Figures
Abstract
Background
One way to increase physical activity is to stimulate a shift from car use to walking or cycling. In single-purpose trips, purpose was found to be an important predictor of transport choice. However, as far as known, no studies have been conducted to see how trips with combined purposes affect this decision. This study was designed to provide insight into associations between combined purposes and transport choice.
Methods
An online questionnaire (N = 3,663) was used to collect data concerning transport choice for four primary purposes: shopping, going to public natural spaces, sports, and commuting. Per combination of primary trip purpose and transport choice, participants were asked to give examples of secondary purposes that they combine with the primary purpose. Logistic regression analyses were used to model the odds of both cycling and walking versus car use.
Results
Primary trip purposes combined with commuting, shopping, visiting private contacts or medical care were more likely to be made by car than by cycling or walking. Combinations with visiting catering facilities, trips to social infrastructure facilities, recreational outings, trips to facilities for the provision of daily requirements or private contacts during the trip were more likely to be made by walking and/or cycling than by car.
Conclusion
Combined trip purposes were found to be associated with transport choice. When stimulating active transport focus should be on the combined-trip purposes which were more likely to be made by car, namely trips combined with commuting, other shopping, visiting private contacts or medical care.
Citation: Scheepers E, Slinger M, Wendel-Vos W, Schuit J (2014) How Combined Trip Purposes Are Associated with Transport Choice for Short Distance Trips. Results from a Cross-Sectional Study in the Netherlands. PLoS ONE 9(12): e114797. https://doi.org/10.1371/journal.pone.0114797
Editor: Wen-Bo Du, Beihang University, China
Received: May 28, 2014; Accepted: November 13, 2014; Published: December 4, 2014
Copyright: © 2014 Scheepers et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Data Availability: The authors confirm that, for approved reasons, some access restrictions apply to the data underlying the findings. The data used in this study are available upon request. There are some legal restrictions preventing the publication of data as Supporting Information files or in a public repository, since data are from an existing online panel. This online panel is in the ownership of a third party (Ipsos (http://www.ipsos.com/)). For requesting the data the following persons can be contacted: info@rivm.nl (Centre for Nutrition, Prevention and Health Services), Wanda Wendel-Vos (wanda.vos@rivm.nl), Eline Scheepers (eline.scheepers@rivm.nl).
Funding: The authors have no support or funding to report.
Competing interests: The authors have declared that no competing interests exist.
Background
Physical activity is essential for improving and maintaining health. [1] Since even small increases can lead to health benefits, promoting physical activity is a public health priority. [2], [3] One way to increase physical activity is to exchange or supplement driving a car with activity like cycling or walking. Hence, stimulating active transport by encouraging replacement of short-distance car trips with cycling or walking has become a popular policy strategy. [4] However, as far as known, the short-distance car trip has not been defined. To give policy measures a reasonable chance of success, trips that may potentially be replaced by bicycle trips should not exceed a feasible cycling distance. A distance up to 7.5 km then comes to mind since it represents a maximum of 30 minutes of cycling at an average speed; a time-span that links up with physical activity guidelines. [5], [6] In 2007, 70% of all trips in the Netherlands were shorter than 7.5 km. Of these, 36% were made by car, 34% by cycling, and 27% by walking. [7] Altogether, it seems feasible, at least for the Dutch situation, to define short-distance trips as those up to a trip length of 7.5 km.
In previous analyses, we found trip purpose to be an important predictor for use of active (cycling/walking) instead of passive (car) transport. [8] Other studies have focused on motives for transport choice in the context of single-purpose trips. For example, Carse et al. looked at characteristics associated with choosing the car versus the bicycle for commuting to work, shopping and leisure trips. [9] Commuting distance, car parking availability, access to a car and lower education levels were found to be associated with using the car for commuting. For shopping and leisure trips, access to a car and a lower education level were associated with using the car. Panter et al. studied the likelihood of incorporating walking or cycling into car journeys for commuting purposes. [10] They found an association with having to pay for parking at work, having no car parking at work and having a supportive environment for cycling and walking on the route to work. Both studies focused on explanatory variables for transport choices for trips with a single purpose. In case of more than one purpose, the trip becomes more complex [11].
