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Snakes experience the most persecution by humans, so the protection of their populations it is very difficult since there is a lot of misperception, poor information and widespread fear in people (Prokop, Özel, & Uşak, 2009; LoBue, Rakison, & DeLoache, 2010; Alemán, DeClerck, Finegan, Casanoves, & García, 2011; Alves et al., 2014; Nonga & Haruna, 2015; Torkar, 2015; Aguilar-López, 2016; Pinheiro, Mota, & Borges-Nojosa, 2016; Landová et al., 2018). In addition, snakes face other threats such as the decline of their natural prey and decrease and fragmentation of their habitat, generating that they search for new territories, food and refuge in house gardens, recreational green areas and even urban habitats or cities, where they increase their encounters with humans and many snakes die for no reason (Alemán et al., 2011; Alves et al., 2014; Nonga & Haruna, 2015; Torkar, 2015; Aguilar-López, 2016; Quesada-Acuña, 2018; Zipkin, DiRenzo, Ray, Rossman, & Lips, 2020). In Costa Rica the same negative perception and ignorance about snakes has been found in the city's inhabitants, even in those with the highest academic level (Solórzano, 2004; Quesada-Acuña, 2019). A negative perception can directly influence people's behavior and decision-making towards this type of reptile, hindering conservation efforts (Alea-García, 2006).
In order to promote the conservation of snakes, it is necessary to implement environmental education strategies aimed at a specific target audience, considering the immediate environment of individuals and the learning opportunities they may have; using techniques such as: face-to-face talks with experts, direct interaction with animals or distance environmental education (Alea-García, 2006; Prokop et al., 2009). A possible tool for doing distance environmental education, aimed at urban adults with university education, is the creation and dissemination of short educational videos, taking advantage of the fact that said target public has easy access to information on the internet and social networks (Ceríaco, 2012; Pinheiro et al., 2016; Sánchez-Paniagua, González-Villalobos, & Abarca, 2018; Estévez-Haro & Proaño-Morales, 2019).
Distance environmental education using videos has advantages such as: accessibility, ease of use and dissemination, helps in understanding the message, simultaneously involves sound and visual messages, can be designed cross-culturally, is compatible with the use of printed material, allows the user to apply it in their own context, among others (Gruber, Benayas, & Gutiérrez, 2001; Cabero & Llorente, 2005; Alea-García, 2006; Galindo-González, 2015). However, there are few educational videos on snakes and their effectiveness in environmental education in adults has never been estimated. The objective of this research is to evaluate the effectiveness of an educational video as a tool to change the perception and knowledge about snakes in adults with a high educational level in Costa Rica.
Materials and methods
Study Site: Universidad Estatal a Distancia (UNED), headquarters, San José, Costa Rica. We analyzed the perception and knowledge about snakes in 340 officials for a previous work (between March and April 2019), which served as a previous diagnosis (Quesada-Acuña, 2019).
Data collection: We generate an educational video on snakes from the Greater Metropolitan Area of Costa Rica and select a free-access journalistic report as a control (Appendix 1). We separated the 340 participants from the previous diagnosis into two random groups and sent them a link to the YouTube video by email, with instructions to observe it freely during September and October 2019. A total of 240 officials received the educational video and 100 officials received the journalistic video, as a control group. We send a reminder to all participants just in the middle of the period. Finally, during December 2019 we repeated the diagnostic survey to 200 participants at random, always individually and face-to-face to avoid plagiarism or search for answers in digital media.
