4. 250 species of forbs
200 species of grasses
52 species of shrub/sub-shrub
6 species of vines
http://plants.usda.gov
Colorful Colorado!
5.
6. Development Philosophy
“CDOT’s approach to transportation design requires that there be a
direct relationship between the proposed design and the place it will
be located “site context”. Defining design zones are critical to
creating a relationship between transportation and landscape, while
maintaining a consistent approach to design throughout the state.”
• Site Context – Physical, Climatic, Biological factors.
• Transportation/Landscape – Visual resources, Safety, Maintenance.
• Can this help the CDOT have better projects?
• Evolution
7. Purpose
Define the geographic extents of the physical, biological, and
ecological zones of Colorado and use this information to improve
restoration efforts by optimizing the plant selection process.
Goal
Develop a geographic dataset, based on all State of Colorado route
mile markers, and, associate specific land-use, climatic and biologic
attributes to each markers location.
Format
• Plant Selection Guide
• Spatial data (ESRI and Google Earth)
• Work flow/methods
Where to begin?
16. 1. Review data from associated mile markers.
2. Review geospatial data and associated landscape features in ArcGIS or
Google Earth.
3. Utilize Google Earth/Google Street View to confirm site description.
4. Consider site level controls and revise plant species list based on expected
soils or adjacent land-uses.
5. Based on location information develop species list “Plant Palette” from
Ecotype.
6. Review plant descriptions in database to confirm that selected species will
be appropriate for the project goals and site conditions.
7. Share potential species list with Agricultural Extension Agent, State Forest or
Forest Service Botanist, regional seed suppliers, and/or other groups with
vested interests.
8. Revise/append plant species list based on micro-site factors.
9. Collect/record site specific information gained during project development
and implementation.
10. Incorporate final seed selection and all site information as well as any other
information developed through the project phase back into the database.
17. Description Data
County Saguache
Highway/ Mile Maker(s) 285/ 2346
Site Location UTM UTM X - 399500.06,
UTM Y - 4202812.55
Site Elevation 7596
Watershed Saguache River
Planning Region 8
Engineering Region 5
EcoRegion Level I North American Deserts
EcoRegion Level II Cold Deserts
EcoRegion Level III Arizona/ New Mexico Plateau
EcoRegion Level IV Salt Flats
Rock Type Alluvium
Local Cover Description Agriculture
Weed Species of Concern NA
Average Annual Precipitation (in) 7
Average Annual Minimum Temp (0F) 18
Ecotype – Temperature Cool
Ecotype – Precipitation Dry
Ecotype – Elevation Mid-Elevation
Site Location – San Luis Valley, State Highway 285.
Project Goal Year 2: A healthy, diverse and self-sustaining ground cover.
Project Goal Year 5. No significant evidence of previous disturbance.
18.
19. San Luis
Shrublands and
Hills
Higher relief foothill edges and low mountain areas within the basin. It includes the San Luis Hills in the
southwest, a rugged mass of hills and tilted mesas. The hills are composed of andesitic volcanic rock and are 500
to 1,000 feet higher than the adjacent ecoregions of the Arizona/New Mexico Plateau.
Vegetation communities represent a transition from the grassland and desert communities of the lower basin to
the woodland species found in the surrounding foothills of the Southern Rockies.
Big sagebrush, rabbitbrush, and winterfat occur, as well as grasslands of western wheatgrass, green needlegrass,
blue grama, and needle-and-thread. Areas of pinyon-juniper are found on the tops of the San Luis Hills.
San Luis
Alluvial Flats
and Wetlands
8 to 10 inches of precipitation.
Generally, the soils of this region tend to be less alkaline than the soils of the Salt Flat ecoregion.
Increased salt accumulation in soils and groundwater depletion are problems associated with irrigation and the
competing uses of available water.
21. Where is the site?
What are the project
goals?
Challenges/Opportunities
Select Plants
Monitor
Revise as new
information is available
Process is Important
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22. Mobile Source Air Toxics (MSAT) Tree Species Selection
Purpose
Develop a species list and design criteria for standalone vegetative barriers and
vegetation barriers located adjacent to sound barriers using regionally
appropriate trees and other vegetation types to reduce the impacts of Mobile-
Source Air Toxics (MSATs).
23. Core Questions
1. What are the primary pathways of near-roadway air pollution and how can
vegetation disrupt or divert these pathways?
2. What are the important characteristics of vegetation as it relates to air pollution
mitigation?
3. What are some of the trade-offs of using vegetation for air pollution mitigation?
4. If vegetation is included as a mitigation strategy what is the expected
performance?
5. Could there be co-benefits of using vegetation and if so what are the primary
ones?
24. Key Findings
1. Living barriers can reduce airborne particulates through surface capture,
deposition and dispersion.
2. Conifers are superior to deciduous trees for overall particulate removal
because of their year round foliage, greater amounts leaf and stem surface
area per unit of land and smaller boundary layer thickness.
3. Most studies show vegetation pollution removal at the scale of a city or
region is likely less than 2%.
4. Vegetation is only a temporary retention site for most atmospheric particles.
Most particles often re-suspend into the atmosphere, wash off with rain, or
drop to the ground with twig and leaf fall.
25. MSAT Tree Species List – Use and Application
Step 1. Project Location
• Eco-regional context
• Constraints/Opportunities
• Species List
Step 2. Ranking System
1. Is the species Native to Colorado (yes = 1, no = 0)
2. Does the species have full length foliate (yes = 1, no = 0)
3. What are the water needs of the species (low = -1, high = -6)
4. What is the foliage’s porosity (low =1, high = 3)
5. What is the foliage’s texture (porous = 1, coarse = 3)
6. Does the tree retain its foliage (yes = 1, no = 2)
7. What is the species lifespan (short =1, long = 3)
8. How drought tolerant is the species (low = 1, high = 3)
9. What is the species fertility requirement (low = -1 =, high = -3)
10. What is the species moisture requirement (low = -1, high = -3)
11. What is the species salinity tolerance (low = 1, high = 3)
26. Genus/Species Common Variety Ranking
Juniperus scopulorum Rocky Mountain Juniper Table Top Blue 16
Juniperus scopulorum Rocky Mountain Juniper Woodward 16
Juniperus osteosperma Utah Juniper VNS 15
Pinus ponderosa Ponderosa Pine VNS 15
Cercocarpus ledifolius Curl Leaf Mountain Mahogany VNS 14
Pinus mugo Mugo Pine Mops 14
Pinus mugo Mugo Pine White Bud 14
Pinus mugo Mugo Pine Slowmound 14
Pinus mugo Mugo Pine Pumilio 14
Pinus mugo Mugo Pine Big Tuna 14
Cercocarpus montanus Alderleaf Mountain Mahogany Montane 13
Pinus edulis Pinyon pine VNS 13
Pinus flexilis Limber pine VNS 13
Pinus flexilis Limber pine Vanderwolf’s 13
Pinus heldreichii leucodermis Bosnian Pine VNS 13
Pinus mugo Mugo pine Mugo pine 13
Pinus mugo Mugo pine Tannenbaum 13
Pinus nigra Austrian Pine Hornibrookiana 13
Pinus sylvestris Scotch Pine Albyn Prostrata 13
Pyracantha coccinea Scarlet Firethorn VNS 13
Syringa reticulata Japanese Tree Lilac VNS 13
Picea glauca White Spruce Densata 12
Pinus sylvestris Scotch Pine Hillside Creeper 12
Pinus sylvestris Scotch Pine Glauca Nana 12
Pinus sylvestris Scotch Pine Pumila 12
Platycladus orientalis Golden Arborvitae Aurea Nana 12
Pinus densiflora Japanese Red Pine Umbraculifera 11
Pinus monticola Western White Pine VNS 11
Taxus cuspidata Japanese Yew Capatita 11