One behavior, such as commuting by car, may be integrally related to another, such as bringing children to school. In our opinion, these complex trips with more than one purpose may better represent daily routine and therefore it seems evident there would be a link between combining purposes and transport choice. Few if any studies have been conducted on this association, yet insight is of interest since it will enable policy makers and developers of intervention measures to design strategies to stimulate active transport since probably other aspects should be taken into account when focusing on these combined trips than when focusing on trips with a single purpose. The current study was designed to provide insight into associations between combined trip purposes and transport choice, particularly taking into account active (cycling or walking) versus passive transport (car) and identify combined purposes that were more likely to be made by car.
Methods
Data collection
This study is part of the AVENUE project. An online questionnaire was used to collect data concerning transport choice (car, cycling, walking) for four primary trip purposes: shopping, going to public natural spaces, going to sport facilities and commuting. These four purposes were chosen since it was expected these purposes are of interest to policy makers and developers of intervention measures since they imply a clear set of stakeholders and partners involved in case an intervention or policy measure in this domain is considered.
Per combination of primary trip purpose and transport choice, participants were asked (4-point scale: ‘always’, ‘often’, ‘sometimes’, ‘never’) how often their transport choice for the primary trip purpose was influenced by the ability to combine trip purposes. If they answered ‘always’, ‘often’ or ‘sometimes’, they were presented with an open-ended question asking for examples of secondary purposes that they combine with a particular primary purpose (given the particular transport choice for that primary purpose).
Data collection was conducted over one calendar year, starting July 2012. Since an IRB approval is only needed when daily life of participants if influenced or participants should perform specific actions an IRB approval was not warranted and therefore not obtained.
Study population
The study population consisted of an internet panel (N = 35,000) representative for the general Dutch population. From the panel, a random selection was made of persons at least 18 years old, since this is the minimum age to get a driver’s license in the Netherlands. Of this random selection, 8,813 participants were invited to participate in this study and received an email with a link to the questionnaire. Participants were considered eligible for the study if: 1) they were sufficiently healthy (not hampered) to use at least one of the three transport modes; 2) they made at least one short trip (max 7.5 km) a week using at least one of the transport modes; and 3) they were accustomed to travel up to 7.5 km directly from home for at least one of the four primary trip purposes. Only persons meeting all criteria received the remainder of the questionnaire. A total of 3,663 persons completed the questionnaire (response rate: 42%). Data were anonymized prior to the moment that the authors received the dataset from the owner of the internet panel and the authors did not have access to any identifying information.
Data analyses
For every primary trip purpose, respondents were classified into one of three transport groups based on their preferred transport choice: car users, cyclists, and walkers. Their preferred choice was inferred from their frequency of using the car, cycling, or walking. When persons used two or more transport modes equally, they were categorized as a car user if one of the transport modes was a car, and as a cyclist in all other cases.
Answers to the open-ended questions concerning secondary trip purposes were coded acording to the code list from Mobility Research Netherlands. [12] Each code represented an activity on destination (e.g. shopping, sports, recreational outings). If a participant’s answer did not fit an existing code, a new code was created (Table 1). A few terms may need explanation. Shopping refers to all kind of shopping and does not distinguish between food shopping and other types. Catering facilities are those that serve food and/or drinks in public spaces. Social infrastructure refers to facilities like a library. Recreational outings include walking or cycling for its own sake or making a trip or excursion. Provision of daily requirements refers to such activities as going to a bank or post office. When a correlation of 0.50 or higher was found between two secondary trip purposes, only the secondary purpose was included in the analysis which included the largest part of the other secondary purpose. For example, walking the dog nearly always doubled with making a recreational outing, whereas a larger number of individuals that made a recreational outing were not walking the dog. In this case, only recreational outings were included in the analyses.
According to the literature, gender, age, educational level, household composition, neighbourhood typology and season are potential confounders for the association between trip purpose and transport choice. [13]–[16] To correct for neighbourhood typology, the dataset was merged with a dataset from ABF Research (2009). [17] Information concerning the other confounders was gathered by questionnaire or was already available from the internet panel. Base models included: gender: male/female (reference); age; educational level: low, medium, high (reference); household composition: living alone, with a partner, with children younger than 18 years, with other adults (parents, children 18 years and older, or other adults; reference); neighbourhood typology: urban-centre (reference), urban-outside centre and urban-green, village-centre and rural; and season: winter, spring, summer, autumn (reference); Regarding educational level, “low” was defined as primary school and lower general secondary education; “medium” as intermediate vocational education, higher general secondary education, and pre-university education; and “high” as higher vocational education and university (reference). The two base models were run separately for all four primary trip purposes. Per primary trip purpose, a secondary purpose was added to the base model.
