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Seeding of historically sagebrush-dominated communities with crested wheatgrass may replace the shrub habitat necessary for many passerine birds [116]. In southeastern Idaho, Reynolds [100] found fewer nesting species and fewer individual birds on crested wheatgrass plantations than in the native sagebrush habitat. However, grassland bird species may respond favorably to seeded stands of crested wheatgrass that replace brush habitats, except when the area is heavily grazed. In Nevada, ground-nesting bird species comprised 91% of nesting birds in an established crested wheatgrass stand, whereas an unconverted sagebrush habitat with 21% shrub cover supported only 30% ground nesters [87].
In southeastern Idaho, deer mice, montane voles, Ord's kangaroo rats, and Townsend's ground squirrels all frequently use the crested wheatgrass habitat type for food and cover [72]. However, another study in southeastern Idaho reported fewer deer mice, least chipmunks, and northern grasshopper mice in crested wheatgrass stands than in the original sagebrush community. Numbers of western harvest mice were higher in ungrazed crested wheatgrass than in the native sagebrush community but were not increased in the domestic sheep-grazed crested wheatgrass treatment. The authors concluded that conversion to crested wheatgrass and grazing decreased small mammal density and had synergistic negative effects on the mice [101].
Crested wheatgrass is a cool-season, medium-height, exotic perennial bunchgrass. The plant is drought- and cold-resistant and long-lived, enabling it to establish in recognizable monocultures [105]. Crested wheatgrass culms are 10 to 40 inches (25-100 cm) tall [30] and widely spaced. The deep, finely branched fibrous roots of crested wheatgrass penetrate to a maximum depth of 8 feet (2.4 m), with most roots extending to a depth of 3.3 feet (1 m) [80]. Crested wheatgrass is common in the Northern Great Plains and in Canada [105], while desert wheatgrass is more common throughout the western United States. Desert wheatgrass is tall and coarse, while crested wheatgrass is smaller, leafier, and has broader seedheads. Crested wheatgrass is a diploid species, which differentiates it genetically from desert wheatgrass, a tetraploid [34].
Crested wheatgrass remains productive for more than 30 years. Stand mortality is virtually unknown, except in cases of extreme drought during critical phenological stages [51].
Crested wheatgrass is an introduced species, originally from Russian and Siberian steppe habitats. It has been planted from Alaska south to California, throughout western Canada, east in the United States to Ohio, and south to Texas. It was first successfully established in the United States between 1907 and 1913 [35]. Crested wheatgrass and desert wheatgrass were considered distinct species upon their first introduction to the United States in 1906, but since, the two species have often been referred to and treated as one [34]. Crested and desert wheatgrass became prevalent in the United States in the 1930s when they were used to seed abandoned cropland. Crested wheatgrass is most common in the northern Great Plains, especially North and South Dakota, eastern Montana and Wyoming, and in southern Saskatchewan and southeastern Alberta. The grass is used throughout the arid and semi-arid regions of the West [105]. Crested and desert wheatgrass seedings have been established on 10 million acres (3.2 million ha) [5] and, by some accounts, as much as 26 million acres (10.4 ha) in North America [78].
Crested wheatgrass burns quickly and is therefore less susceptible to fire damage than some bunchgrass species [32]. In especially thick bunchgrasses, the fire may stay longer in the culms, resulting in heat transfer to the ground and the death of the plant. In crested wheatgrass, there is usually little heat transfer into the soil, so the tillers and root system are usually undamaged [107].
Haws and Bohart [53] studied infestation of monoculture crested wheatgrass stands with black grass bugs in Utah. They conclude that the bugs decrease regeneration by eating the grass seed, but that since the grass bug eggs are inserted in the stem of the grass, they can easily be destroyed by burning. Burning in the fall destroyed most eggs and depressed the bug population for several years.
Crested wheatgrass is tolerant of very cold and very dry conditions, typical of both its native habitat in Russia and some areas of the northern Great Plains [12,24, 66,103]. It grows best on medium-textured soils, from sandy loams to clay loams. Crested wheatgrass does not grow well in loose sandy soils, heavy clays, or saline soils [84,91]. Crusted soils impede crested wheatgrass seedling emergence [67].
Crested wheatgrass thrives at around 12 to 16 inches (305-406 mm) of precipitation and competes poorly with other grasses on moister sites [24,63,105]. In Utah, crested wheatgrass appears on sites with precipitation of at least 12 inches (300 mm) [115].
Crested wheatgrass appears in the following elevations: State Elevation, in feet (m) WY above 6,000 (1800) [13] UT 2,730 to 9,040 (910-2740) [115] CA 1,900 to 5,000 (600-1500) [54] CO 5,000 (1,500) [52] Crested wheatgrass is more competitive on mesic sites than desert wheatgrass, and desert wheatgrass competes better on more xeric sites than crested wheatgrass [38].
42 Bur oak
68 Mesquite
209 Bristlecone pine
210 Interior Douglas-fir
218 Lodgepole pine
219 Limber pine
220 Rocky Mountain juniper
233 Oregon white oak
236 Bur oak
237 Interior ponderosa pine
238 Western juniper
239 Pinyon-juniper
241 Western live oak
242 Mesquite
243 Sierra Nevada mixed conifer
FRES21 Ponderosa pine
FRES29 Sagebrush
FRES31 Shinnery
FRES32 Texas savanna
FRES33 Southwestern shrub steppe
FRES34 Chaparral-mountain shrub
FRES35 Pinyon-juniper
FRES36 Mountain grasslands
FRES38 Plains grasslands
FRES39 Prairie
FRES40 Desert grasslands
FRES42 Annual grasslands
101 Bluebunch wheatgrass
102 Idaho fescue
103 Green fescue
104 Antelope bitterbrush-bluebunch wheatgrass
105 Antelope bitterbrush-Idaho fescue
106 Bluegrass scabland
107 Western juniper/big sagebrush/bluebunch wheatgrass
108 Alpine Idaho fescue
109 Ponderosa pine shrubland
110 Ponderosa pine-grassland
201 Blue oak woodland
206 Chamise chaparral
207 Scrub oak mixed chaparral
209 Montane shrubland
210 Bitterbrush
212 Blackbush
215 Valley grassland
301 Bluebunch wheatgrass-blue grama
302 Bluebunch wheatgrass-Sandberg bluegrass
303 Bluebunch wheatgrass-western wheatgrass
304 Idaho fescue-bluebunch wheatgrass
305 Idaho fescue-Richardson needlegrass
306 Idaho fescue-slender wheatgrass
309 Idaho fescue-western wheatgrass
310 Needle-and-thread-blue grama
311 Rough fescue-bluebunch wheatgrass
312 Rough fescue-Idaho fescue
314 Big sagebrush-bluebunch wheatgrass
315 Big sagebrush-Idaho fescue
316 Big sagebrush-rough fescue
317 Bitterbrush-bluebunch wheatgrass
318 Bitterbrush-Idaho fescue
319 Bitterbrush-rough fescue
320 Black sagebrush-bluebunch wheatgrass
321 Black sagebrush-Idaho fescue
322 Curlleaf mountain-mahogany-bluebunch wheatgrass
324 Threetip sagebrush-Idaho fescue
401 Basin big sagebrush
402 Mountain big sagebrush
403 Wyoming big sagebrush
404 Threetip sagebrush
405 Black sagebrush
406 Low sagebrush
407 Stiff sagebrush
408 Other sagebrush types
412 Juniper-pinyon woodland
413 Gambel oak
503 Arizona chaparral
504 Juniper-pinyon pine woodland
509 Transition between oak-juniper woodland and mahogany-oak association
601 Bluestem prairie
602 Bluestem-prairie sandreed
603 Prairie sandreed-needlegrass
604 Bluestem-grama prairie
605 Sandsage prairie
606 Wheatgrass-bluestem-needlegrass
607 Wheatgrass-needlegrass
608 Wheatgrass-grama-needlegrass
609 Wheatgrass-grama
610 Wheatgrass
611 Blue grama-buffalograss
612 Sagebrush-grass
613 Fescue grassland
614 Crested wheatgrass
703 Black grama-sideoats grama
704 Blue grama-western wheatgrass
705 Blue grama-galleta
707 Blue grama-sideoats grama-black grama
708 Bluestem-dropseed
709 Bluestem-grama
710 Bluestem prairie
711 Bluestem-sacahuista prairie
713 Grama-muhly-threeawn
714 Grama-bluestem
715 Grama-buffalograss
716 Grama-feathergrass
717 Little bluestem-Indiangrass-Texas wintergrass
718 Mesquite-grama
719 Mesquite-liveoak-seacoast bluestem
721 Sand bluestem-little bluestem (plains)
722 Sand sagebrush-mixed prairie
728 Mesquite-granjeno-acacia
733 Juniper-oak
734 Mesquite-oak
735 Sideoats grama-sumac-juniper
Fire usually burns crested wheatgrass aboveground but underground parts survive [79].
Crested wheatgrass and its close relative, desert wheatgrass, have been planted in millions of acres in the arid and semi-arid West to benefit livestock and wildlife. Native shrub habitats have been replanted with crested wheatgrass to increase range production. Crested wheatgrass has high yields and supplies green forage in both spring and fall [67,85], and can be important to livestock and wildlife when other preferred food sources are unavailable [112].
Crested wheatgrass has been planted throughout North America in a variety of ecosystems; the appearance of the species within a specific cover type does not necessarily indicate that crested wheatgrass is particularly well adapted to those climatic conditions.
In the Great Basin in Nevada, crested wheatgrass thrives in mesic communities with big sagebrush (Artemisia tridentata), basin wildrye (Elymus cinereus), Sandburg bluegrass (Poa secunda), Columbia needlegrass (Achnatherum nelsonii ssp. dorei), and slender wheatgrass (E. trachycaulus) [38].
Vegetation typings describing communities dominated by crested wheatgrass follow.
Phyto-edaphic communities of the Upper Rio Puerco Watershed, New Mexico [43]
Plant associations of the Crooked River National Grassland [61]
The seeds of crested wheatgrass are relatively large and easy to process and plant, and its seedlings can withstand drought and cold conditions [6,67,105]. Crested wheatgrass is resilient under grazing pressure [67,89,76,102], easy to establish [63], and may compete successfully against exotic weeds.
Cheatgrass competition appears to reduce root growth in crested wheatgrass and thereby to lower long-term survival and competitiveness, most likely due to competition for water [1,42,55,62,71,103,104]. In a laboratory study, Hycrest wheatgrass grown with cheatgrass at planting ratios of 1:1 and 1:4 suffered reductions in leaf area of 46 and 76%, respectively. Researchers concluded, however, that crested wheatgrass competed more successfully with cheatgrass than did bluebunch wheatgrass (Pseudoroegneria spicata) [1]. Francis and Pyke [42] suggest that by seeding crested wheatgrass at lower than recommended densities in cheatgrass areas, crested wheatgrass is favored because greater spacing reduces within-species competition.
Light to moderate grazing (up to 70% utilization) invigorates a crested wheatgrass stand and extends its life [19,110]. Heavy grazing of crested wheatgrass stands may speed up the re-invasion of sagebrush or of weeds such as Russian thistle (Salsola kali). Above 88% use, production decreases, plants die, and stand quality suffers [19].
When crested wheatgrass is planted as part of a seed mix, it may outcompete and crowd out the other species in the mix, including native species [24,83]. Seeding a disturbed site with crested wheatgrass may prohibit the establishment of other species. Crested wheatgrass contributes heavily to the seedbank, and crested wheatgrass seeds may take advantage of openings in the canopy [83].
Crested wheatgrass seed shatters easily. Timing of seed harvest is crucial. Seed harvested too early, before the seed has matured, is far less likely to germinate. Seedling emergence declined in the field from 46% for mature seeds, to 33, 10, and 3% for dough, milk, and premilk stages, respectively. In cold storage (0 to 19? Fahrenheit (-18 to -7?C)), seed viability remained at 80 to 90% after 20 years [67].
Casterline [25] suggests the following conditions to germinate crested wheatgrass seeds: pre-chill days to break dormancy: 47oF for 7 days
days needed to break dormancy: at least 5
temperature needed for germination: 41-86oF
days allowed for germination test: 14
total days to break dormancy and test germination: 21
Drilling is more successful than broadcasting seed [67]. Clark and McLean [26] found spring sowing resulted in better germination of crested wheatgrass than autumn sowing in interior British Columbia.
Concentration of cattle on seeded crested wheatgrass lower elevation sites may conserve native upland sites for use by wildlife [112].
Crested wheatgrass is a major host of the black grass bug (Labops hesperius), which can severely damage grass stands. Other insect pests of crested wheatgrass are leafhoppers, grubs, and mature click beetles and billbugs [53].
Green crested wheatgrass can be a valuable addition to the browse-dominated diets of wild ungulates in winter [9,112]. In Central Oregon, crested wheatgrass consistently contained more than 20% crude protein during the winter and early spring, leading Urness [113] to conclude that it provided better forage value than native grass species for white-tailed deer.
At certain times during the year, crested wheatgrass lacks highly digestible protein [27]. In Alberta, crested wheatgrass was deficient in crude protein for pregnant ewes [83].
By mid-June, the nutritional value of crested wheatgrass can be too low for lactating cattle. By the end of the summer, crested wheatgrass has low total protein values and lacks adequate phosphorus for cattle [8].
Deer mice occupy moderately grazed crested wheatgrass range in Utah. Food in their caches on these sites was predominantly mature desert and crested wheatgrass seedheads. When livestock grazing exceeded 50% use, the deer mice population dropped by at least 20% [44].
Nutritional content (%) of crested wheatgrass in Alberta, Canada, was [85]: Stage of Sample Crude Crude Ether N-free Total Ca P
maturity date protein fiber extract extract ash
preflower 5/10 22.7 19.9 2.7 45.8 8.85 0.42 0.27
heading 6/8 13.9 29.2 1.6 48.0 7.45 0.29 0.24
flowering 6/29 11.7 33.1 1.8 46.3 7.12 0.32 0.19
seed ripe 7/30 8.5 32.5 1.9 51.1 5.92 0.33 0.14
seed shed 10/21 4.5 34.7 1.9 52.1 6.85 0.30 0.05
AK AZ AR CA CO IA ID IL IN KS MO MT
NE NV NM NY ND OH OR SD TX UT WA WY
AB BC SK
Crested wheatgrass is highly palatable and a nutritious spring forage. It can be especially useful to ranchers in the Intermountain West, where spring forage shortages are common [13,60,67]. Crested wheatgrass can be grazed 2 or 3 weeks earlier than native grasses in Utah, Montana, and the Great Basin, and 3 to 4 weeks earlier in Colorado [57, 63,66,83]. Crested wheatgrass tends to become fibrous at maturity, and therefore palatability and nutritional quality of the plant decline after June or so [46,76,86]. Crested wheatgrass provides little summer grazing [10]. In some habitat types with sufficient soil moisture, crested wheatgrass continues to grow in fall after summer dormancy [85].
Reports conflict on the importance of crested wheatgrass to wild ungulates. In Oregon and Nevada, mule deer appear to prefer native grasses and cheatgrass (Bromus tectorum) to crested wheatgrass. Grass contributes less to the diets of pronghorn than to deer, and crested wheatgrass is minimally used by pronghorn in the Great Basin and Intermountain West [112].
Wildlife use of crested wheatgrass is detailed in the following table [8,9,13,16,19,39,56,64,65,68,69,71,73,73,79,83,86,104,116]:
Alberta Montana Idaho Oregon Utah
Cattle ---- high high high high
Domestic sheep high ---- ---- ---- high
Elk high spring use spring use ---- spring use
Mule Deer low-none low medium medium low-none
Bighorn sheep high medium ---- ---- ----
Pronghorn ---- low-none low low-none low-none
Moose medium ---- ---- ---- ----
Small mammals ----- ---- low-none ---- ----
Little information is available about the role of crested wheatgrass in the diets of elk, bighorn sheep, and mountain sheep in the Great Basin, but Urness [112] concludes from anecdotal information that given an abundant supply, these three species would eat crested wheatgrass. A 1983 study in south-central Utah found bison diets to be dominated by Agropyron spp., presumably mostly crested wheatgrass.
Crested wheatgrass is highly palatable to and good cover for black-tailed jackrabbits [47,57]. Reynolds [100] says black-tailed jackrabbits appear to be the only hare species to maintain population levels in southeastern Idaho in crested wheatgrass stands that have replaced native sagebrush habitat.
Mule deer seasonal use of crested wheatgrass in the Great Basin was as follows.
Data are means and 1 standard error [9].
time Percentage of diet
late fall (Nov.) 51.1 (30.3)
early winter (Dec.) 1.9 (2.0)
mid-winter (Jan.-Feb.) 2.5 (0.8)
late winter (1-20 March) 37.9 (16.9)
early spring (21 March-10 April) 89.7 (5.3)
mid-spring (11-30 April) 57.2 (17.6)
Grasshoppers (especially Auloara elliotti) prefer crested wheatgrass stands to native vegetation in Idaho. Grasshopper can compete with cattle for available forage during periodic infestations [41].
Crested wheatgrass greens up 2 to 4 weeks earlier than native bunchgrass species. It goes dormant in the summer, but if soil moisture is available, it will grow again in the fall. In Alberta, at the northern end of the plant's range, seasonal development was as follows [85]: stage of maturity sample date preflower 5/10 heading 6/8 flowering 6/29 seed ripe 7/30 seed shed 10/21
Researchers characterize crested wheatgrass as "slightly damaged" [97] or "undamaged" by prescribed fire [93,119], since coarse stems and sparse leafy parts inhibit heat transfer down into the culms or soil. Young [119] says postfire recovery is rapid.
Crested wheatgrass in eastern Idaho and western Wyoming occurs in low flammability growth habitats, and its deep underground tillers help it to survive fire. Crested wheatgrass growth may be favored by late summer fire, but spring fire can decrease yields for several years [21].
Crested wheatgrass can be used as a "greenstrip" or fuelbreak in semi-arid rangelands to help control wildfire [49]. It is moderately flammable, produces moderate litter, has an extensive range, competes well, and is a good sprouter. A mature stand of crested wheatgrass can help control annual grassland fires like those found in sites now invaded by cheatgrass throughout the arid West, particularly in sagebrush-steppe habitats [90,94].
A study at Experimental Farm, Swift Current, Saskatchewan, investigated the effects of spring and fall burns on crested wheatgrass pastures. The spring burn occurred while the grass was growing vigorously, and forage yield and domestic sheep consumption on the pasture were reduced for the following 2 years. The grass was dormant during the fall burn, which took place during November. Although forage yield was reduced in the following year, sheep consumption was not. Lodge [79] concluded the fall burning of crested wheatgrass reinvigorated the stand.
Crested wheatgrass reproduces by seed or vegetatively and is self-sterile [35]. Crested wheatgrass seedlings are very hardy, vigorous, and easily established [67]. The seeds of crested wheatgrass germinate well throughout a range of temperatures [7], allowing the plant to spread rapidly [62]. Crested wheatgrass produces tillers, and its ability to spread vegetatively contributes to its presence at higher elevations, where the growing season may not be long enough each year to produce seed [51]. However, in drier habitats, the ability of rhizomatous native grasses to propagate without setting seed allows them to compete well with crested wheatgrass [85]. Crested wheatgrass is able to emerge from a relatively deep soil depth, which allows it to escape the more extreme environmental soil conditions closer to the surface. Crested wheatgrass shoots have long, numerous, and quick-growing roots, which may explain strong seedling establishment [67].
3 Southern Pacific Border
4 Sierra Mountains
5 Columbia Plateau
6 Upper Basin and Range
7 Lower Basin and Range
8 Northern Rocky Mountains
9 Middle Rocky Mountains
10 Wyoming Basin
11 Southern Rocky Mountains
12 Colorado Plateau
13 Rocky Mountain Piedmont
14 Great Plains
15 Black Hills Uplift
16 Upper Missouri Basin and Broken Lands
Due to the broad range of habitat types in which crested wheatgrass has been planted, reports conflict on the plant's persistence. Crested wheatgrass is persistent and allows little establishment of native species in some habitat types, especially in arid and heavily grazed areas [2]. A crested wheatgrass community in southeastern Alberta was determined to be over 40 years old, and in central North Dakota, northern Arizona, and southern Idaho, stands over 30 years old have been identified [68].
However, shrub re-invasion of crested wheatgrass occurs in the Intermountain West, especially in wet years. Unkilled mature sagebrush in the seeded area is a source of reinvasion [87]. In the arid shadscale (Atriplex spp.) zone of Utah and Nevada, stands of crested wheatgrass appear to be shorter lived, with an estimated 10-year life span [18]. Anderson and Marlette [4] point out that the age of these stands may reflect the available data, and not the potential for stand longevity. They suggest that crested wheatgrass may inhibit or preclude the re-establishment of native species on disturbed sites and may become the dominant species.
In laboratory trials, volatile substances and aqueous extracts from the leaves of big sagebrush exhibited allelopathic, inhibitory effects on germination and shoot and radicle growth of crested wheatgrass seedlings [50]. However, simultaneous establishment of both sagebrush and crested wheatgrass favors the grass [17].
Crested wheatgrass has limited ability to invade undisturbed shortgrass communities in northeastern Colorado and was an unimportant component in the recovery, after 53 years, of old fields [28].
The scientific name of crested wheatgrass is Agropyron cristatum (L.) Gaertn. (Poaceae) [30,56]. Wheatgrasses (Triticeae), including crested wheatgrass, frequently hybridize and often produce fertile crosses [11,33,115]. Crested wheatgrass readily crosses with desert wheatgrass (A. desertorum) to produce fertile hybrids, the most common of which is called 'Hycrest.' Some systematists do not consider crested and desert wheatgrass to be distinct species [54].
Crested wheatgrass has been used extensively to seed unused cropland and to revegetate burns and degraded areas, including mine spoils [3,6,31,99,105,109].
If crested wheatgrass is used to reclaim disturbed sites, a grass monoculture may prohibit the return of predisturbance animal and plant diversity [92,117]. Dusek [37] reviewed a mining reclamation site in southeastern Montana that was seeded with crested wheatgrass. Crested wheatgrass established easily, but the resulting community lacked diversity and sufficient forage quality to support mule deer. As a result, Dusek concluded that managers should not use ease of establishment as the primary characteristic for choosing revegetation species [37].
Crested wheatgrass has lower belowground productivity than native bunchgrass species. Over time, this difference can result in higher soil bulk densities, less organic material in the soil, and poorer nutrient relations in crested wheatgrass than in native grass habitats [36,78].
Crested wheatgrass is used for erosion control [2,22,23]. However, wide row spacing, recommended to increase plant productivity, may persist for years following establishment of the stand. These gaps leave the areas between rows susceptible to erosion, especially if the competitiveness of crested wheatgrass prohibits the establishment of other plants [36,75,78].
Land managers have had some success preventing the spread of exotic weeds like halogeton (Halogeton glomeratus) by seeding unused land with crested wheatgrass [2]. However, heavy grazing appears to neutralize this benefit [45]. Crested wheatgrass' ability to prevent the spread of weeds may also depend on climatic conditions. In northwestern Utah, Cook [29] studied grass seedling competition with halogeton. He concluded that crested wheatgrass is better adapted to low rainfall habitats and competes better with halogeton than do native tall (Elytrigia elongata) and intermediate (E. intermedia) wheatgrasses. Near Cache Creek, British Columbia, established crested wheatgrass stands inhibited the spread of diffuse knapweed (Centaurea diffusa) on arid study plots that received 8 inches (20 cm) annual precipitation. In areas of the study plots with higher soil moisture and in more mesic climatic areas, crested wheatgrass did not exclude diffuse knapweed as successfully, leading the authors to conclude that soil moisture competition during key growth stages caused knapweed failure [15].
Popovich and Pyke [96] concluded that seeding a wildfire-burned area in south-central Idaho to crested wheatgrass did not significantly reduce reproduction potential of Picabo milkvetch (Astragalus oniciformis), a sensitive plant endemic to the north-central Snake River Plain.
Agropyron cristatum ye una especie de yerba perteneciente a la familia Poaceae. Esta planta utilízase de cutiu como forraxe y pal control de la erosión. Ye bien conocíu como una especie introducida nes praderíes de los Estaos Xuníos y Canadá.
Agropyron cristatum ye una de les varies especies de yerbes estrechamente rellacionaes que son conocíes como agropiro crestáu. Ye incapaz d'hibridar colos sos familiares similares, yá que ye una especie diploide, ente que'l so pariente más cercanu, Agropyron desortum, ye una especie tetraploidal.[1] Foi introducida dende Rusia y Siberia a América del Norte na primer metá del sieglu XX, y llargamente utilizada pa resembrar les tierres de cultivu marxinales abandonaes sometíes a diversos graos d'erosión del suelu y la reproducción secundaria.[2] A. cristatum ye bien llonxeva, con ratios de ser granible mientres 30 años o más.[3]
A. cristatum ye una yerba densamente moñuda, con tarmos qu'algamen un tamañu de 30 hasta 50 cm d'altor nel maduror. Los sos vaines son escabrosos o los más baxos pubescentes. Les sos fueyes son d'hasta 8 mm d'anchu, y escabrosas a pubescentes enriba. Los sos picos son planos y de 2-7 cm de llargu., Con espiguillas que van dende 8 hasta 15 mm de llargu, siendo 3-5-floriáu, densamente pobláu, y col espardimientu ascendente. Los sos glumas son 4-6 mm de llargu, y los sos lemas son de 6-8 mm de llargu y, o bien ensin arestes o aresta de punta.[4]
A. cristatum afaise meyor a les condiciones seques de los pacionales y alcuéntrase con mayor frecuencia en tales circunstancies. Prefier 23-38 cm de precipitación per añu,[5] pero pueden tolerar más mugor nos sitios favorables, ampliando la so gama en condiciones de tundra y taiga,[6] y elevaciones d'hasta 2000 m sobre'l nivel del mar nes partes meridionales de la so área d'adaptación.[7] Prefier suelos bien drenaos, limosos fondos[8] de mediana y moderadamente supuesta testura, incluyendo suelos de chernozem, Solonetzic, Regosolic,[9] Brunisolic y Luvisolic.[10] A. cristatum puede tolerar el salín nel rangu de 5 a 15 mS / cm[11] y prefier condiciones moderadamente alcalines.[9] Tien requerimientos de fertilidá media a baxa.[12] Nun tolera l'enllena enllargáu.[1]
A. cristatum ye'l más tolerante de los agropiros crestaos pero facer meyor en condiciones abiertes.[10] A. cristatum ye bien tolerante a la seca.[13] Por esta tolerancia a la seca empecipia una crecedera bien ceo na temporada, depués de dir latentes el conxuntu de granes hasta la seronda cuando se va presentar la nueva crecedera vexetativa si'l mugor ye abondu.[2]
A. cristatum ye bien tolerante de llendo,[7] anque so condiciones seques los nuevos biltos tienen de ser protexíos de llendo mientres siquier dos años poles plántulas son lentes pa desenvolvese.
A. cristatum ye una planta altamente competitiva y persistente nes zones más seques, y tien una capacidá moderada d'espublizase per mediu de granes. Como tal, el so usu en y xuntu al restu de les comunidaes de pacionales naturales dientro de les sos árees afeches, fuera de la so distribución nativa d'Eurasia, foi criticáu como un factor na perda de la biodiversidá natural de pacionales, anque inda se ta estudiando la tema.[14]
Agropyron cristatum describióse por (L.) Gaertn. y espublizóse en Novi Commentarii Academiae Scientiarum Imperalis Petropolitanae 14: 540. 1770.[15]
Agropyron: nome xenéricu que deriva de les pallabres griegues: agros = "campu, país" y pyron = "granu de trigu".[16]
cristatum: epítetu llatín que significa "con cresta".[17]
Esta páxina forma parte del wikiproyeutu Botánica, un esfuerciu collaborativu col fin d'ameyorar y organizar tolos conteníos rellacionaos con esti tema. Visita la páxina d'alderique del proyeutu pa collaborar y facer entrugues o suxerencies. Agropyron cristatum ye una especie de yerba perteneciente a la familia Poaceae. Esta planta utilízase de cutiu como forraxe y pal control de la erosión. Ye bien conocíu como una especie introducida nes praderíes de los Estaos Xuníos y Canadá.
Agropyron cristatum és una espècie de planta gramínia que es fa servir sovint per farratge i pel control de l'erosió. És nativa d'Euràsia i s'ha introduït en altres zones com els Estats Units, on ha estat plantada a 6-10 milions d'hectàrees i ha acabat esdevenint una planta invasora de les planes.[1]
És una planta herbàcia perenne que fa de 30 a 90 cm d'alt, cespitosa, d'espiga oblonga d'1,5 a 5 cm i espiguetes de 8 a 15 mm, molt comprimides, amb de 3 a 10 flors que finalment es desprenen juntes.[2] És tolerant a la secada i al fred, també als incendis, per això de vegades és l'espècie dominant en l'estepa desèrtica euroasiàtica. Viu en turons i valls de sòls guixencs o calcaris, tots ells secs i rocosos. Les seves espigues fan de 2 a 7 cm de llarg.
Agropyron cristatum és una espècie de planta gramínia que es fa servir sovint per farratge i pel control de l'erosió. És nativa d'Euràsia i s'ha introduït en altres zones com els Estats Units, on ha estat plantada a 6-10 milions d'hectàrees i ha acabat esdevenint una planta invasora de les planes.
És una planta herbàcia perenne que fa de 30 a 90 cm d'alt, cespitosa, d'espiga oblonga d'1,5 a 5 cm i espiguetes de 8 a 15 mm, molt comprimides, amb de 3 a 10 flors que finalment es desprenen juntes. És tolerant a la secada i al fred, també als incendis, per això de vegades és l'espècie dominant en l'estepa desèrtica euroasiàtica. Viu en turons i valls de sòls guixencs o calcaris, tots ells secs i rocosos. Les seves espigues fan de 2 a 7 cm de llarg.
Die Kammquecke (Agropyron cristatum) ist eine Pflanzenart aus der Gattung der Kammquecken (Agropyron) in der Familie der Süßgräser (Poaceae).
Die Kammquecke ist eine ausdauernde krautige Pflanze und erreicht Wuchshöhen von 20 bis 60, zuweilen bis 80 Zentimetern. Die Halme sind kahl oder spärlich behaart.
Die Blattscheiden sind kahl. Die eingerollte oder flache Blattspreiten ist 5 bis 15, manchmal bis zu 20 Zentimeter lang und 0,2 bis 0,9 Zentimeter breit. Sie sind oberseits an der Spitze kahl, achsennah dagegen leicht flaumig behaart.
Der sehr dichte ährige Blütenstand ist bei einer Länge von 2 bis 6 Zentimetern sowie einer Breite von 0,8 bis 2,5 Zentimetern länglich-oval. Die Ährenäste sind mit 1 Millimeter Länge sehr kurz. Die von der Hauptachse weit in großem Winkel abgespreizten Ährchen sind kammförmig zweiteilig angeordnet. Die 6 bis 18 Millimeter breite Ährenachse trägt drei bis elf Blüten. Die einnervigen Hüllspelzen sind lanzettlich oder länglich-elliptisch, behaart oder unbehaart, selten stachelig behaart. Sie sind begrannt. Die Granne ist etwa so lang wie die Hüllspelze. Die obere Hüllspelze ist etwa 2 bis 3 Millimeter und die untere etwa 3 bis 4 Millimeter lang. Die Deckspelzen sind behaart oder kahl, selten stachelig behaart. Sie sind an der Spitze zweispitzig und auf den Kielen bewimpert. Die Granne der Deckspelze erreicht 2 bis 4 Millimeter Länge. Die Staubbeutel (Antheren) sind etwa 4 Millimeter lang.
Die Blüte- und Fruchtzeit liegt zwischen Juni und September.
Die Chromosomenzahl beträgt 2n = 28.[1]
Die Kammquecke ist in gemäßigten Zonen von Asien, in Nordafrika und in weiten Teilen Europas verbreitet, hier jedoch bevorzugt im westlichen und östlichen Mittelmeerraum und bis nach Mitteleuropa reichend. Sie ist in Nordamerika ein Neophyt.[2]
Sie wächst bevorzugt auf trockenen Berghängen, in trockenen Wiesen und in Steppen.
Die Erstbeschreibung erfolgte 1753 unter dem Namen (Basionym) Bromus cristatus in Sp. Pl.: 78 (1753) durch Carl von Linné. Die Neukombination zu Agropyron cristatum (L.) J.Gaertn. wurde 1770 durch Joseph Gärtner in Novi Comment. Acad. Sci. Imp. Petrop. 14(1): 540 (1770) veröffentlicht. Ein Synonym für Agropyron cristatum (L.) J.Gaertn. ist Triticum cristatum (L.) Schreb.
Es können folgende Unterarten unterschieden werden:[3]
Die Kammquecke (Agropyron cristatum) ist eine Pflanzenart aus der Gattung der Kammquecken (Agropyron) in der Familie der Süßgräser (Poaceae).
Саман ерхөг - (англ. Agropyron cristatum), (орос. Житняк гребенчатый)
Сийрэг дэгнүүлт олон наст үет ургамал боловч хааяа ганц нэг мөлхөө найлзуурыг үүсгэнэ. 30-35 см өндөр, эгц босоо иштэй. Ерөнхийдөө навч цөөнтэй бөгөөд тэр нь ихэнх голдуу мушгирч нарийн шугаман хэлбэртэй болсон байдаг. Өргөн нь 5 мм хүрдэг. Нягт шахаж байрласан, ихээхэн унгиралтсан түрүүхэйнүүдээс бүрдсэн хөх өнгийн сам шиг өтгөн түрүүтэй байна. Тавдугаар сард буталж зургаадугаар сард үр нь бүрэн боловсорч есдүгээр сараас хагдарч үрээ гөвж эхэлнэ.[1]
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Саман ерхөг - (англ. Agropyron cristatum), (орос. Житняк гребенчатый)
Сийрэг дэгнүүлт олон наст үет ургамал боловч хааяа ганц нэг мөлхөө найлзуурыг үүсгэнэ. 30-35 см өндөр, эгц босоо иштэй. Ерөнхийдөө навч цөөнтэй бөгөөд тэр нь ихэнх голдуу мушгирч нарийн шугаман хэлбэртэй болсон байдаг. Өргөн нь 5 мм хүрдэг. Нягт шахаж байрласан, ихээхэн унгиралтсан түрүүхэйнүүдээс бүрдсэн хөх өнгийн сам шиг өтгөн түрүүтэй байна. Тавдугаар сард буталж зургаадугаар сард үр нь бүрэн боловсорч есдүгээр сараас хагдарч үрээ гөвж эхэлнэ.
Agropyron cristatum, the crested wheat grass, crested wheatgrass, fairway crested wheat grass, is a species in the family Poaceae. This plant is often used as forage and erosion control. It is well known as a widespread introduced species on the prairies of the United States and Canada.
Agropyron cristatum is one of several closely related grass species referred to as crested wheatgrass. It is unable to hybridize with its similar relatives, as it is a diploid species, whereas its closest relative, Agropyron desertorum, is a tetraploid species.[1] It was introduced from Russia and Siberia to North America in the first half of the twentieth century, and widely used to reseed abandoned marginal cropland undergoing varying degrees of soil erosion and secondary succession.[2] A. cristatum is very long lived, with stands often remaining productive for 30 years or more.[3]
Agropyron cristatum is a densely tufted grass, with culms ranging from 30–50 cm high at maturity. Its sheaths are scabrous or the lowest ones pubescent. Its blades are up to 8 mm wide and scabrous to pubescent above. Its spikes are flat and range from 2–7 cm long, with spikelets ranging from 8–15 mm long, being 3–5-flowered, densely crowded, and spreading to ascending. Its glumes are 4–6 mm long, awn-tipped, and its lemmas are 6–8 mm long and either awnless or awn-tipped.[4]
Agropyron cristatum is known among other grasses and wheats for its relatively high granivory. Granivory, or granivores, describe the interaction between animals and seeds. Agropyron cristatum's high granivory indicates that animals feed on the seeds of the plant as their primary, or even exclusive, food source. Although this raises concerns about the plant's continued ability to reproduce if its seeds are all being consumed, the high granivory of this species does indicate that Agropyron cristatum is an important food source.[5]
Agropyron cristatum is best adapted to dry rangeland conditions and is most frequently found in such circumstances. It prefers from 23 to 38 cm of precipitation per year,[6] but can tolerate more moisture on favourable sites, extending its range into tundra and taiga conditions[7] and elevations up to 2000 m above sea level in the southern portions of its adapted area.[8] It prefers well drained, deep, loamy soils[9] of medium and moderately coarse texture, including Chernozemic, Solonetzic, Regosolic,[10] Brunisolic and Luvisolic soils.[11] A. cristatum can tolerate salinity in the range of 5 to 15 mS/cm[12] and prefers moderately alkaline conditions.[10] It has low to medium fertility requirements.[13] It will not tolerate prolonged flooding.[1]
Agropyron cristatum is the most shade-tolerant of the crested wheatgrasses, but does best in open conditions.[11] A. cristatum is extremely drought tolerant.[14] It achieves this drought tolerance by starting growth very early in the season, then going dormant from seed set until fall when it will exhibit vegetative regrowth if moisture is sufficient.[2]
A recent study has shown that invasive populations of Agropyron cristatum have spread across the upper U.S. as well as southern Canada, and the invading Agropyron cristatum populations have been found to have a higher granivory than native grasslands and they maintain dominance even when native grassland species are reintroduced.[5] This current study indicated that the increased granivory of Agropyron cristatum did not contribute to its competitive success. The study did show that although A. cristatum was found to have higher granivory, after 2 years the difference between A. cristatum's granivory and that of native species lessens, and that there was no apparent preference among the animals for either wheat.[5] Therefore, the factors responsible for Agropyron cristatum's high granivore content are still relatively unknown.
Agropyron cristatum is very tolerant of grazing,[8] although under dry conditions new stands should be protected from grazing for at least two years as the seedling are slow to develop. A. cristatum can be damaged by several fungi, including leaf and stripe rusts,[10] snow mold and some arthropods including black grass bugs (Labops sp.) in pure plantings.
Agropyron cristatum has been bred into many cultivars selected for attributes ranging from forage yield to drought tolerance to turf types that will exhibit more pronounced degrees of rhizomatous growth habit.[10] It has been and continues to be, widely used in both agricultural and industrial reclamation activities.[10]
Agropyron cristatum is known among other grasses and wheats for its relatively high granivory. Granivory describe the interaction between animals and seeds. Agropyron cristatum's high granivory indicates that animals feed on the seeds of the plant as their primary, or even exclusive, food source. Although this raises concerns about the plant's continued ability to reproduce if its seeds are all being consumed, the high granivory of this species does indicate that Agropyron cristatum is an important food source. Studies have been conducted in search of the cause of Agropyron cristatum's increased granivory, but as of yet a high relative granivory has not been proven to be a unique characteristic of A. cristatum, and could actually be attributed to factors other than the plant's genome, such as environmental conditions.[5]
One promising factor that could lead to, and be responsible for, increased granivore in Agropyron cristatum is a certain genetic difference found on chromosome 6 of plants with a higher granivore content.[15] Plants with a translocation on chromosome 6P yield wheat of greater weight and longer spike length than those without the mutation.[15] Agropyron cristatum possesses higher tiller number, higher floret numbers, and greater resistance to various pathogens such as wheat rusts, powdery mildew, and barley yellow dwarf virus than many of its close wheat relatives.[15] It has been used to cross-breed with other species of grass and wheat to transfer a greater disease resistance to them, as well as enhance their properties as a food source.[15] This cross-breeding involves the transferring of the chromosome 6P translocation to the species it is cross-breeding with.[15] Chromosome 6P of A. cristatum has also been proven to play an important role in regulating fertile tiller number and it possesses positive and negative regulators of tiller number.[16] These regulators were specifically found to be on the 6PS and 6PL chromosome arms.[16] High floret numbers and number of kernals per spike is controlled by genes located on chromosome 6P of Agropyron cristatum.[17] Agropyron cristatum’s genes can be used to instill leaf resistance in other species of wheat.[17] Three backcrosses between Agropyron cristatum and Aegilops tauschii produces a number stable, fertile lines of Aegilops tauschii that then has resistance to leaf rust.[17] Also, multi-spike cultivars of A. cristatum have been found to be more stable agronomically and achieve higher yields than cultivars with large-spike type.[16]
It is an easy grass to establish by seed, having both high germination rates and high seedling vigour.[18] It also establishes rapidly relative to many other grasses.[10] Under non-irrigated conditions in low precipitation areas, Crested Wheatgrasses are consistently some of, if not the, highest yielding and persistent of domestic forage grasses. However, A. cristatum is lower yielding, although it is slightly more palatable, relative to other Crested Wheatgrasses.[7]
Agropyron cristatum shows an immense toughness to a wide range of environmental conditions. Agropyron cristatum can be grown in cold temperatures, drought conditions, and relatively high amounts of salinity.[19] It also has a resistance to barley yellow dwarf, wheat streak mosaic viruses, and leaf rust disease as well as containing high protein content.[19]
Agropyron cristatum is a highly competitive and persistent plant in drier areas, and has a moderate ability to spread by seed. As such, its use in and adjacent to remaining natural grassland communities within its adapted areas in outside its native Eurasian distribution has come under criticism as a factor in natural grassland biodiversity loss, although the subject is still being studied.[20] One such fear is that its seedlings' emergence does not decrease under herbicide treatment.[21]
The importance of Agropyron cristatum is often undermined, as the plant has not been domesticated for modern agricultural use. Agropyron cristatum’s ability to withstand various environmental and biological blighting makes it a truly unique and valuable organism. Recent studies highlight the importance of A. cristatum in future agricultural development because it exhibits several desirable traits for the improvement of domesticated wheat.[22] While some of these traits may be related to yield production of the wheat, other significant traits include biotic and abiotic stress resistance genes that enable A. cristatum to grow proficiently. The importance of this knowledge is that researchers can use this genetic information regarding stress resistance genes to introduce new desirable traits in other domesticated wheat species that aid their growth in harsh environments. Ultimately, this leads to better yields for more human consumption.
The phenotypic success that Agropyron cristatum experiences is primarily due to the success of its root system. Recent studies show how root development contributes to the competitiveness of A. cristatum by testing its ability to flourish over other forms of vegetation in grassland environments.[23] These studies provide data on how long the roots grow and how concentrated soil volume becomes with roots of A. cristatum.[23][24] The results shows that A. cristatum typically allocates more of its biomass in its roots than its shoots when compared to other grassland species. Interpretation of this data suggests that because A. cristatum has a better foundation, it can outcompete other species for resources.[23][24] These reports give significant insights into why A. cristatum is so competitive and why the development of this species could be a valuable asset to the food production as a perennial plant that is very competitive with its roots.[24] In addition to this data, new research implies that whatever genes are enabling the roots to beat out the competition are homogeneous in nature (therefore more easily passed down through generations) and is the reason the species is as dominant.[23] Once these genes become identified, agriculturalists can seek to implement them into genetically modified versions of wheat species to create a more durable and successful domesticated wheat species in our limited environment.
Today, researchers can annotate important functional genes that may be valuable for human use in the field of agriculture. This can be accomplished by utilizing next-generation sequencing techniques to analyze transcriptomes and genomes.[22] Studies show that A. cristatum contains an abundance of protein family domains including nucleotide-binding domain-ARC (NB-ARC), AP2 domains, Myb family transcription factors (Myb), and late embryogenesis abundant (LEA) proteins that are all stress resistance genes.[22] Specifically, NB-ARC proteins deal with general immune resistances, AP2 domains relate to cold temperature and drought resistance, Myb proteins also aid in drought resistance but also help in salinity stress, and LEA genes generally involve resistance from other abiotic stresses.[22] With this information, the next step is to actually introduce versions of these desirable genes into domesticated species. The results from a 2013 study displays the effects of introducing translocations between those desirable traits from A. cristatum to modern wheat species.[25] Using the method of intergenic translocations, the research shows that successful integrations have been completed and that those plants do in fact grow normally as well.[25] Another method from a successful 2015 study involves the use of intergenic hybridization to introduce resistance genes associated with leaf rust.[26] To sum up, the numerous biotic and abiotic resistance genes that A. cristatum presents leads to the success of the species which could and can be applied to modern day food production of the wheat domesticated species.
Agropyron cristatum, the crested wheat grass, crested wheatgrass, fairway crested wheat grass, is a species in the family Poaceae. This plant is often used as forage and erosion control. It is well known as a widespread introduced species on the prairies of the United States and Canada.
Agropyron cristatum es una especie de hierba perteneciente a la familia Poaceae. Esta planta se utiliza a menudo como forraje y para el control de la erosión. Es bien conocido como una especie introducida en las praderas de los Estados Unidos y Canadá.
Agropyron cristatum es una de las varias especies de hierbas estrechamente relacionadas que son conocidas como agropiro crestado. Es incapaz de hibridar con sus familiares similares, ya que es una especie diploide, mientras que su pariente más cercano, Agropyron desortum, es una especie tetraploidal.[1] Fue introducida desde Rusia y Siberia a América del Norte en la primera mitad del siglo XX, y ampliamente utilizada para resembrar las tierras de cultivo marginales abandonadas sometidas a diversos grados de erosión del suelo y la reproducción secundaria.[2] A. cristatum es muy longeva, con ratios de ser productiva durante 30 años o más.[3]
A. cristatum es una hierba densamente moñuda, con tallos que alcanzan un tamaño de 30 hasta 50 cm de altura en la madurez. Sus vainas son escabrosos o los más bajos pubescentes. Sus hojas son de hasta 8 mm de ancho, y escabrosas a pubescentes arriba. Sus picos son planos y de 2-7 cm de largo., Con espiguillas que van desde 8 hasta 15 mm de largo, siendo 3-5-florecido, densamente poblado, y con la difusión ascendente. Sus glumas son 4-6 mm de largo, y sus lemas son de 6-8 mm de largo y, o bien sin aristas o arista de punta.[4]
A. cristatum se adapta mejor a las condiciones secas de los pastizales y se encuentra con mayor frecuencia en tales circunstancias. Prefiere 23-38 cm de precipitación por año,[5] pero pueden tolerar más humedad en los sitios favorables, ampliando su gama en condiciones de tundra y taiga,[6] y elevaciones de hasta 2000 m sobre el nivel del mar en las partes meridionales de su área de adaptación.[7] Prefiere suelos bien drenados, limosos profundos[8] de mediana y moderadamente supuesta textura, incluyendo suelos de chernozem, Solonetzic, Regosolic,[9] Brunisolic y Luvisolic.[10] A. cristatum puede tolerar la salinidad en el rango de 5 a 15 mS / cm[11] y prefiere condiciones moderadamente alcalinas.[9] Tiene requerimientos de fertilidad media a baja.[12] No tolera la inundación prolongada.[1]
A. cristatum es el más tolerante de los agropiros crestados pero lo hace mejor en condiciones abiertas.[10] A. cristatum es muy tolerante a la sequía.[13] Por esta tolerancia a la sequía inicia un crecimiento muy temprano en la temporada, luego de ir latentes el conjunto de semillas hasta el otoño cuando se presentará el nuevo crecimiento vegetativo si la humedad es suficiente.[2]
A. cristatum es muy tolerante de pastoreo,[7] aunque bajo condiciones secas los nuevos brotes deben ser protegidos de pastoreo durante al menos dos años por las plántulas son lentas para desarrollarse.
A. cristatum es una planta altamente competitiva y persistente en las zonas más secas, y tiene una capacidad moderada de difundirse por medio de semillas. Como tal, su uso en y junto al resto de las comunidades de pastizales naturales dentro de sus áreas adaptadas, fuera de su distribución nativa de Eurasia, ha sido criticado como un factor en la pérdida de la biodiversidad natural de pastizales, aunque todavía se está estudiando el tema.[14]
Agropyron cristatum fue descrita por (L.) Gaertn. y publicado en Novi Commentarii Academiae Scientiarum Imperalis Petropolitanae 14: 540. 1770.[15]
Agropyron: nombre genérico que deriva de las palabras griegas: agros = "campo, país" y pyron = "grano de trigo".[16]
cristatum: epíteto latíno que significa "con cresta".[17]
Agropyron cristatum es una especie de hierba perteneciente a la familia Poaceae. Esta planta se utiliza a menudo como forraje y para el control de la erosión. Es bien conocido como una especie introducida en las praderas de los Estados Unidos y Canadá.
Harjasvehnä (Agropyron cristatum) on heinäkasvien heimoon kuuluva monivuotinen laji, jota viljellään koristekasvina.[1]
Suomessa on tavattu harvoin uustulokkaana harjasvehnän alalajia kampaharjasvehnää (ssp. pectinatum), joka on kotoisin Etelä-Euroopan ja Aasian seudulta.[2]
Harjasvehnä (Agropyron cristatum) on heinäkasvien heimoon kuuluva monivuotinen laji, jota viljellään koristekasvina.
Suomessa on tavattu harvoin uustulokkaana harjasvehnän alalajia kampaharjasvehnää (ssp. pectinatum), joka on kotoisin Etelä-Euroopan ja Aasian seudulta.
Agropyron cristatum (agropyre à crête) est une espèce de plantes monocotylédones de la famille des Poaceae, originaire d'Eurasie.
C'est une plante herbacée vivace, cespiteuse, résistante à la sécheresse, qui s'établit en peuplements denses, monospécifiques, qui tendent à supplanter la végétation indigène. Elle est souvent cultivée comme plante fourragère ou pour lutter contre l'érosion. C'est une plante bien connue comme espèce introduite et envahissante, largement répandue dans les prairies des États-Unis et du Canada.
Agropyron cristatum est une plante herbacée formant des touffes denses, dont les tiges (chaumes) dressées peuvent atteindre 30 à 50 cm de haut à maturité. Les gaines foliaires sont scabres, et celles de la base sont pubescentes. Le limbe foliaire qui peut avoir jusqu'à 8 mm de large, est scabre à pubescent à la face supérieure. L'inflorescence est un épi plat, long de 2 à 7 cm, composé d'épillets de 8 à 15 mm de long, comptant 3 à 5 fleurons. Les glumes, de 4 à 6 mm de long, portent une arête à leur extrémité. Les glumelles (lemmes), de 4 à 6 mm de long, portent une arête ou non[3].
Agropyron cristatum est l'une des espèces de graminées qui connait un taux de prédation de ses graines parmi les plus élevés. Certaines espèces animales, granivores, se nourrissent des graines de cette plante comme source d'alimentation principale, voire exclusive. Même si cela pourrait être un risque pour la capacité de la plante de se reproduire durablement si ses graines étaient toutes consommées, cette forte prédation démontre qu'Agropyron cristatum est une source de nourriture importante pour la faune.
L'aire de répartition originelle d''Agropyron cristatum se trouve en Eurasie et comprend une vaste zone englobant les montagnes de l'Altaï, la Sibérie centrale, la Yakoutie et l'Extrême-Orient russe, la Mongolie et le nord de la Chine, le Japon, la Corée, le Pakistan, le sud-ouest de l'Asie et l'Europe. L'espèce a été introduite dans d'autres régions du monde où elle s'est naturalisée : Australasie, Amérique du Nord et du Sud, et Afrique du Nord[2].
Agropyron cristatum a été décrite initialement en 1753 par Linné sous le nom de Bromus cristatus[4], puis reclassée par Joseph Gaertner dans le genre Agropyron et publiée dans Novi Commentarii Academiae Scientiarum Imperalis Petropolitanae (14: 540) en 1770[5].
Selon NCBI (1 juillet 2016)[6] :
Selon Tropicos (1 juillet 2016)[7] (Attention liste brute contenant possiblement des synonymes) :
Agropyron cristatum (agropyre à crête) est une espèce de plantes monocotylédones de la famille des Poaceae, originaire d'Eurasie.
C'est une plante herbacée vivace, cespiteuse, résistante à la sécheresse, qui s'établit en peuplements denses, monospécifiques, qui tendent à supplanter la végétation indigène. Elle est souvent cultivée comme plante fourragère ou pour lutter contre l'érosion. C'est une plante bien connue comme espèce introduite et envahissante, largement répandue dans les prairies des États-Unis et du Canada.
Noms vernaculaires agropyre à crête, agropyron accrêté, chiendent à crête, chiendent pectiné.La gramigna pettinata (nome scientifico Agropyron cristatum (L.) Gaertn, 1770 è una specie di pianta spermatofita monocotiledone appartenente alla famiglia Poaceae (sottofamiglia Pooideae ex Graminaceae).[1]
In nome generico (Agropyron) deriva da due parole greche: "agros" (= campo) e "pyros" (= grano); è una pianta simile al grano ma non coltivata come un cereale.[2] L'epiteto specifico (cristatum) indica una pianta la cui infiorescenza ha la forma di una cresta.[3]
Il binomio scientifico di questa pianta inizialmente era Bromus cristatus, proposto dal botanico Linneo (1707 – 1778) in una pubblicazione del 1753, modificato successivamente in quello attualmente accettato Agropyron cristatum perfezionato dal botanico tedesco Joseph Gaertner (Calw, 12 marzo 1732 – Tubinga, 14 luglio 1791) nella pubblicazione "Novi Commentarii Academiae Scientiarum Imperalis Petropolitanae. St. Petersburg" (Novi Comment. Acad. Sci. Imp. Petrop. 14(1): 540 - 1770)[4] del 1770.[1]
Queste piante arrivano ad una altezza di 2 - 7 dm. La forma biologica è emicriptofita cespitosa (H caesp), sono piante erbacee, bienni o perenni, con gemme svernanti al livello del suolo e protette dalla lettiera o dalla neve e presentano ciuffi fitti di foglie che si dipartono dal suolo.[5][6][7][8][9][10][11][12]
Le radici sono del tipo fascicolato.
La parte aerea della pianta è densamente cespugliosa con fusti ascendenti o decombenti. La superficie può essere puberulenta (raramente è completamente glabra).
Le foglie lungo il culmo sono disposte in modo alterno, sono distiche e si originano dai vari nodi. Sono composte da una guaina, una ligula e una lamina. Le venature sono parallelinervie. Non sono presenti i pseudopiccioli e, nell'epidermide delle foglia, le papille.
Infiorescenza principale (sinfiorescenza o semplicemente spiga): le infiorescenze di tipo racemoso terminale hanno la forma di una pannocchia da oblunga-ovoidale a ovoide-lanceolata, densa ed appiattita. Le spighe sono formate da 3 o più spighette fertili e sessili, disposte in modo distico una per nodo. La fillotassi dell'inflorescenza inizialmente è a due livelli (o a due ranghi[13]), anche se le successive ramificazioni la fa apparire a spirale. Dimensione della spiga: larghezza 1 – 2 cm; lunghezza 3 – 5 cm.
Infiorescenza secondaria (o spighetta): le spighette, compresse lateralmente, sottese da due brattee distiche e strettamente sovrapposte chiamate glume (inferiore e superiore), sono formate da 5 a 11 fiori. Possono essere presenti dei fiori sterili; in questo caso sono in posizione distale rispetto a quelli fertili. Alla base di ogni fiore sono presenti due brattee: la palea e il lemma. La disarticolazione avviene con la rottura della rachilla tra i fiori o sopra le glume persistenti (l'asse dell'infiorescenza non si disarticola). Inoltre la rachide ha brevissimi internodi (1 mm o meno) per cui le spighette sono più o meno orizzontali. Lunghezza delle spighette: 8 – 15 mm.
I fiori fertili sono attinomorfi formati da 3 verticilli: perianzio ridotto, androceo e gineceo.
I frutti sono del tipo cariosside, ossia sono dei piccoli chicchi indeiscenti, con forme da ovate a oblunghe, nei quali il pericarpo è formato da una sottile parete che circonda il singolo seme. In particolare il pericarpo è fuso al seme ed è aderente. L'endocarpo non è indurito e l'ilo è lungo e lineare. L'embrione è lungo 1/3 della lunghezza del frutto ed è provvisto di epiblasto; ha inoltre un solo cotiledone altamente modificato (scutello senza fessura) in posizione laterale. I margini embrionali della foglia non si sovrappongono.
Come gran parte delle Poaceae, le specie di questo genere si riproducono per impollinazione anemogama. Gli stigmi più o meno piumosi sono una caratteristica importante per catturare meglio il polline aereo. La dispersione dei semi avviene inizialmente a opera del vento (dispersione anemocora) e una volta giunti a terra grazie all'azione di insetti come le formiche (mirmecoria). In particolare i frutti di queste erbe possono sopravvivere al passaggio attraverso le budella dei mammiferi e possono essere trovati a germogliare nello sterco.[14]
Dal punto di vista fitosociologico alpino la pianta di questa voce appartiene alla seguente comunità vegetale:[16]
La famiglia di appartenenza di questa specie (Poaceae) comprende circa 650 generi e 9.700 specie (secondo altri Autori 670 generi e 9.500[9]). Con una distribuzione cosmopolita è una delle famiglie più numerose e più importanti del gruppo delle monocotiledoni e di grande interesse economico: tre quarti delle terre coltivate del mondo produce cereali (più del 50% delle calorie umane proviene dalle graminacee). La famiglia è suddivisa in 11 sottofamiglie, il genere Agropyron è descritto all'interno della sottofamiglia Pooideae con circa una dozzina di specie distribuite in Europa, Medio Oriente, Asia temperata e Nord America.[5][6]
Il genere della specie di questa voce è descritto all'interno della tribù Triticeae (supertribù Triticodae T.D. Macfarl. & L. Watson, 1982). La supertribù Triticodae comprende tre tribù: Littledaleeae, Bromeae e Triticeae. All'interno della supertribù, la tribù Triticeae forma un "gruppo fratello" con la tribù Bromeae.[18]
L'asimmetria della carena delle glume e dei lemmi è una sinapomorfia per il genere di questa specie, che include piante con il genoma designato "P".[5]
Il numero cromosomico per A. cristatum è: 2n = 14, 28 e 42.[19]
Di seguito sono indicate alcune sottospecie della specie di questa voce, non sempre riconosciute da altre checklist botaniche:[17]
Questa entità ha avuto nel tempo diverse nomenclature. L'elenco seguente indica alcuni tra i sinonimi più frequenti:[11]
La gramigna pettinata (nome scientifico Agropyron cristatum (L.) Gaertn, 1770 è una specie di pianta spermatofita monocotiledone appartenente alla famiglia Poaceae (sottofamiglia Pooideae ex Graminaceae).
Порожнисті плодоносні стебла злегка пухкі, 20–60(80) см заввишки, зазвичай опушені, рідко голі. Листяні піхви волосаті або голі. Листова пластини скручені або плоскі, 5–15(20) × 0.2–0.5(0.9) см, верхня поверхня гола, нижня — помірно опушена. Колос довгасто-яйцеподібний або яйцевидно-ланцетний, дуже щільний, 2–6 × 0.8–2.5 см. Колосочки 6–18 мм, з (3)5–11 квіточками. Приквітки ланцетні або яєчно-ланцетні, волосисті або голі, проксимальна — 2–3 мм, дистальна — 3–4 мм. Лема волосиста, густо волосиста або гола, як правило остюкова, остюк 2–4 мм. Верхня приквітка війчаста уздовж кіля, верхівка 2-зуба. Пиляки приблизно 4 мм.
Agropyron cristatum є одним з видів трав, який має найвищу швидкість розмноження насінням.
Китай, Японія, Корея, Монголія, Пакистан, Росія; пд.-зх. Азія, Європа крім півночі, Марокко; натуралізована в Північній Америці (Канада, США).
Населяє сухі гірські схили, сухі луки, степи, кам'янисті степові схили.
В Україні зростає на степах (від лучних до пустельних), кам'янистих схилах — в Лісостепу, Степу і Гірському Криму, досить часто; особливо в пд.-сх. ч. України; спорадично трапляється в Поліссі; відомо 1 місцезнаходження в Закарпатті (Ужгород)[5].
Цей вид забезпечує хороший корм. Використовується для контролю ерозії.
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Agropyron cristatum là một loài thực vật có hoa trong họ Hòa thảo. Loài này được (L.) Gaertn. mô tả khoa học đầu tiên năm 1770.[1]
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Agropyron cristatum là một loài thực vật có hoa trong họ Hòa thảo. Loài này được (L.) Gaertn. mô tả khoa học đầu tiên năm 1770.
冰草(学名:Agropyron cristatum)是一种禾本科植物。
多年生草本,秆成疏丛。线形叶片较粗糙,边缘常内卷。夏季抽穗状花序,小穗紧密,两列整齐呈篦齿状。
在中国主要分布在黑龙江、吉林、辽宁、河北、山西、陕西、甘肃、青海、新疆和内蒙古等省区干旱草原地带;此外分布于欧洲、苏联的西伯利亚及中亚地区和蒙古。[1]
这是一篇與植物相關的小作品。你可以通过编辑或修订扩充其内容。 冰草(学名:Agropyron cristatum)是一种禾本科植物。
밀풀(학명: Agropyron cristatum 아그로피론 크리스타툼[*])은 벼과의 여러해살이풀이다. 아시아와 유럽 및 아프리카에 분포한다.[2]
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