Multimodal Corridor Planning
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- Last Updated on Wednesday, 11 March 2015
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Transit is a modal choice that can increase our transportation system's capacity and at the same time provide additional choices for travelers while furthering the region's progress towards creating great streets. A highly-functioning transit system often solves many of the questions raised by the competing interests of vehicular roadways, pedestrian facilities and bicycle facilities.
Achieving the balance between mobility for pedestrians and vehicular traffic, access to adjacent land uses, and safety for all travelers requires thoughtful implementation of transit and a development plan that supports the use of MetroLink light-rail, MetroBus and the supporting modes of access to the transit system, such as bicycle and pedestrian facilities and Park-Ride lots.
Transit ridership is on the rise in the St. Louis region and across the country. The recent opening of the MetroLink Cross County extension and an increase in transit-oriented development points to a growing demand for transit services. Transit is an integral component of St. Louis' Great Streets.
MetroLink is the backbone of the St. Louis regional transit system. The Forest Park station acts as the hub of the MetroLink system, which extends east to downtown and Illinois, and west to Lambert International Airport.
The most recent extension line, known as the Cross County extension, runs from Forest Park west to Clayton, then south to Shrewsbury (see the MetroLink map for details).
The MetroBus service augments MetroLink with over # service miles per year throughout the region. It extends the reach of the light rail service into communities not located directly on the rail line.
Transit adds capacity to an arterial street system without widening the street itself (although some transit solutions, such as bus-only lanes, may require widening of the street). Bus service can reduce the number of single-occupancy passenger cars on the street, resulting in better vehicular operations overall. Current studies show that a full MetroLink train in St. Louis removes an average of 125 vehicles from the regional road network during rush hour; a full bus removes an average of 40 cars during rush hour. Increasing ridership on our light rail and bus system reduces congestion on our regional road network.
Dedicated bus lanes and/or Bus Rapid Transit should be considered in arterial corridors for long range person movement capacity. Transit measures such as these are especially effective in areas with high-density land uses that can produce stable and consistent ridership.
Arterial corridors with heavy through-traffic having destinations beyond a downtown area, for example, are also great examples of corridors that should consider placing a higher priority on bus lanes.
Not only does transit reduce congestion, but it yields a variety of other benefits as well:
Cars in St. Louis release approximately 247,000 pounds of pollution each day into the region's air. Fewer cars on the road translate into cleaner air for our region.
- Traveling by MetroLink or the bus saves the average commuter about 200 gallons of gas a year. When you also consider 'wear and tear' costs and parking costs, the average commuter could save approximately $1,500 per year by taking transit.
- There are also health benefits that can come from transit use. Traveling via transit usually requires a larger degree of walking between destinations and mode transfers. Such activity offers health benefits to counteract the sedentary office environments typical for the general work force. Studies have shown that our nation's population is increasingly plagued by obesity, a major health risk and economic burden on the healthcare system. Incorporating more daily activity via transit into the lives of busy working adults can be a simple measure to help combat this growing health problem.
- Transit commuting can provide an opportunity for commuters to do things other than driving during their daily commutes. One need only take a ride during rush hour to see the multitude of activities in which commuters engage: reading, listening to iPods, sleeping, working on a laptop, or socializing with other passengers.
Transit-oriented development (TOD) is an ideal way to support both the public investment in transit infrastructure and the places surrounding transit stops.
TOD can occur in a variety of forms, from new construction in an undeveloped area to infill of existing land uses surrounding a new or existing transit stop.
This type of development is often high-density, mixed-use, and provides a variety of services for both those using the transit facilities and those living in the nearby neighborhoods.
In addition, the development takes special consideration of design elements that support transit, such as a high level of pedestrian and bicycle access and amenities. A variety of such development is happening along the St. Louis transit system.
The relationship between transit and adjacent land use is a powerful one and when planned appropriately, supports transit ridership and economic development simultaneously. Great Streets with transit-oriented development are the building blocks of great neighborhoods, and great cities. See the Choices & Guidelines section of this guide for more information on the various design elements that contribute to Great Streets.
The presence of any form of transit increases the presence of pedestrians. Providing safe, efficient, and attractive accommodations for pedestrians waiting at transit stops, transferring between modes, and walking between adjacent land uses and transit services is a vital design element in promoting transit as a desirable modal choice.
