Edwards Plateau, Texas, cane bluestem abundance increased inside an exclosure that excluded large mammals for up to 25 years. The site was grazed heavily and continuously until 1948, when the exclosure was constructed. In 1948 and 1953, the basal diameter of cane bluestem was 1 cm/m² inside the exclosure; basal diameter increased to 4 to 5 cm/m² between 1958 and 1968. However, researchers observed that cane bluestem increased even more in an adjacent area that was grazed in a deferred rotation pattern. Abundance differences between the ungrazed and deferred pasture were not reported [82]. After 45 years of studies in heavily grazed, moderately grazed, and ungrazed juniper-oak savanna at the Texas A&M University Agricultural Research Station, researchers reported that cane bluestem was rare or absent from heavily grazed sites and increased with decreased herbivory [32].
Although grazing tends to reduce cane bluestem abundance, that is not the case in all southwestern livestock grazing studies. In a plains-mesa grassland in the Animas Valley of New Mexico, cane bluestem cover averaged 2.9% outside of exclosures and 1.7% inside exclosures that excluded livestock but not native herbivores. Exclosures had protected sites from livestock for 4 years [88]. In the southern San Simon Valley in Arizona, researchers found that recovery of perennial grasses can take a long time on continuously grazed sites, where shrubs have increased with grazing pressure. Researchers compared vegetation inside and outside of 20- and 39-year exclosures. Cane bluestem was present in both exclosures, but "substantial" increases were only apparent within the 39-year old exclosure, where the basal cover of cane bluestem averaged 0.9% inside and 0% outside (P=0.043) [87].
Bothriochloa barbinodis is a species of grass known by the common name cane bluestem. It is native to the Americas, including most of South and Central America, Mexico, and the southernmost continental United States from California to Florida.
This is a perennial bunchgrass growing in upright clumps 60 to 120 centimeters (24-48 inches) tall. The straw-colored stems have nodes at intervals which are fringed with fluffy hairs. The leaves are 20 to 30 centimeters (8-12 inches) long and blue-green when new, drying to a reddish yellow. The inflorescence is a feathery array of spikelet units. Each unit is composed of one hairy, tan, fertile spikelet with a twisted awn up to 3.5 centimeters long twinned with a stalked, sterile spikelet which is much smaller and lacks an awn. The long-haired spikelets are wind-dispersed.
In its native range, this grass is useful as a forage for grazing animals and a groundcover for revegetating cleared land.[1] It is very drought resistant. It is considered an indicator of rangeland damage, as it is often one of the first native species to be eliminated when an area is overgrazed.[1]
It is known elsewhere as an introduced species and sometimes a weed, such as in Hawaii.
It is grown as an ornamental plant for its showy inflorescences.
Bothriochloa barbinodis is a species of grass known by the common name cane bluestem. It is native to the Americas, including most of South and Central America, Mexico, and the southernmost continental United States from California to Florida.
This is a perennial bunchgrass growing in upright clumps 60 to 120 centimeters (24-48 inches) tall. The straw-colored stems have nodes at intervals which are fringed with fluffy hairs. The leaves are 20 to 30 centimeters (8-12 inches) long and blue-green when new, drying to a reddish yellow. The inflorescence is a feathery array of spikelet units. Each unit is composed of one hairy, tan, fertile spikelet with a twisted awn up to 3.5 centimeters long twinned with a stalked, sterile spikelet which is much smaller and lacks an awn. The long-haired spikelets are wind-dispersed.
In its native range, this grass is useful as a forage for grazing animals and a groundcover for revegetating cleared land. It is very drought resistant. It is considered an indicator of rangeland damage, as it is often one of the first native species to be eliminated when an area is overgrazed.
It is known elsewhere as an introduced species and sometimes a weed, such as in Hawaii.
It is grown as an ornamental plant for its showy inflorescences.
Bothriochloa barbinodis, le Barbon andropogon, est une espèce végétale herbacée méditerranéenne de la famille des Poaceae.
Selon Tropicos (2 janvier 2020)[1] (Attention liste brute contenant possiblement des synonymes) :
Bothriochloa barbinodis, le Barbon andropogon, est une espèce végétale herbacée méditerranéenne de la famille des Poaceae.
Bothriochloa barbinodis là một loài thực vật có hoa trong họ Hòa thảo. Loài này được (Lag.) Herter mô tả khoa học đầu tiên năm 1940.[1]
Bothriochloa barbinodis là một loài thực vật có hoa trong họ Hòa thảo. Loài này được (Lag.) Herter mô tả khoa học đầu tiên năm 1940.