Base models
To characterize the study population, percentages of men and women, mean age, categories of educational level, household composition, neighbourhood typologies and season were calculated. Independent t-tests and Pearson’s chi-square tests were used to test for potential differences between men and women. To investigate the association between combined trip purposes and choice of transport, logistic regression analyses were used to model the odds of cycling versus car use and to model the odds of walking versus car use. For these statistical analyses, SAS 9.3 was used.
To be included in statistical analyses, participants should have indicated, for at least one primary trip purpose, that their transport choice was influenced by a secondary purpose. Of the 3,663 participants who completed the questionnaire, 2715 (74%) indicated this was the case, and 2311 (63%) filled in one or more examples of secondary purposes. To be qualified as a secondary purpose, a purpose had to be mentioned at least 10 times (as combined with a primary trip purpose) by car users and by cyclists and/or walkers (Table 1). Furthermore, participants were excluded from analyses if they had missing values on one or more confounding variables. Ultimitaly, statistical analyses included data concerning 2301 respondents (Figure 1).
Results
Table 2 shows the characteristics of the study population (N = 2301). The study population consisted of slightly more women (53%) than men (47%). Significant differences between men and women were found for age (p = 0.004), educational level (p<0.0001) and the primary trip purpose commuting (p = 0.0005).
Table 3 shows the odds ratios (OR) and their 95% confidence intervals (CI) for the secondary trip purposes associated with transport choice per primary purpose. The remainder of this section will address results separately for the four primary purposes.
Shopping
Persons who combined shopping with commuting (OR = 0.61, 95%CI: 0.43–0.85), other shopping (OR = 0.57 95%CI: 0.41–0.79), or seeking medical care (OR = 0.40, 95%CI: 0.22–0.71) were more likely to use the car than bicycle. On the other hand, persons combining shopping with trips to social infrastructure facilities, recreational outings, or trips to facilities for provision of daily requirements were more likely to cycle than using the car. For walking vs. car use, it was found that persons combining shopping with commuting (OR = 0.28, 95%CI: 0.14–0.54), other shopping (OR = 0.43, 95%CI: 0.23–0.78) or visiting private contacts (OR = 0.36, 95%CI: 0.23–0.55) were more likely to use the car than go walking. Persons were more likely to walk than using the car when combining shopping with going to catering facilities, making recreational outings, going to facilities for provision of daily requirements or meeting with private contacts during a trip.
Public natural spaces
No significant associations were found for cycling vs. car use in trips to public natural spaces. Modeling walking vs. car use showed that persons were more likely to use the car when combining this primary trip purpose with shopping (OR = 0.38, 95%CI: 0.25–0.58) or visiting private contacts (OR = 0.29, 95%CI: 0.18–0.46). However, persons combining this primary trip purpose with a recreational outing were more likely to walk.
Discussion
Transport choice was found to significantly associated with several combinations of primary and secondary trip purposes. Main results were that primary trip purposes combined with commuting, shopping, visiting private contacts or medical care were more likely to be made by car than by cycling or walking. Combinations with visiting catering facilities, trips to social infrastructure facilities, recreational outings, trips to facilities for the provision of daily requirements or private contacts during the trip were more likely to be made by walking and/or cycling than by car.
Passive transport: car use
Car use for primary trips combined with commuting or shopping could be explained by the possibility of carrying heavy goods. [18] Additionally, a person’s type of employment could contribute to this choice of the car, since persons wearing a suit are less likely to cycle. [19] Another explanation for choosing the car could be distance to the next destination. In our previous study, where we looked at short trips made for shopping, commuting, taking or bringing persons or sports, we found that short car trips had a longer average distance (3.3 km) than short walking trips (0.8 km). [8] Due to these shorter trips, it becomes less likely a secondary purpose is on the same route as the primary destination for walking trips. Besides, additionally walking is more strenuous than using the car. Other factors that could explain choosing the car are speed, flexibility, personal space, and safety. [9] For the combination of sport trips with commuting, time constraints could also influence transport choice. Persons going to sport facilities before or after work might not have enough time to use the bicycle. Additionally, type of sport and its necessary clothing and equipment could lead to taking the car over the bicycle. Gyms (e.g. fitness clubs) are often located in town or village centres whereas sports clubs (e.g. hockey, tennis) often are located on the edge or outside an urban or residential neighbourhood. Since urbanization and displacement of sports facilities to the edges of cities may well impede physical activity, active transport could be encouraged by, for example, creating sports and exercise facilities within neighbourhoods [20], [21].
Active transport: cycling and walking
Persons combining primary trips with recreational outings were more likely to cycle or walk than using the car. Enjoying fresh air or health are reasons for choosing active transport over the car. [22] Shopping less heavy products when combining shopping with recreational outings could also explain this active transport use. The higher active transport use, when combining visiting public natural spaces with recreational outings could be explained by the possibility to walk the dog. Since a high correlation was found between walking the dog and recreational outings only recreational outings were included in the analyses. However, 72% of the persons who combined walking trips to public natural spaces with recreational outings also walked the dog. This in contrary to 50% making this combined trip by car.
Combinations of shopping with trips to social infrastructure facilities or facilities for provision of daily requirements were also more likely to be made by active transport. An explanation could be that these secondary destinations are often within walking distance from shopping facilities. Millward et al. showed that in Canada the most common walking trips to commercial destinations were trips to restaurants and bars, grocery stores, shopping centres and banks. [23] These destinations were within walking distance, since most walks were shorter than 600 m, and very few exceed 1200 m. Another explanation could be that these trips included small errands such as withdrawing money or posting a letter (i.e. provision of daily requirements).
Strengths and limitations
A questionnaire specially designed to investigate transport choice was used, enabling us to study transport choice and combined trip purposes in more detail than when using secondary data sources like Mobility Research Netherlands. In addition, data was collected for all days of a full year, enabling correction for seasonal influences.
Participants were asked about their addition of secondary purposes to primary purposes However, forty to sixty percent of the participants that gave some examples of these secondary purposes, answered that they only sometimes combine this secondary purpose with the primary purpose. In addition, the order in which these combined trips were made was not determined, nor was the distance of the secondary trips. Future research should focus on the distance and order of these combined trips as well as the frequency of combining these trips, since this information is needed to develop suitable policy measures.
The Mobility Research Netherlands coding list was used to code the secondary trip purposes and thereby contributed to the quality of the study. However, a limitation could be that multiple activities on destination were merged into several categories. For example “shopping” included shopping for groceries as well as clothes. Further research should separately examine these different kinds of shopping trips.
In the present study, the sample size was too small to allow stratification by, for example, gender or age groups. Additionally, since this study was a first exploration of the association between combined trip purposes and transport choice, the focus was only on the most important confounders. Other factors such as physical activity, health, satisfaction with the living environment, or owning a car could also affect this association. Future research should investigate the influence of other confounders as well as using larger sample size allowing stratification for potential interaction effects. In this study 2154 persons made short trips for shopping, which resulted in more answers on the open question concerning secondary purposes than for the other primary purposes. These larger numbers enabled us to analyze the association between combined trip purposes and transport choice for more combinations of trip purposes. Future research should also focus on these specific secondary purposes in combination with the other primary trip purposes.
Several secondary trip purposes were excluded for analysis because they were mentioned fewer than 10 times by the study population. For example, business trips were relevant for people using the car to commute. However, for walking and cycling this secondary trip purpose was not applicable and thus transport choice could be difficult to change. However, more information about these trip purposes is needed in order to develop suitable interventions and measures for stimulating active transport modes.
Finally, valuable information concerning transport modes used for several combined-trip purposes was gathered. However, no information was available on people’s motives for transport choices or their motives for making particular combinations of trip purposes. Future research is needed to elucidate these motivations.
Conclusion
Aim was to provide insight into associations between combined trip purposes and choice of transport choice. The results suggest that combined trip purposes should be taken into account when stimulating a shift from car use to cycling or walking. When stimulating active transport, focus should be on the combined trip purposes that were more likely to be made by car, namely trips combined with commuting, other shopping, visiting private contacts or medical care. However, more detailed information (e.g. motivations, trip characteristics) about these combined trip purposes is needed to allow development of suitable interventions or policy measures.
Author Contributions
Conceived and designed the experiments: ES MS WWV JS. Performed the experiments: ES MS. Analyzed the data: ES MS WWV JS. Contributed reagents/materials/analysis tools: ES MS WWV JS. Contributed to the writing of the manuscript: ES MS WWV JS.
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