Gardens in communities and on school grounds have made a tremendous resurgence over the past decade(Reference Ozer1). The practice of students participating in the gardening experience at school is not new; in fact, school gardens were introduced in the USA in the early 1900s(Reference Subramaniam2). By 1918 every state in the USA had at least one school garden and contributed to the production of food during the war effort. More recently, and concomitant with a powerful environmental movement and an appreciation of the concept of integrated learning, the notion of school gardens as a learning tool has taken hold and school gardens are gaining popularity throughout the USA and other parts of the globe(Reference Sherman and Muehlhoff3–Reference Somerset and Bossard5).
In 1995, under the direction of the then State Superintendent of Public Instruction, Delaine Eastin, the California Department of Education (CDE) launched ‘A Garden in Every School’ Initiative(6). This initiative encouraged schools to establish and sustain school gardens as a learning laboratory or outdoor classroom. The initiative was followed by the enactment of several Senate and Assembly bills (AB) for the implementation and sustainment of instructional school gardens; AB 1014, Instructional School Gardens (1999), formally established the Instructional School Garden Program in California. The impetus for the Governor's and Legislature's decision to promote instructional gardens stemmed from the body of research demonstrating the potential of garden-based learning for enhancing academic achievement and promoting school environments as a way of improving the health and well-being of individual students in multiple facets of healthy youth development(Reference Ozer1, Reference Subramaniam2, 4).
In addition to the impact on academic achievement, the CDE also acknowledged that gardens could provide opportunities for children to improve their dietary behaviours. This is of utmost importance since the rates of obesity among children in the nation are reaching epidemic proportions(7). Several nutrition experts have promoted the concept that schools can utilize gardens as a tool to promote healthy eating habits(Reference Birch and Fisher8). Indeed, there have been studies demonstrating that children participating in school gardening activities have improved preferences for and intakes of vegetables(Reference Morris and Zidenberg-Cherr9–Reference Parmer, Salisbury-Glennon and Shannon13). On the basis of the evidence that school gardens can play an important role in creating a healthier and academically improved school environment(Reference Murphy14), AB 1535, California Instructional School Garden Program (CISGP), was enacted in 2006 and authorized the CDE to award $US 15 million for grants to promote, develop and sustain instructional school gardens. In California, a school garden has been defined as ‘plants grown in the ground, in raised beds, in pots or in greenhouses in both classrooms or outdoors(Reference Graham, Beall and Lussier15).
The CISGP applications were available from February 2007 to April 2007. All public schools were eligible for the grant: $US 5000 for schools with 1000 or more students and $US 2500 for schools with fewer than 1000 students. The grant funds could be used for equipment, supplies and professional development but not for stipends for garden coordinators. All schools applied through their district office or county office of education. If they were a direct-funded Charter school, they could apply on their own behalf. Almost 40 % of all California schools applied (n 3849, 39·5 %) and $US 10·9 million was awarded. The majority of schools (88·9 %) applied as part of a school district. The grant funds were dispersed in January 2008.
The present study was designed to evaluate the effectiveness of the CISGP at assisting schools in implementing, maintaining and sustaining an academic school garden programme, determine how schools utilized the funding received and assess the impact of the California state budget crisis on the CISGP.
Experimental methods
Study design
A combination of formative and summative evaluation was used to determine the implementation and outcomes of the CISGP. A quasi-experimental pre/post-design was used to measure how schools implemented their programme and to evaluate each school's instructional garden-related goals by comparing what each school was able to accomplish with what they initially planned. The main outcome was utilization of the instructional garden for academic purpose. Only schools that applied for the CIGSP grant as part of a school district (88·9 %) were evaluated. The application period for the CISGP grants was February 2007 to April 2007. This was a non-competitive grant, meaning that all applicants that completed the School Site Information Form, hereafter referred to as the Garden Grant Pre-Survey (GGPS), were properly awarded funds from the CISGP. The mid-term survey was sent 14 months after the release of grant funds. The present study was approved by the Institutional Review Board of the University of California, Davis (UC Davis), with exempt status.
Survey development
All baseline information was collected from the GGPS, created by the CDE in collaboration with the Center for Nutrition in Schools, Department of Nutrition at UC Davis(16). The GGPS required each school site to answer eight questions. These questions assessed how the schools planned on utilizing funds, when the garden would be used, what subject areas would be taught using the garden, how many students would use the garden and what would be grown in the garden. The GGPS also contained a narrative section that allowed schools to briefly describe the projected use of funds.
The Garden Grant Follow-Up Survey (GGFS), a post-implementation survey, was developed to gather information about the schools’ accomplishments and assess the impact of the California budget deficit on instructional school garden programmes. The questions in the present survey were identical to those of the GGPS, with the addition of questions pertaining to the impact of the budget deficit on the programme. SurveyMonkey was used to create and disseminate the GGFS.
Survey distribution
To be included in the evaluation, the school site had to be part of a school district, had to provide a contact email and had to have a unique contact person; 3103 of the possible 3849 schools met these criteria. The GGFS was sent out in March 2009 after removing blocked and incorrect email addresses. A total of 1992 surveys were sent and 861 responded, resulting in a response rate of 43·2 %. Because of a lack of identification for 112 participants, only 749 schools could be matched to their GGPS when comparing corresponding answers (37·6 % response rate).
A modified Dillman's Tailored Design survey methodology was used to distribute the GGFS surveys through email: an initial pre-notice email was sent alerting school contacts about the upcoming survey and three additional emails containing survey links were sent over the next 3 weeks(Reference Schaefer and Dillman17). A final email was sent containing a link to the survey that allowed for a higher response rate.
Data transformation
The last question on the GGPS asked applicants to briefly describe the projected use of funds for their school. A random sample of forty narratives was taken and these narratives were analysed using constant comparative analysis, after which three new categories were created on the basis of common themes. The remaining narratives were classified into these categories and the three categories were used as the basis for the question on the GGFS aimed at capturing additional uses of grant funds.
Statistical analysis
Descriptive statistics were used to report frequency data from both the GGPS and the GGFS. McNemar's χ 2 test was used to compare dependent proportions between the GGPS and the GGFS. A P value ≤0·05 was considered significant. The Statistical Package for the Social Sciences statistical software package version 17·0 (SPSS Inc., Chicago, IL, USA) was used to analyse data.
Results
Utilization of funds: comparison between predicted and actual accomplishments
Although almost one-half of the schools (46·5 %) predicted that the grant would support the development of a new garden, only 35·3 % reported that it did (P < 0·001). Over half of the schools (52·9 %) predicted that the grant would support the sustained use of an existing garden; however, only 45·0 % reported that it did (P < 0·001). Over 40 % of schools (43·1 %) predicted that the grant would support the expansion of an existing garden, but only 37·5 % reported that it did (P = 0·01). Almost one-quarter of schools (23·0 %) predicted that the grant would support the revitalization of a garden not currently in use and 22·6 % reported that it did (P = 0·886). In addition, 2·3 % of schools said that the grant did not support anything since they did not have a school garden (Table 1).
N/A, not applicable.
Significant differences at *P ≤ 0·01 and ***P < 0·001 (McNemar's χ 2 test).
†Data from the Garden Grant Pre-Survey.
‡Data from the Garden Grant Follow-Up Survey.
Almost all schools (96·0 %) planned on using the school garden during academic class time, but only 79·2 % did so (P < 0·001). In addition, significantly fewer schools reported using the garden for instruction during lunch/recess time, or after school hours or before school hours (P < 0·001; Table 1). For almost all subject areas, significantly fewer schools than planned used the garden to teach academic subjects (P < 0·003). Agricultural studies was the only subject area that was taught using the school garden as much as predicted (P = 0·065; Table 1).
Additional utilization of funds
Data from the GGFS indicated that the funds from the CISGP supported the School Wellness Policy (30·4 %), teaching California State Content Standards (63·5 %), garden activities, clubs or fund-raising activities (88·9 %; data not shown). Almost two-thirds of schools (63·5 %) reported that they were able to utilize all of their grant funds. Some schools (19·3 %) received all of their funds, but had not utilized all of their grant funds at the time of the survey. Other schools (5·3 %) did not have all of their funds distributed to them, whereas others (3·2 %) did not have any of their funds distributed to them (Table 2).
Less than 40 % of schools (39·4 %) reported that they were able to accomplish all their goals for their garden with the funds they received. Approximately one-quarter of schools (25·9 %) reported that the funds they received were not sufficient to reach their gardening goals, and 15·6 % of schools that reported that the funds they received were not sufficient to reach their gardening goals acquired other sources of funding (Table 2).
Impact of the California budget crisis
Approximately half of the schools (50·4 %) reported that their school garden was not affected by the budget crisis. Over one-third of schools (37·8 %) reported that the budget crisis negatively affected their school garden. A very small number of schools (0·7 %) reported that the budget crisis positively affected their school garden (Table 3). Of the schools that were negatively affected by the budget crisis, 18·8 % lost funds for a garden coordinator, 49·8 % lost general funds, 27·0 % lost teachers committed to school gardens and 18·5 % lost community volunteers (Table 3).
†If the respondent marked, ‘The school garden has been negatively affected by the budget deficit’, they were directed to answer, ‘In what ways has your school garden been negatively affected by the budget deficit? Check all that apply’.
Discussion
Throughout the USA, gardening is becoming increasingly popular for a multitude of environmental, health and social reasons(18). This is evidenced by the expanding People's Garden Initiative supported by the US Department of Agriculture and the accompanying People's Garden School Pilot Program(18, 19). Other organizations provide grants to support child-centred garden programmes; one such programme is the Youth Garden Grants disseminated by The National Gardening Association (NGA)(20). This programme provides $US 1000 ($US 500 gift card to the Home Depot and a $US 500 gift card to the Gardening with Kids catalogue and educational materials from the NGA) to five organizations and a $US 500 gift card to the Home Depot to ninety-five organizations and provides highlights of their evaluation. This programme is fundamentally different from the CISGP in terms of the funding source: private companies. Utilizing a private funding source allows Youth Garden Grants to ensure that funding exists and that it will be disseminated appropriately to all recipients, something that was not observed for the CISGP.
As gardening programmes at the government, community and school level increase, it is imperative to disseminate evaluations of previous programmes to allow other funders/participants to be as informed as possible to foster success. This evaluation suggests that the CISGP had mixed results in assisting schools in implementing, maintaining and sustaining a school garden programme.
Many factors impact the success of a grant programme. During the time period when schools utilized their grant funds (2007–2008 and 2008–2009) the state of California was confronted with a severe budget shortfall. Partial funding was removed from all state programmes, including education. Schools were forced to make drastic changes to their budgets, and many programmes that were perceived to be expendable were removed. The CISGP grant programme was implemented during a time when the California state budget had a surplus of over $US 9 billion(21). When the applications were processed and money released to the schools, the state budget was in a deficit. In addition, the grant funds were sent to the district offices to be distributed to schools. However, California Senate Bill X3 4(22), passed on 20 February 2009, allowed district offices to utilize the monies for instructional purposes, regardless of their intended purpose. Some school districts did not disperse all grant funds to their schools and not all schools received all of their funds. In addition, schools reported that the funds that they did receive were not sufficient to achieve their gardening goals.
In addition to the direct impact of the budget deficit on the dissemination of grant funds, many schools reported that their school garden programme had been negatively affected by the budget deficit. It is important to mention that only schools that planned to revitalize a garden not currently in use achieved that goal, and suggests that environmental barriers may exist in schools in which there has never been a school garden and that the funding provided was not enough to overcome those barriers. It is also possible that those schools that planned on revitalizing unused gardens had more realistic expectations. Although it may not be possible to tease out the impact of the budget shortfall or the insufficiency of the grant amount, it is paramount to recognize that the effectiveness of the CIGSP was impacted significantly.
Results from the present study indicate that schools were, in general, not able to accomplish what they had predicted with regard to the utilization of their school gardens. However, many schools were able to implement the creation of new and revitalized school gardens and sustain them for the duration of the evaluation. Many schools did utilize their school gardens for academic instruction, but not as frequently, nor did they teach as many subjects as predicted. Almost 80 % of schools (79·2 %) used their gardens during academic class time, although 96 % predicted that they would. Although not all schools were as successful as they had predicted, the CISGP was successful in increasing the number of gardens used for academic instruction. One possible reason for the lower than expected utilization is that the individual originally in charge of these programmes may have been removed from that position. Only agricultural studies was taught as frequently as predicted. This may be due to the fact that many junior and high schools have agricultural programmes that are part of the standard curriculum and may not have been impacted as much as other academic garden programmes. In summary, the difference between proposed and achieved garden goals may be due to the budget shortfall or insufficiency of the grant award amount, or due to a combination of both.
Acknowledgements
Funding for this project was partially provided by the California Department of Food and Agriculture Specialty Crops Grant Notice of Funding Availability no. 07-0135 and by the Gustavus and Louise Pfeiffer Research Foundation. The authors have no conflict of interest to declare. E.M. and D.L.B. assisted with the creation of survey tools; E.L.H. assisted with data collection and analysis and with manuscript preparation.