Frontiers Impacts of Outdoor Environmental Education on Teacher Reports of Attention, Behavior, and Learning Outcomes for Students With Emotional, Cognitive, and Behavioral Disabilities outdoor education academic articles Education

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In addition to addressing indicators of ECBD, teachers should consider outdoor EE a viable instructional strategy for science teaching, as it appears as least as effective in supporting science learning for students with ECBD than traditional science instruction. Elementary school teachers often feel challenged to differentiate their instruction in classrooms that include students with a range of academic and behavioral strengths, and these challenges are often exacerbated when teaching science . Opportunely, other studies have demonstrated that outdoor EE has led to gains in science knowledge for all students . In our study, those findings seem to hold true for ECBD students specifically, suggesting outdoor EE can help teachers supplement science instruction for all students using a single approach. Additionally, outdoor EE has been shown to positively impact science interest and efficacy . As nature of science, science efficacy and science grades appeared to remain stable in both treatment and control groups, outdoor EE instruction appears just as effective for students with ECBDs as classroom instruction in maintaining these measures. Since educators may cite concerns that outdoor EE may take away from instructional time , these results are particularly encouraging. Instead of taking away from instructional time, outdoor EE seems to contribute to sustaining science efficacy and performance, even at an age when interest in science tends to wane . Although some teachers are not aware that outdoor EE is effective , it can be as rigorous and effective as indoor instruction and has potential to improve test scores , 2005 ; McFarland et al., 2013 ). Future research is needed that focuses on students with ECBD to compare their progress with that of their peers when students experience more frequent outdoor EE. Additionally, as all data were self-reported, there are potential biases both from teachers and students. The researchers attempted to lessen this bias by not disclosing the specific details of this research apart from the larger program evaluation. However, teachers’ perceptions of factors beyond our control, such as the outdoors as a learning environment, could have influenced ratings of attention and behavior .
Funding was provided through Muddy Sneakers environmental education program.
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The Natural World as a Resource for Learning and Development: From Schoolyards to Wilderness View all 13 Articles
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Outdoor EE that targets science instruction may be an especially effective approach for integrating EE into curriculum while decreasing indicators of ECBD. Outdoor EE can integrate well with science instruction through its authentic environment and direct interaction with the outdoors. Building on Brown et al.’s situated learning theory, students’ learning can be enhanced by their engagement with topics such as ecosystems through direct interactions in the context of study . Science instruction in US classrooms is rarely situated in the outdoors, despite the noted benefits in both cognitive and affective domains for students when they learn outside . Research on EE programming has found that science efficacy, science knowledge, and science achievement improve for all students after the experience . Accordingly, outdoor EE may work to decrease indicators of ECBD as well as enhance learning, especially in science.
Teachers reported on student behavior, attention span, and academic achievement in science through teacher surveys administered before and after the EE program. To compare data over time while maintaining anonymity, all students were given teacher-generated, anonymous ID numbers. Teachers then utilized these ID numbers when filling out their surveys. We asked all teachers to rate each student’s attention span and disruptive behavior in their classroom at the beginning and end of the study period . In addition, we asked treatment teachers to rate each student’s attention and disruptive behavior for the outdoor EE program, including their expectations of student attention and behavior in the program and observed attention and behavior in the program by the end of the year . Teachers characterized students’ attention spans on each survey in a range from short to long ; and disruptive behaviors from frequent problems to none . This method of rating student attention and behavior is common practice in elementary school classrooms—especially for required documentation for ECBD student records —and has been used in numerous similar studies . We also asked teachers to report science achievement as traditional grades . Although rating this method likely allowed for variance among teachers , our analysis focused on changes over time, which relied on the same teachers assessing the same students over the course of the year. Teacher data were checked for errors by two independent researchers and cross-referenced with the teacher, if necessary.
Frontiers Impacts of Outdoor Environmental Education on Teacher Reports of Attention, Behavior, and Learning Outcomes for Students With Emotional, Cognitive, and Behavioral Disabilities outdoor education academic articles EducationFrontiers Impacts of Outdoor Environmental Education on Teacher Reports of Attention, Behavior, and Learning Outcomes for Students With Emotional, Cognitive, and Behavioral Disabilities outdoor education academic articles Education
Haney, J. J., Wang, J., Keil, C., and Zoffel, J. . Enhancing teachers’ beliefs and practices through problem-based learning focused on pertinent issues of environmental health science. J. Environ. Educ. 38, 25–33. doi: 10.3200/JOEE.38.4.25-33
As few studies exist investigating the potential benefits of outdoor EE on students with ECBD and none include a control group, the purpose of this study was to examine the impacts of an outdoor environmental education program on students with ECBD, utilizing a quasi-experimental design. Specifically, we tested the impacts of an outdoor-and science-based EE program on both ECBD students’ challenges to learning and learning outcomes during the 2016–2017 school year. We hypothesized that for students identified with ECBD, their participation in an EE program would: result in teachers reporting longer attention spans and fewer disruptive behaviors in a classroom setting compared to a control group; result in teachers reporting longer attention spans and fewer disruptive behaviors outdoors when compared to their attention and behavior in a classroom setting; and increase learning outcomes for students in the treatment group as compared to a control group.
Teachers administered online surveys in school during fall 2016 and the winter and spring of 2017. We provided each teacher with a survey protocol that they were asked to follow. This protocol had a script for providing instructions to students, information on helping students, and details on accessing and taking their own survey. In addition to surveys, we interviewed teachers to provide a rich picture of the students’ EE experiences during the program. We measured students’ science efficacy and the nature of science through a 14-item student survey , which drew on the S-STEM and NOSI-E instruments, respectively. Scales were edited to facilitate a shorter instrument and to better align with the EE program goals. We pilot tested the full evaluation in spring 2016 with 609 students and 31 teachers. Both scales were valid and reliable .
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Prior to attending the outdoor EE program, teachers reported moderate attention spans and low levels of disruptive behavior for their students in the classroom, as well as moderately high science grades . Among the treatment group, teachers expected shorter attention spans and more disruptive behaviors when students were learning outside. Student responses on the pre-test indicated relatively high levels of science efficacy and understanding of the nature of science . We found acceptable levels of reliability and validity for both the science efficacy and nature of science scales . We also note that there were no significant differences in pre-test scores for all student-reported variables between treatment and control groups. However, teachers reported higher levels on every measure for the treatment group vs. the control group on the pre-test scores . This may reflect a difference among teachers in appraisal of their students. However, our analysis related to hypothesis testing compared within group changes, with the same teachers assessing the same students at the time of the pre- and post-test, which should mitigate any challenges comparing treatment and control groups.
There are over 4 million students with reported emotional, cognitive, and behavioral disabilities in the United States. Teachers most frequently situate instruction inside, however, outdoor environmental education can improve academic and affective outcomes for many students, including students with ECBD. In North Carolina, U.S.A., an EE program utilizes outdoor science instruction for fifth-grade students. The program takes place over four to 10 full-school days across the year, and instruction occurs in both schoolyards and natural areas. The program aligns outdoor EE with state and national science education standards. Using a quasi-experimental design, the present study examined the impacts of the program on indicators of ECBD , science efficacy, nature of science, and academic achievement for students with ECBD. We measured these factors using online surveys from both students identified with ECBD and their classroom teachers, as well as students with ECBD from matched control schools and their respective teachers. Students in both treatment and control classrooms took the survey two times over the school year. Quantitative data revealed teachers perceived students had significantly improved attention spans and decreased disruptive behaviors when learning outdoors. Students in the treatment group maintained measures of nature of science, science efficacy and science grades, keeping in line with their peers in the control group. We supplemented survey data with teacher interview data about their impressions of the outdoor program and the experiences of their students identified with ECBD. Teacher interview responses supported quantitative findings. These findings indicate that outdoor EE has the potential to be at least as effective a method for science instruction as classroom teaching, and in the case of addressing indicators of ECBD, outdoor EE may be a successful strategy for student learning.
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RS was involved in study design, quantitative data acquisition, data analysis, and manuscript writing. SC was involved in qualitative data acquisition, data analysis, and manuscript writing. KS was involved in study design, quantitative data analysis, and manuscript writing.
One such creative way to reduce ECBD students’ challenges to learning includes time in the outdoors. Benefits of outdoor experiences have been explored most deeply in research on students with ADHD. Kuo and Faber Taylor, in particular, have researched this topic and have found green space to be highly beneficial for students identified with ADHD . In a 2004 nationwide study that collected parent ratings of their children’s experiences in green outdoor settings, researchers found that playing in green spaces significantly reduced symptoms of ADHD for youth of all income levels, locations, and community types . In a similar study, Faber Taylor and Kuo also found that for children with Attention Deficit Disorder and/or ADHD, their attention spans improved when they participated in routine play in green spaces. Furthermore, playing in open green spaces was more successful in reducing hyperactivity for students with ADHD than playing indoors or in built outdoor environments. Other researchers have found similar effects: green space near homes and schools is associated with improved concentration, better attention, and less hyperactivity among children . Other research has revealed the benefits of the outdoors for individuals with other forms of EBCD. For instance, Farnham and Mutrie found that outdoor education significantly reduced anxiety and improved trust and group cohesion for a range of students with mild to moderate learning disabilities. Similarly, Melber and Brown reported on the benefits of informal education for students who receive special education services, ranging from learning disabilities to motor impairment. Melber emphasizes that science taught with hands-on, inquiry practices such as in the schoolyard, are especially accessible to students with disabilities.
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Table 1 . Demographic comparison of treatment and control groups.
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We analyzed our data using Stata software, version 14.2. We relied on paired t -tests to compare changes over time within the treatment group and ANCOVA between the treatment and control group, respectively. We used these tests because they allowed for a direct comparison of individual students between their pre- and post-tests. As each student was compared against him-or herself, students not taking either the pre- or post-test due to school absences on the day teachers administered the surveys were not included in the analysis. Because of this, our final sample comprised 112 students, 80 treatment students and 32 control students. We compared students taking only the pre- or post-test to the rest of the sample and found no differences in terms of outcome variables.
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Received: 02 February 2018; Accepted: 31 May 2018; Published: 19 June 2018.
Figure 1 . Classroom and outdoor attention behavior among the treatment group. Teachers provided estimates of attention span and behavior levels from short to long and poor to excellent , respectively. Error bars represent standard error. Paired t -tests indicate that differences between the teacher-reported pre- and post-test scores for attention and behavior while outdoors were significant as well as differences between the post-test scores in the classroom vs. outdoor settings .
Keywords: environmental education, attention, behavior, classroom, schoolyard, learning impairment, disability
Our sample consisted of 161 fifth-grade students with ECBD in North Carolina, U.S.A. Students ages ranged from 9 to 12 years old, with a median age of 10 years old. We focused on fifth-grade students, since they are in the late stages of middle childhood and approaching adolescence -a critical period for developing ethical and ecological knowledge necessary for influencing environmental education outcomes, such as environmental engagement . We sampled in two stages: teachers, then, students. Treatment group teachers were recruited through an environmental education program in the southeastern U.S. . Control group teachers were randomly selected from a list of matched control schools in the same geographic area. Schools were matched by percent of free-reduced lunch, percent of students that were white, location , and by charter or traditional distinction. We then created a sample frame of schools associated with those matched schools and invited a random subset of teachers from those schools to participate. We contacted 263 teachers, and 63 teachers agreed to participate as control, representing a 24% response rate. As we contacted these teachers a few months in advance of the study, a subset dropped out of the study prior to the pretest due to switching grade levels, moving schools, retiring, or other reasons. Forty-two teachers participated in the pretest as a control. Teachers in both treatment and control groups were asked about students whose Individual Education Plans identify them as ECBD, and we included those students in this study. As we only included classes with teachers that that had identified students with ECBD, we had usable data from 14 teachers in the control group and 28 teachers in the treatment group. Although self-selection bias may exist among teachers, students should not be affected as students are assigned to teachers regardless of their environmental interests or attention and behavior. In order to establish that our sample was representative of the general student population in North Carolina, we compared our final sample of students with the North Carolina population of students with Individual Education Plans as a whole using z -tests for proportions of gender and a binary indicator of ethnicity . We found no significant differences . Of our sample, 33% students were female, 50% identified as non-Hispanic white, 11% as black, 4% as Hispanic/Latino, 2% as Asian/Pacific Islander, 13% as Native American, 16% as other, and 5% identified with two or more races. There were no differences in distributions of gender, race, or socioeconomic status across treatment and control groups . All students whose parents provided consent were included in the study.
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To gain further information on teachers’ impressions of the EE outdoor program and experiences for students in the program, we interviewed eight teachers who agreed to follow-up interviews in summer 2017. We recorded, transcribed, and coded teacher interviews to document their impressions of the outdoor EE program and its impact on their students, including students with ECBD, to enhance our understanding of the program experience for these students. Aliases were given to all teachers for the analysis and interpretation.
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The editor and reviewers’ affiliations are the latest provided on their Loop research profiles and may not reflect their situation at the time of review.
Table 2 . Item-level statistics for science efficacy and nature of science scales among students identified as ECBD .
We originally included a covariate for both taking students outside and amount of time spent outside during the school year . Fifty percent of control and 71% of treatment teachers reported that they took students outside during the school year. Both control and treatment teachers had similar rates of taking students outside . As there was no relationship between these indicators of time spent outside during the school year and learning outcomes , we omitted this in the final analysis of our results.
In our literature review, we located only two studies that have specifically examined how EE may be particularly helpful to students with ECBD. One such study focused on the effects of a garden-based learning program on students with disruptive behavior disorder in Spain. The year-long program had students working outside over half of their school hours and was purposefully hands-on and project-based. A 6-year analysis revealed that the intervention led to a significant decrease in dropout rates, a significant increase in classes passed, and an increase in overall behavior and attitude . In a study by Moore et al. , experienced EE practitioners took a class of students on an experiential nature hike where they used technology to engage with the outdoors. Researchers conducted additional interviews and observations of two students with ADHD. The study revealed that the students with ADHD had positive, enriching learning experiences; teachers noted these students had greatly improved their participation when compared to their participation in the traditional classroom. Additionally, these students, who typically fell behind in academic achievement, scored as well as their peers on the environmental knowledge assessment after the program. While these studies reveal a possible connection between outdoor EE and improved learning and behavioral outcomes, neither involved a control group.
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Environmental education may be a particularly promising strategy for helping ECBD students, as it has potential to combine time outdoors with instructional practices shown to be effective with ECBD students. The United States’ EPA defines environmental education as “a process that allows individuals to explore environmental issues, engage in problem solving, and take action to improve the environment” . EE is characterized by being inquiry-based, hands-on, experiential, and often, outdoors -which are all strategies that have been found to boost attitudes and learning among students with ECBD. In particular, the inquiry-based aspects of EE programming has been shown to improve learning outcomes for students with ECBD . EE programs for children can range from a single lesson in school to residential-weeklong experiences; they can even span the entire school year . Because of this variety of both program type and length, EE is uniquely situated to be flexibly integrated into education to increase both outdoor time and hands-on, inquiry-based instruction for students in schools.
Table 3 . Emergent themes from interviews with teachers.
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

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Interview data about teachers’ impressions of the outdoor EE program and experiences of their students with ECBD during the program are shown in Table 3 . An overall theme that emerged from one teacher interview was the “value of getting kids outside more.” Another teacher elaborated saying, “Children just don’t go outside anymore. My personal favorite thing is getting them outside and exposing them to doing something outside.” In line with hypothesis two—participation in the outdoor EE program significantly decreases challenges to learning —teachers saw students with ECBD become more engaged when learning outside: “They were attentive and fully interacted with the activities. They felt they were successful which does not happen much in the regular classroom.” Negative cases emerged as well. Some teachers reported obstacles to outdoor learning with the weather such as when was rainy or cold. Taylor described students’ distress when they were asked to spend outdoor time writing in their journals rather than moving and exploring. When asked what part of the environmental education program students disliked, Taylor described students’ initial complaints about physical activity that they clearly overcame. “The first couple of times when we were having to do all that walking…not being able to sit in front of something with a screen. They’re used to passive learning but by the fourth time they were sad and crying that it’s over,” thus emphasizing the impact of repeated, science-aligned experiences.
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Throughout the United States, there are 4 million public school students identified with emotional, cognitive, and behavioral disabilities . The phrasing “emotional/behavioral/learning disability” under the Individuals with Disabilities Education Act includes students with a variety of emotional, behavioral, and cognitive impairments-such as Attention Deficit Hyperactivity Disorder , autism, and dyslexia. While the number of students identified as ECBD in the United States has been on the rise since the 1970s , there have been variable efforts among states and school districts, both in terms of funding and training, to better assist these students . However, these students consistently lag behind their non-ECBD peers academically . This points to the need for creative ways to assist students who have been identified with emotional, behavioral, or cognitive disabilities, through reducing ECBD students’ challenges and increasing learning outcomes.
We appreciate the staff at Muddy Sneakers, their partner schools, field sites, and teachers and students who made this study possible.
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The EE program targets fifth-grade students and centers on essential state science standards for this grade level. The first lesson in the EE program is an introduction to outdoor learning. This introductory day highlights skills and safety procedures for outdoor learning, scientific tools and uses , and science practices. Subsequent lessons highlight North Carolina’s science standards that address the following topics: terrestrial and aquatic ecosystems; weather; ecosystem interactions; forces and motion; inheritances and adaptation; living systems; and matter and energy . Teachers choose from these topics to correspond with their scheduled science program to best supplement classroom instruction. The lessons last 4–6 h and typically involve a hike, a hands-on science experiment, science journaling, nature exploration, and group reflection. Students are split into small groups for each lesson, which are supervised by a chaperone and taught by the EE program instructor. The EE program instructors are all trained in hands-on, inquiry-based techniques and standards-based science content. Classroom teachers typically rotate between small groups within or between lessons.
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Ernst, J., and Tornabene, L. . Preservice early childhood educators’ perceptions of outdoor settings as learning environments. Environ. Educ. Res. 18, 643–664. doi: 10.1080/13504622.2011.640749
Our results related to students’ attention and behavior suggest that teachers of ECBD students should consider the outdoors as a useful setting to increase attention and diminish disruptive behaviors. Although teachers expected students to have difficulty paying attention and avoiding disruptive behaviors outdoors, they reported longer attention spans and less disruptive behaviors outdoors for these students by the end of the year. We offer three possible explanations. First, teachers may have expected short attention spans and disruptive behaviors outdoors prior to the program and were pleasantly surprised from the first day outside onward. Secondly, teachers’ perceptions of the behaviors themselves could have changed so that behaviors they previously considered disruptive were considered as acceptable or indicative of high engagement. These two explanations are plausible in the context of prior research reporting that few teachers perceive the outdoors as an acceptable location for formal instruction beyond the preschool years and teachers in both United States and in the United Kingdom have concerns about student behavior and classroom management when teaching outdoors . However, it is possible that teachers’ expectations at the beginning of the study period aligned with actual student attention and behavior, and both measures did actually improve over the course of the outdoor sessions with more exposure to outdoor EE. This third explanation aligns with past research on the effects of green space on students with ECBD, which suggests that time outdoors can improve attention and reduce hyperactivity . Our qualitative results show some evidence of each of these explanations, as some teachers expressed surprise at how engaged ECBD students were outdoors; others seemed to transform how they viewed behavior as appropriate or not; and others reported changes in the students themselves. Although teacher perceptions may have shifted rather than actual student attention and behavior, this perception shift is beneficial. Teacher perceptions can influence academic achievement well-into a student’s future , and a shift in perceptions around student attention and behavior outdoors may reduce any apprehensions around outdoor instruction. We did not find treatment effects associated with classroom attention and behavior, but future research should continue to examine the possibility that our findings may transfer to impacts in the classroom. As recent research finds increased classroom engagement after lessons in nature , future research may find similar trends among with ECBD, particularly with a larger sample size than our study. We suggest further research that replicates this study include more objective measures of student attention and behavior to further identify ways in which outdoor instruction may relate to ECBD student attention and behavior in the outdoors and in the classroom.
We suggest future research continue to explore outdoor EE as a teaching opportunity to engage students with ECBD. There are a host of benefits for students learning in nature, from improved classroom engagement to decreasing hyperactivity and inattention . The bulk of this research centers on indicators of ECBD , and our results align with findings suggesting that time outdoors can mitigate these indicators. In this study, repeated outdoor, science-based EE not only appears to decrease indicators of ECBD, but it also facilitates science learning on par with classroom techniques. Previous literature suggests outdoor EE can have similar impacts on all students, and our study indicates that these findings could extend specifically to those with ECBD. As the number of students with ECBDs continues to increase, teachers need creative solutions to instruct these students. We suggest outdoor EE that is repeated throughout the school year and aligned with standards may prove an invaluable tool to enhance science instruction for all students and, specifically, to reach those identified as ECBD.
Ernst, J. . Factors Associated With K-12 teachers’ use of environment-based education. J. Environ. Educ. 38, 15–32. doi: 10.3200/JOEE.38.3.15-32
We found support for hypotheses two, but not hypothesis one, as there were no differences in changes in teacher reports of classroom attention and behavior when comparing treatment and control groups ; however, teacher reports of students’ attention and behavior levels when in the outdoor EE program improved over the course of the EE program to exceed classroom levels. Teacher reports of classroom attention and behavior remained stable for both the treatment and control groups, as there were no significant differences in pre- and post-scores for either measure in either group. However, among the treatment group, we found that teacher reports for both attention and behavior significantly improved for the outdoor EE program . Although prior to seeing students in the EE program teachers expected relatively short attention spans and frequent disruptive behaviors outdoors, their appraisal of these measures was significantly higher at the end of the study period . Further, both of these measures exceeded similar classroom levels at the time of the post-test in the treatment group .
Ardoin, N. M., Bowers, A. W., Roth, N. W., and Holthuis, N. . Environmental education and K-12 student outcomes: a review and analysis of research. J. Environ. article outdoor furniture cover