Analysis of data: We compared the participants’ new responses with respect to their own previous response, according to three categories: best (a positive point), worst (a negative point) or equal (zero). We consider an answer to be "better", if the person provides more examples or improves accuracy over the true value. From the original survey we only analyzed two questions about perception (without assigning a score) and six questions about knowledge (Appendix 2). Finally, we evaluated the change in general knowledge according to the sum of points: better (+1 to +6), worse (-1 to -6) or equality (0), for example: A person who gets +2, means that in general terms his knowledge improved in two questions. We analyzed the data with descriptive statistics, frequency analysis and independence tests (Pearson or chi square of contingency or goodness of fit), using XLStatistics (Carr, 2017). Full data set available here: https://doi.org/10.5281/zenodo.4085506
Results
Sociodemographic characteristics and visualization of the educational video: We surveyed 200 participants (125 women and 75 men), between the ages of 22 and 64 (mean= 40,62; SD= 9,88; p< 0,05). 95% have university-level studies (χ2= 162; DF= 1; p< 0,05) and 95% live in urban districts of the Greater Metropolitan Area (χ2= 162; DF= 1; p< 0,05).
Only 33,5% acknowledged having observed the video they received (χ2= 21,78; DF= 1; p< 0,05). The decision to watch the video was independent of the participant's gender (χ2Pearson= 0,93; DF= 1; p> 0,05), to his feeling for snakes (χ2Pearson= 4,50; DF= 4; p> 0,05) and even at his age (χ2Pearson= 0,74; DF= 2; p> 0,05).
Perception towards snakes: 75% of the participants maintained their feeling for snakes (χ2= 157,34; DF= 2; p< 0,05) and 68% maintained their behavior when encountering a snake at home (χ2= 111,17; DF= 2; p< 0,05). Both traits are independent of the participant's gender and the video observed (Table 1).
Questions about perception | Participants (%) | Statistical difference (χ2) | Variable dependency |
Change in feelings towards snakes: | χ2= 157,34 DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 9,04; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 4,53; DF= 2; p> 0,05) | |
Better | 9,50 | ||
Equal | 75,00 | ||
Worse | 15,50 | ||
Change in reaction when finding a snake: | χ2= 111,17 DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 5,61; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 0,44; DF= 2; p> 0,05) | |
Better | 21,00 | ||
Equal | 68,00 | ||
Worse | 11,00 |
Knowledge about snakes: 46% made a better estimate of the number of Costa Rican snake species (χ2= 24,16; DF= 2; p< 0,05), although the improvement in estimating the poisonous species was not significant (χ2= 4,81; DF= 2; p> 0,05). An improvement of 43% was also observed when estimating the maximum size of a snake in Costa Rica (χ2= 12,04; DF= 2; p< 0,05) (Table 2).
No improvement was found when consulting about the possible prey of the snakes (χ2= 4,27; DF= 2; p> 0,05); 67.5% maintained their previous knowledge to correctly identify venomous snakes from non-venomous (χ2= 107,87; DF= 2; p< 0,05) and 44% remembered the same number of common snake names that they mentioned in the diagnosis (χ2= 10,72; DF= 2; p< 0,05). All the knowledge features were independent of the participant's gender and the video observed (Table 2).
Questions about knowledge | Participants (%) | Statistical difference (χ2) | Variable dependency |
Number of Costa Rican snakes species: | χ2= 24,16; DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 8,68; DF= 2; p> 0,05) Versus “gender” (χ2Pearson= 1,28; DF= 2; p> 0,05) | |
Better | 46,00 | ||
Equal | 36,00 | ||
Worse | 18,00 | ||
Number of venomous snake species: | χ2= 4,81; DF= 2; p> 0,05 | Versus “observed video” (χ2Pearson= 2,72; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 1,11; DF= 2; p> 0,05) | |
Better | 39,00 | ||
Equal | 34,50 | ||
Worse | 26,50 | ||
Estimation of the maximum size of a snake: | χ2= 12,04; DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 2,02; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 0,55; DF= 2; p> 0,05) | |
Better | 43,00 | ||
Equal | 34,00 | ||
Worse | 23,00 | ||
Recognize possible prey of a snake: | χ2= 4,27; DF= 2; p> 0,05 | Versus “observed video” (χ2Pearson= 9,33; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 0,97; DF= 2; p> 0,05) | |
Better | 36,00 | ||
Equal | 37,50 | ||
Worse | 26,50 | ||
How you identify venemous snakes: | χ2= 107,87; DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 5,56; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 0,24; DF= 2; p> 0,05) | |
Better | 21,00 | ||
Equal | 67,50 | ||
Worse | 11,50 | ||
Mention common names of snakes: | χ2= 10,72; DF= 2; p< 0,05 | Versus “observed video” (χ2Pearson= 7,08; DF= 4; p> 0,05) Versus “gender” (χ2Pearson= 0,03; DF= 2; p> 0,05) | |
Better | 30,00 | ||
Equal | 44,00 | ||
Worse | 26,00 |
In general terms, knowledge about snakes improved in 51,5%, 26% worsened and 22,5% remained the same (χ2= 30,07; DF= 2; p< 0,05). These criteria changes were dependent on the observed video (χ2Pearson= 17,36; DF= 4; p< 0,05) (Figure 1), and independent of gender (χ2Pearson= 1,55; DF= 2; p> 0,05), to the feeling for snakes (χ2Pearson= 9,35; DF= 8; p> 0,05) and to age (χ2Pearson= 0,92; DF= 2; p> 0,05).
Discussion
Costa Rica is internationally recognized for its biodiversity conservation model, although some environmental problems, such as the human-snake conflict, remain active in the population and must be mitigated with specific environmental education, designed in accordance with the target audience (Ceríaco, 2012; Pandey, Pandey, Devkota, & Goode, 2016; Estévez-Haro & Proaño-Morales, 2019; Prosser-Bravo & Romo-Medina, 2019).
We designed this research so that the population sector with the highest academic level and better access to information technologies, had free and unlimited access for more than two months, to the possibility of observing an educational video on snakes; so that the methodology allowed us to visualize an additional obstacle that all massive environmental education efforts must face and that most research fails to detect: public disinterest (Pandey et al.; 2016; Pinheiro et al, 2016; Reynolds, Salamander, & Wilson, 2018).
Usually, when carrying out environmental education to people who voluntarily attend a certain place or who even pay an entry for it, such as zoos, museums or herpetarians; a bias is generated because people express a pre-existing interest in exposing themselves to being educated environmentally (Pinheiro et al., 2016; Calderón-Arrieta, 2017; Reynolds et al., 2018). The same happens when the participants agree to volunteer for a certain study, since those who did not agree to participate are excluded from the sample and their interest in the subject was perhaps not sufficient to participate (Pandey et al.,2016; Pinheiro et al., 2016; Reynolds et al., 2018).
On the contrary, in this research we analyze the responses of both groups: the disinterested majority and the minority who observed the video knowing the general subject but not its specific content; this allowed us to detect that the decision to watch or not watch the video does not depend on gender, age or their feelings towards snakes (which they had confessed in the previous diagnosis) and, therefore, it is a technological tool with great educational potential, mainly for urban populations (Gruber et al., 2001).
Perception towards snakes: Changing negative to positive perceptions has been documented to be difficult, and efforts in that direction tend to be more successful when working with young children (Kellert, 1984; Torkar, 2015; Souchet & Aubret, 2016; Pandey Chaudhary, Pandey, Piya, & Devkota, 2020).
In this research, most of the participants maintained their feeling towards snakes and also their way of acting in the event of a possible encounter with them, regardless of their gender and the video observed. However, a significant percentage improved in their possible reaction to finding a snake, suggesting that their participation in the research somehow enabled them to revalue the danger they associated with snakes (Prokop et al., 2009; Torkar, 2015; Aguilar-López, 2016; Pinheiro et al., 2016; Reynolds et al., 2018).
In the previous diagnosis (Quesada-Acuña, 2019), the participants had the opportunity to interact face-to-face and individually with a biologist specialized in snakes, which generated an atmosphere of trust to evacuate doubts, tell anecdotes and receive guidance on the subject. This socialization space represents another type of environmental education that was not evaluated and that could also have a positive impact on the perception of snakes (Torkar, 2015; Aguilar-López, 2016; