Plant Assessment Form
More Schismus barbatus resources
Schismus barbatus
Common Names: common Mediterranean grass; Old han schismus
Evaluated on: 9/4/03
List committee review date: 04/09/2003
Re-evaluation date:
Evaluator(s)
U.S. Geological Surveye
160 N.Stephanie St., Henderson, NV 89074
702-564-4615
matt_brooks@usgs.gov
List committee members
Matt BrooksDoug Johnson
Joe DiTomaso
Peter Warner
General Comments
5/26/17 Note by Ramona Robison This PAF was originally written for Schismus arabicus and Schismus barbatus. It has now been split into two species and the information copied into each. The Schismus spp. are considered together in Invasive Plants of Califonia’s Wildlands (Bossard et al. 2000). "Schismus barbatus and S. arabicus are so genetically and morphologically similar (Faruqui and Quarish 1979, Faruqui 1981, Bor 1968), with similar geographic ranges and habitats in California (Hickman 1993), that they are treated together here."
Table 2. Criteria, Section, and Overall Scores
Overall Score?
Limited
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Alert Status?
No Alert
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Documentation?
2.5 out of 5
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Score | Documentation | |||
1.1 | ?Impact on abiotic ecosystem processes | B. Moderate | Reviewed Scientific Publication | |
1.2 | ?Impact on plant community | B. Moderate | Reviewed Scientific Publication | |
1.3 | ?Impact on higher trophic levels | C. Minor | Other Published Material | |
1.4 | ?Impact on genetic integrity | U. Unknown | ||
2.1 | ?Role of anthropogenic and natural disturbance in establishment | B. Moderate | Reviewed Scientific Publication | |
2.2 | ?Local rate of spread with no management | A. Increases rapidly | Other Published Material | |
2.3 | ?Recent trend in total area infested within state | C. Stable | Observational | |
2.4 |
?Innate reproductive potential (see Worksheet A) |
B. Moderate | Observational | |
2.5 | ?Potential for human-caused dispersal | U. Unknown | ||
2.6 | ? Potential for natural long-distance dispersal | C. Rare | Observational | |
2.7 | ?Other regions invaded | C. Already invaded | Observational | |
3.1 |
?Ecological amplitude/Range (see Worksheet C) |
A. Widespread | Observational | |
3.2 |
?Distribution/Peak frequency (see Worksheet C) |
A. High | Observational |
Table 3. Documentation
Scores are explained in the "Criteria for Categorizing Invasive Non-Native Plants that Threaten Wildlands".
Section 1: Impact | |
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Question 1.1 Impact on abiotic ecosystem processes? | B Reviewed Scientific Publication |
Identify ecosystem processes impacted: B: Possibly fire frequency in arid and semi-arid shrublands Produces high amounts of continuous fine fuels were they did not previously exist, facilitating the spread of fire where fire is historically infrequent. Sources of information: Brooks, M.L. 1999a. Alien annual grasses and fire in the Mojave Desert. Madro_o 46:13-19, enter text here |
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Question 1.2 Impact on plant community composition, structure, and interactions? |
B Reviewed Scientific Publication |
Identify type of impact or alteration: B: May reduce vigor, fecundity, and species diveristy of native annual plant communities. Can compete with native annual plants, reducing the biomass and species richness of seedling cohorts. Can have high % cover, but usually only after disturbances such as fire. When it arrived in the early 1900s, the similar native annual grass, Vulpia octoflora, declined in abundance. Sources of information: Brooks, M.L. 2000. Competition between alien annual grasses and native annual plants in the Mojave Desert. American Midland Naturalist 144:92-108. Brooks, M.L. 2000a. Schismus arabicus Nees. Schismus barbatus (L.) Thell. In: Bossard, C., Hoshovsky, M. and Randall, J. (Eds.). Invasive Wildland Weeds of California. Berkeley: University of California Press, pp. 287-291. Brooks, M.L. and D. Pyke. 2001. Invasive plants and fire in the deserts of North America. Pp. 1-14 In K. Galley and T. Wilson (eds.), Proceedings of the Invasive Species Workshop: The Role of Fire In the Control and Spread of Invasive Species. Fire Conference 2000: The First National Congress on Fire, Ecology, Prevention and Management. Miscellaneous Publications No. 11, Tall Timbers Research Station, Tallahassee, Florida, USA. Brooks, M.L., and T.C. Esque. 2002. Alien annual plants and wildfire in desert tortoise habitat: status, ecological effects, and management. Chelonian Conservation and Biology 4:330-340. |
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Question 1.3 Impact on higher trophic levels? | C Other Published Material |
Identify type of impact or alteration: C: Competes with native annual plants that are preferred forage for the desert tortoise. Seeds may be eaten by small native ants, since they are collected by then and deposited around ant mounds. Seeds are probably too small to be used by vertebrate granivores. Mature plants oberved grazed by unknown animals (not livestock since they have been observed grazed in areas closed to livestock use. Sources of information: Brooks, M.L., and T.C. Esque. 2002. Alien annual plants and wildfire in desert tortoise habitat: status, ecological effects, and management. Chelonian Conservation and Biology 4:330-340. Brooks, M.L. and D. Pyke. 2001. Invasive plants and fire in the deserts of North America. Pp. 1-14 In K. Galley and T. Wilson (eds.), Proceedings of the Invasive Species Workshop: The Role of Fire In the Control and Spread of Invasive Species. Fire Conference 2000: The First National Congress on Fire, Ecology, Prevention and Management. Miscellaneous Publications No. 11, Tall Timbers Research Station, Tallahassee, Florida, USABrooks, M.L. 2000. Competition between alien annual grasses and native annual plants in the Mojave Desert. American Midland Naturalist 144:92-108. |
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Question 1.4 Impact on genetic integrity? | U |
U: unknown, no native congeners in California Sources of information: Hickman, J.C. (ed.). 1993. The Jepson Manual: Higher plants of California. University of California Press, Berkeley, CA. 1400 p. |
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Section 2: Invasiveness | |
Question 2.1 Role of anthropogenic and natural disturbance in establishment? |
A Other Published Material |
Describe role of disturbance: B: Anthropogenic disturbance facilitates dominance of this species, in biomass and cover continuity. Very high cover in areas disturbed by OHVs, fire, and previous cropping agriculture. Sources of information: Brooks, M.L. 2000. Schismus arabicus Nees. Schismus barbatus (L.) Thell. In: Bossard, C., Hoshovsky, M. and Randall, J. (Eds.). Noxious Wildland Weeds of California. Berkeley: University of California Press, pp. 287-291. Brooks, M.L. 2000. Competition between alien annual grasses and native annual plants in the Mojave Desert. American Midland Naturalist 144:92-108. Brooks, M.L., and T.C. Esque. 2002. Alien annual plants and wildfire in desert tortoise habitat: status, ecological effects, and management. Chelonian Conservation and Biology 4:330-340. Brooks, M.L. and D. Pyke. 2001. The role of firein the deserts of North America. Pp. 1-14 In K. Galley and T. Wilson (eds.), Proceedings of the Invasive Species Workshop: The Role of Fire In the Control and Spread of Invasive Species. Fire Conference 2000: The First National Congress on Fire, Ecology, Prevention and Management. Miscellaneous Publications No. 11, Tall Timbers Research Station, Tallahassee, Florida, USA. Brooks, 1999. Biological Invasions |
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Question 2.2 Local rate of spread with no management? | A Other Published Material |
Describe rate of spread: A: probably can spread rapidly. Years of high rainfall produce huge increases in cover and biomass dominance. Can disperse locally by "tumbleweed" action. Sources of information: Brooks, M.L. 2000a. Schismus arabicus Nees. Schismus barbatus (L.) Thell. In: Bossard, C., Hoshovsky, M. and Randall, J. (Eds.). Noxious Wildland Weeds of California. Berkeley: University of California Press, pp. 287-291. Brooks, M.L., and T.C. Esque. 2002. Alien annual plants and wildfire in desert tortoise habitat: status, ecological effects, and management. Chelonian Conservation and Biology 4:330-340. |
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Question 2.3 Recent trend in total area infested within state? | C Observational |
Describe trend: C: May still be spreading since it first appeared in the 1900s, however has likely already naturalized in most habitats where it is likely to end up Sources of information: Brooks, M.L. 2000a. Schismus arabicus Nees. Schismus barbatus (L.) Thell. In: Bossard, C., Hoshovsky, M. and Randall, J. (Eds.). Noxious Wildland Weeds of California. Berkeley: University of California Press, pp. 287-291. Brooks, M.L., and T.C. Esque. 2002. Alien annual plants and wildfire in desert tortoise habitat: status, ecological effects, and management. Chelonian Conservation and Biology 4:330-340. |
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Question 2.4 Innate reproductive potential? | B Observational |
Describe key reproductive characteristics: B: reproductive maturity in <2 years, high seed production Sources of information: Matt Brooks personal observation |
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Question 2.5 Potential for human-caused dispersal? | U |
Identify dispersal mechanisms: U: may pass through the guts of livestock Sources of information: no information |
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Question 2.6 Potential for natural long-distance dispersal? | C Observational |
Identify dispersal mechanisms: C: Probably low, moderate-distance dispersal by saltation/tubleweed action Sources of information: Matt Brooks personal observation |
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Question 2.7 Other regions invaded? | C Observational |
Identify other regions: C: has invaded similar arid/semi-arid systems in Autralia, W Europe, South America Has invaded similar habitats in NA as elsewhere Sources of information: Bor, N.L. 1968. Schismus in Townsend, Guest, and Al-Rawi. Flora of Iraq. Volume 9. Ministry of Agriculture of Republic of Iraq, Baghdad, Iraq. |
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Section 3: Distribution | |
Question 3.1 Ecological amplitude/Range? | A Observational |
A: Present in dunes, scrub, grasslands, and woodlands Sources of information: Matt Brooks pers. obs. |
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Question 3.2 Distribution/Peak frequency? | A Observational |
Describe distribution: A: widespread in most low elevation desert habitats, and many sage scrub habitats Sources of information: Matt Brooks pers. obs |
Worksheet A - Innate reproductive potential
Reaches reproductive maturity in 2 years or less | Yes |
Dense infestations produce >1,000 viable seed per square meter | Yes |
Populations of this species produce seeds every year. | Yes |
Seed production sustained over 3 or more months within a population annually | No |
Seeds remain viable in soil for three or more years | Unknown |
Viable seed produced with both self-pollination and cross-pollination | Unknown |
Has quickly spreading vegetative structures (rhizomes, roots, etc.) that may root at nodes | No |
Fragments easily and fragments can become established elsewhere | No |
Resprouts readily when cut, grazed, or burned | No |
Total points: | 4 |
Total unknowns: | 2 |
Total score: | B? |
Related traits:
Worksheet B - Arizona Ecological Types is not included here
Worksheet C - California Ecological Types
(sensu Holland 1986)Major Ecological Types | Minor Ecological Types | Code? |
---|---|---|
Marine Systems | marine systems | |
Freshwater and Estuarine | lakes, ponds, reservoirs | |
Aquatic Systems | rivers, streams, canals | |
estuaries | ||
Dunes | coastal | |
desert | D, < 5% | |
interior | ||
Scrub and Chaparral | coastal bluff scrub | |
coastal scrub | B, 20% - 50% | |
Sonoran desert scrub | A, > 50% | |
Mojavean desert scrub (incl. Joshua tree woodland) | A, > 50% | |
Great Basin scrub | D, < 5% | |
chenopod scrub | A, > 50% | |
montane dwarf scrub | ||
Upper Sonoran subshrub scrub | B, 20% - 50% | |
chaparral | ||
Grasslands, Vernal Pools, Meadows, and other Herb Communities | coastal prairie | |
valley and foothill grassland | ||
Great Basin grassland | ||
vernal pool | ||
meadow and seep | D, < 5% | |
alkali playa | ||
pebble plain | ||
Bog and Marsh | bog and fen | |
marsh and swamp | ||
Riparian and Bottomland habitat | riparian forest | |
riparian woodland | ||
riparian scrub (incl.desert washes) | ||
Woodland | cismontane woodland | |
piñon and juniper woodland | D, < 5% | |
Sonoran thorn woodland | ||
Forest | broadleaved upland forest | |
North Coast coniferous forest | ||
closed cone coniferous forest | ||
lower montane coniferous forest | ||
upper montane coniferous forest | ||
subalpine coniferous forest | ||
Alpine Habitats | alpine boulder and rock field | |
alpine dwarf scrub | ||
Amplitude (breadth): | A | |
Distribution (highest score): | A |
Infested Jepson Regions
Click here for a map of Jepson regions
- CA Floristic Province
- Central West
- Great Valley
- Northwest
- Sierra Nevada
- Southwest
- Great Basin Province
- Sierra Nevada East
- Desert Province
- Mojave Desert
- Sonoran Desert