Key points to remember when designing streets to promote transit use:
- Provide good pedestrian and bicycle connectivity between transit stops, along the street and nearby neighborhoods. Continuous sidewalks, bike lanes, and ADA provisions are vital. Pedestrian crossings need to include appropriate signals, signage and lighting.
- Secure, visible bicycle parking at transit stops can encourage users from greater distances to choose transit for commuting, errands, and other general purpose trips. Front end bicycle racks on buses, like those provided on most MetroBus, should be highlighted.
- The movement of transit users as they transfer between bus and light rail should be anticipated and accommodated to facilitate safe and efficient movement. MetroLink transit stations are often located below or above street level. Safe pedestrian crossings within close proximity are important to discourage jay-walking. Jay-walking can be a particular problem for passengers transferring between modes. Increasing light-rail and bus frequency at key times and locations can also alleviate this pattern. When pedestrians know that the next bus is only a few minutes away, they are less likely to make the "mad dash" to catch a bus about to depart.
- Clear, concise signing is very important in directing pedestrians to, from, and between transit modes. Signing facilitates the use of crosswalks, pedestrian signals, bus shelters, and other various passenger amenities by informing user how to access those amenities.
- Bus drivers and train conductors can help to inform passengers of transfer options and how to access them. This greatly enhances the flow of passengers as well as the user experience.
- Pedestrian-scale lighting is necessary for visibility and security. Pedestrians will be reluctant to rely on transit after dusk if sufficient lighting is not provided.
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Great streets not only move traffic, but also serve as public places supportive of a variety of activities. Quality environments are created when right-of-way is appropriately allocated to accommodate all modes of travel and create comfortable and enjoyable public spaces.
Creating a safe and inviting pedestrian environment entails more than just providing sidewalks - it is important to recognize that people walk for different reasons in various types of places, and that a number of specific components influence the pedestrian-friendliness of an area.
Reasons People Walk
The five basic types of walking include:
Utilitarian Walking - People walk to destinations such as work, school or shopping areas. Most auto and transit trips include utilitarian walking to reach the final destination.
Rambling - People ramble as a recreational activity, typically for exercise or enjoyment. Rambling may include walking the dog, pushing a baby carriage, jogging, or walking briskly for exercise.
Strolling/Lingering - In certain settings, people stroll and linger. They may stand on the sidewalk and talk with others they meet, sit on a bench, or people-watch during an outing.
Promenade - People walk to be seen and interact with other members of the community (e.g. high school students who promenade in groups in shopping malls).
Special Events - People walk at farmer's markets, public concerts, parades, arts festivals and other community events.
Types of Pedestrian Environments
Walking environments can be divided into four basic categories based on pedestrian-friendliness:
Pedestrian Intolerant Environments - Walking is unsafe and unattractive in these environments, as shown in the image below, at left. Examples include freeway corridors, certain industrial or extraction land uses, landfills, and major thoroughfares lacking continuous sidewalks. A major characteristic of pedestrian intolerant environments is that they lack pedestrians, either due to a lack of pedestrian accommodations and/or dominance by auto traffic and auto-oriented land uses.
Pedestrian Tolerant Environments - These environments provide pedestrian facilities, but at a minimal level of accommodation, as shown in the image below, at right. Walking is technically safe (there are continuous sidewalks and reasonably safe street crossings), but land use patterns generate very little walking activity. Arterial street corridors, remote or rural thoroughfares, and certain light industrial or warehousing areas will attract limited amounts of utilitarian walking, and will not appeal to recreational walkers or strollers.
Pedestrian Supportive Environments - These are well-designed residential areas, commercial and employment centers, parks, and recreational areas, as shown in the image below, at left. Sidewalks are continuous and buffered from streets, and wide enough for passing or walking side by side. Land uses are dense enough to attract utilitarian walking trips or recreational walkers and joggers. Streets are abutted by buildings, not parking lots, and adequate street crossings are provided.
Pedestrian Places - These districts have mixed land uses, moderate to high densities, good transit service, and extensive pedestrian amenities, as shown in the image below, at right. People will walk for utilitarian and recreational purposes. Pedestrian Places feature people of all ages moving between multiple activities. Typically, at least three unique, highly identifiable areas such as outdoor seating, a water feature, public art, or pedestrian-oriented shopping will be located in close proximity.
Components of the Pedestrian Environment
The majority of pedestrian environments are mostly contained by thoroughfare right-of-way. Although pathways through parks and open space and short mid-block connections in downtown neighborhoods function as pedestrian environments, the principal infrastructure for walking will always be the street system.
The roadway corridor, pedestrian realm, and adjacent land uses are crucial elements in the design of pedestrian environments in all place types.
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The Roadway Corridor Creating good pedestrian environments requires careful attention to the design of thoroughfares, the allocation of space within street rights-of-way, the spacing, length and treatment of street crossings, and intersection signal timing. In general, higher adjacent traffic volumes moving at faster speeds on wider thoroughfares create less pedestrian-friendly conditions.
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The Pedestrian Realm Also referred to as the roadside zone, this area includes both the sidewalk and the buffer zones on either side that separate the walkway from motor vehicle traffic and link the walkway to adjacent properties. Greater separation from the street is generally provided where higher vehicular travel speeds are present, and additional walkway width in areas with more pedestrian traffic.
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Adjacent Land Use Sidewalks alone do not create a pedestrian destination. A combination of residential, lodging, retail, restaurant, civic, or employment uses must be present within a contiguous area to draw a significant pedestrian presence. Attractive pedestrian environments include buildings with numerous doors and windows framing the street, a fine-grained street grid, and parking located on-street or internal to the block.
Components of the Pedestrian Realm
The two most obvious characteristics of sidewalks are: how wide they are and how that width is used. However, there are many other important characteristics, including shade, separation from the street, urban scale and so forth. The graphic image at right shows the principal parts of urban sidewalks (the pedestrian realm). Good sidewalks are as much about the orderly arrangement of these parts as they are about width.
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Planting Strip/Furnishings Zone. This is the area between the edge of the sidewalk (usually a curb) and the walkway. In most of the place types – Downtown Main Street, Mixed Use District, Small Town Downtown, and Neighborhood Shops – this area is called the “furnishings strip” and should be paved. This is the proper place for above-ground utilities – light poles, fire hydrants, signal control boxes, parking meters, etc. – and for various amenities – benches, newspaper boxes, street trees (in tree wells), bicycle parking, etc.
In single-family detached and other types of low density Residential Neighborhoods, this zone should be designed as a “planting strip” or “parkway” and should be landscaped with ground cover vegetation and street trees. In higher density Residential Neighborhoods with multi-family housing and in the Office Employment Area, Civic/Educational Corridor and Commercial Service Corridor place types, the choice of whether to provide an urban sidewalk with a paved furnishings zone or a suburban sidewalk with an unpaved planting strip should be based on the ground level land use and other considerations such as overall density.
This zone of the pedestrian realm performs a number of key functions. Obviously, it provides space for furnishings, above-ground utilities and street trees. However, it also provides space for snow storage in the winter (so that plows don’t cover sidewalks when they are clearing streets). It separates the pedestrian walkway from moving traffic in the street, increasing pedestrian comfort and safety. Finally, it allows the walkways to be lined up with appropriately placed curb ramps and crosswalks at intersections.
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Walkway. This is the primary area allocated to walking. Pedestrians can be in the furnishings zone and in the setback area, but most linear walking will occur in the walkway part of the sidewalk. This area should be paved in all of the place types. Recognizing that walking, especially strolling and lingering, is a social activity, the clear zone will vary in width depending on place type and intended levels of pedestrian use. This zone is typically included as part of the street right-of-way, but is may be located on public right-of-way, adjacent private property, or a combination of both to provide the necessary width for an unobstructed walkway in urban areas.
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Frontage Zone. Also known as the setback zone/adjacent land use, most pedestrians do not feel comfortable walking immediately adjacent to a building, wall, or fence. Instead, they tend to keep some "shy distance" away from the adjacent vertical structure. This space is called the building frontage zone, and accommodates protruding architectural elements, stoops, opening doors, vegetative planters, sidewalk displays, window shopping activities, etc.
The frontage zone is typically located on private property, but may extend into the street right-of-way. Many cities regulate how far from this line buildings should be placed (set back). In traditional suburban style ordinances, large setbacks are required and often this area is required to be landscaped. That approach can be appropriate in the Residential Neighborhood, Office Employment Area, Civic/Educational Corridor and Commercial Service Corridor place types, although that will tend to “lock in” a degree of suburban character that can be difficult to “urbanize” later.
In the Downtown Main Street, Mixed Use District, Small Town Downtown, and Neighborhood Shops place types, most modern ordinances require a “build-to” line rather than a traditional setback zone. In these places types, this area should be paved and should serve functionally to extend the practical width of the sidewalk and also as an area suitable for sidewalk seating at restaurants. In some cases, placement of small amenities and furnishings in this area can also be appropriate.
Width and Space Allocation
The proper amount of street space to be allocated to the pedestrian realm varies depending on a number of factors, including the place type, the overall width of the street, the urban scale, and other local characteristics such as climate, drainage system type, and existing building placement.
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Planting Strip/Furnishings Zone. This area should generally be between five feet and eight feet in width. Considerations in determining desirable width of the planting strip/furnishings zone include:
- There should be enough space to provide for natural irrigation of street trees and accommodation of tree root balls.
- This zone should not be inappropriately wide relative to the overall width of the pedestrian realm. Generally, it should not be wider than the walkway zone. In areas where existing conditions force a narrow pedestrian realm, the furnishings zone may have to be proportionately narrower, but should not be less than three feet in width.
- In suburban and low density corridors (the Residential Neighborhood, Office Employment Area, Civic/Educational Corridor and Commercial Service Corridor place types) this zone should be landscaped.
- Narrow sidewalks attached to the curb should be avoided in all place types.
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Walkway. The width of this area should vary with the place type. Walkways can be too narrow, obviously, but can also be too wide. Recommended widths by place type are shown in the table below. Note widths shown are the sum of two walkways – one on each side of the street
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Frontage Zone. Also known as the Setback Zone and/or Adjacent Land Use, this area should generally be kept narrow on streets where adequate width has been achieved for the furnishings “zone/planting strip” and the “walkway.”
However, where the public right of way width is too narrow to allow adequate sidewalks, the difference can and should be made up in the setback zone. In such cases, the setback zone can be used to provide a wider walkway. Considerations in determining desirable width of the setback zone are shown in the table below.
Examples. Many urban sidewalks suffer as much from inappropriate placement of objects and inappropriate allocation of space as they do from inadequate width.
The photo below, at left (from the St. Louis region), shows an instance where an inadequate sidewalk is compounded by the inappropriate placement of utilities and careless handling of grade. In all of the more urban place types (Downtown Main Street, Mixed Use District, Small Town Downtown, and Neighborhood Shops) the ground floor of adjacent buildings should match grade with the sidewalk.
The photo below, at right (from Oahu), shows what happens when cities impose suburban standards in urban settings. The planting area between the sidewalk and the building was required by the City of Honolulu because the right of way line ends at the edge of the small green lawn and the buildings have been set back according to minimum setback requirements.
Honolulu ordinances require this setback area to be landscaped, not paved. As a result, the businesses along this street in Kailua (Small Town Downtown), which include an ice cream shop, a restaurant and small retailers, are denied use of the setback area for sidewalk seating and the walkway width is inadequate for this place type.
The examples below show two streets with well-designed pedestrian realms. The photo on the left is East Pearl in Boulder (a Downtown Main Street). The sidewalk is not overly generous in width but is adequate and the space is well allocated between the three zones of the pedestrian realm. The right of way line where the setback zone begins is discernible by the pavement joint about 18” from the building fronts.
The photo on the right is from Main Street in Longmont (Downtown Main Street). Here the sidewalk width is just right for the street. Furnishings are well-placed. Again, the edge of the public right of way is discernible by the change in paving type.
Pedestrian Planning for Civic/Educational Corridors
Place types in the educational category serve a range of pedestrians, from elementary school children to college students. Children ages 5-15 are the most vulnerable road users due to their lack of crossing experience, short attention span, and immaturity.
Areas within walking distances of all schools (typically ¼ - ½ mile, although many districts do not provide bus service within one mile of schools) should be designed to Pedestrian Supportive standards, with designated safe routes to school provided to encourage walking. Today, few children walk or bike to school, often due to safety issues and prohibitively long trip distances. In the absence of safe and direct routes, parental chauffeuring creates traffic congestion around schools and negatively impacts quality of life.
Safe Routes to School (SRTS) initiatives encompass a variety of improvements and should be implemented within neighborhoods to ensure that school children have safe routes to walk and bike to school. Continuous sidewalks, highly-visible marked crosswalks, and provisions for slowing traffic are engineering measures often promoted in SRTS programs with designated routes.
Safe Routes to School programs typically designed around the 5 E's:
- Evaluation
- Education
- Engineering
- Encouragement
- Enforcement
College and high school campuses typically have safe internal walkways, but street corridors accessing the campus also need to be developed to at least Pedestrian Tolerant standards. Ideally, these corridors should be Pedestrian Supportive environments that, in conjunction with ample transit service, encourage alternatives to single occupant vehicle trips and lessen parking demands at school sites.
Roadway Corridors providing access to schools will range from local streets to major arterials, with traffic volumes varying accordingly. In Missouri, speed limits of 25mph or less shall be enforced during periods of student arrival and departure. Design features that shall be used to control traffic at crossing locations include:
- School walking routes should be planned to take advantage of existing traffic controls.
- Crosswalks should be marked at signalized and stop-controlled intersections. At non-intersection locations, crosswalk markings should be used to legally establish the crosswalk. Transverse crosswalk lines may be used where Pedestrian Tolerant conditions are acceptable. Otherwise, for added visibility, the crosswalk should be marked with white diagonal lines or longitudinal crosswalk lines parallel to traffic flow.
- All traffic controls for school areas shall be in conformance with Part 7 of the MUTCD. <link>
- Traffic calming measures such as raised crosswalks and speed humps can be used to reduce vehicular speeds on local residential streets, and treatments that narrow the travel way can be used to reduce pedestrian crossing distance.
In addition to planting strips and continuous sidewalks, the Pedestrian Realm includes a multitude of small details children notice as they walk through their neighborhood.
- A grassy Planting Strip at least 5' in width shall separate the sidewalk from the street, ideally planted with street trees. Wider planting strips are desired along streets with faster traffic.
- Sidewalks at least 5' wide must be provided on both sides of arterial streets, and at least one side of local streets. Wider walkways may be desired in dense neighborhoods.
Land Use design considerations at school sites should prioritize the safety of pedestrians and bicyclists near motor vehicle traffic.
- School bus loading and unloading takes place on school property, off the surrounding street system. Bus drop-off zones are separated from auto drop-off zones to minimize confusion and conflicts.
- Parking is minimized. People are encouraged to walk to school.
- Buildings are accessible to pedestrians from all sides.
- Pedestrian walkways are clearly delineated from other modes of traffic through the use of striping, colored and/or lightly textured pavement, signing, and other methods.
- Crossing opportunities are strategically located and well-delineated with marked crosswalks at controlled intersections and/or mid-block crossings.
- Traffic Calming devices such as raised crossings, refuge islands, bulb-outs at crossings, neighborhood traffic circles, landscaping, etc. are installed near schools to slow vehicles.
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Planning for bicycles requires not only a knowledge base of facilities but also an understanding of bicyclists and how they use the transportation network. Bicyclists can generally be divided into two or three categories based on skill, experience, and age:
- Group A: Advanced - Experienced riders who are comfortable operating a bicycle under most traffic conditions. This group includes bicycle commuters, bike club riders, and other cyclists who follow the rules of the road and ride on roadways with no special accommodations for bicyclists. In most communities, Group A comprises a small segment of the population, but logs the majority of bicycle miles ridden.
- Group B: Basic - Casual or new adult and teenage riders who are less confident of their ability to operate in traffic without special provisions for bicycles. Some riders in this group will develop greater skills and progress to the advanced level, but nationally there will always be millions of basic bicyclists who prefer to have a clear separation between bicycles and motor vehicles.
- Group C: Children - Pre-teen cyclists who typically ride close to home under close parental supervision. Because basic riders and children may have similar needs, these groups are often combined as Group B/C.
Bicycle planning generally promotes a "design cyclist" concept that recognizes and accommodates the needs of both Group A and Group B/C bicyclists.
Group A cyclists are best served by making every street bicycle-friendly by removing hazards and maintaining smooth pavement surfaces. Group B/C riders are best served in when designated bicycle facilities, such as signed and striped bicycle lanes and off-road trails following waterways and other linear open space corridors, are provided in key travel corridors.
While sidewalks may be the best choice for the youngest riders, they are typically not included in bicycle planning as bicycle facilities. It is important to recognize that sidewalks are pedestrian spaces, and their presence is not meant to substitute for or preclude bicyclist use of the roadway.
Ideally, every place type should be accessible for all bicyclists, regardless of skill or comfort level. However, throughout the St. Louis region, existing development patterns have created places with varying levels of bicycle-friendliness - both in terms of the distance between destinations and the types of physical infrastructure provided.
Certain places, such as downtown areas and school sites, which serve as major community activity centers should be designed to accommodate and encourage bicycle access by the broader cross-section of the community represented in the B/C bicycling group.
Bicycle Planning along Civic/Educational Corridors
Civic and educational thoroughfares may vary in character, scale, speed and design but there are a number of key design elements that can make them great streets for bicycles.
Provide improved bicycle access for all categories of bicyclists. Civic and educational thoroughfares serve users ranging from students (of all ages), employees, and even tourists or recreational users. The opportunity to encourage cycling as a mode choice is significant because civic and educational institutions tend have large employee bases and can promote bicycle use to a large audience. Additionally, civic institutions may include local tourist attractions and can be well-paired with recreational opportunities. The nature of the bicycle access will depend on the vehicular speeds, available right-of-way, and other local context considerations.
Safe Routes to School (SRTS)initiatives encompass a variety of improvements and should be implemented within neighborhoods to ensure that school children have safe routes to walk and bike to school. Continuous sidewalks, highly-visible marked crosswalks, and provisions for slowing traffic are engineering measures often promoted in SRTS programs with designated routes.
Safe Routes to School programs typicallydesigned around the5 E's:
- Evaluation
- Education
- Engineering
- Encouragement
- Enforcement
Provide connections to existing bicycle lane network through civic/educational corridor. If bicycle lanes are present within the area, they shall be continued through the corridor. They should be a minimum of 4 feet wide measured from the gutter seam, or 5 feet wide measured from the curb face or adjacent on-street parking. Bicycle lanes shall be delineated on the pavement with a line 6 inches in width and appropriate pavement stencils identifying the space for bicycle use.
- If the transportation infrastructure and land uses in a corridor are being addressed to create trips of shorter length, provisions for on-street bicycle lanes should be made to encourage increased bicycle use and accommodate Group B/C riders.
- Various intersection treatments are available to accommodate vehicular turning movements while maintaining the integrity of the bicycle lane facility. It is generally appropriate to dash or drop the bike lane striping where merge movements will occur across the bicycle lane. See Chapter 9C of the MUTCD and the AASHTO Guide for the Development of Bicycle Facilities for specific guidelines.
- Road diets (the conversion of four-lane roadways to three travel lanes plus bike lanes) can be an appropriate method to create space for bicycle lanes when retrofitting corridors. Candidate streets will carry moderate traffic volumes, typically ranging from 12,000-18,000 ADT, and potentially as high as 20,000-25,000 ADT.
Whenever possible, accommodate bicyclists on smaller scale thoroughfares. Major arterial thoroughfares with standard 12' lanes, heavy traffic volumes, and higher travel speeds create stressful riding conditions for even the most experienced bicyclists. Secondary streets that intersect with employment, commercial and industrial environments are good candidates for unimproved, shared bicycle routes, but only if they provide connectivity and the bicycle users are capable of safely crossing arterial streets at signalized intersections or grade-separated crossings. On-street bicycle lanes may be warranted in these corridors if traffic volumes are high.
Eliminate bicycle hazards. Hazard removal shall be implemented on all roadways open to bicycle travel. Hazard removal includes providing bicycle-safe drainage grates, smooth pavement, bicycle-safe railroad crossings, and traffic signals that respond to bicycles.
Design access appropriate to the type of development. The nature of development along civic/educational corridors may range from suburban to fairly urban. Bicycle access therefore may take the form of shared lanes with traffic, bike lanes or possibly, multi-use paths with an open space corridor. Side paths shall only be considered when adequate right-of-way (18' minimum) is available and intersections are limited (generally less than six commercial driveways or streets per mile) due to numerous operational problems and safety conflicts that can occur with this facility type.
Provide bicycle parking Bicycle parking should be provided in all employment, civic and commercial centers following guidance established by the Association of Pedestrian and Bicycle Professionals (APBP). The preferred rack type is the inverted U, shownat right,which may be dispersed throughout a site with multiple small buildings, or clustered in designated rack areas in front of large buildings. Parking racks should function so that the top tube of a bicycle can be placed flat against the face of the inverted U. For this reason, connected inverted U's (looking more like M's) are not recommended.
Bicycle parking shall be located no further than 120 feet from the building entrance it serves, or as close/closer than the nearest vehicular parking space. Racks shall not block the through pedestrian travelway (a minimum 5' clear zone free from obstructions).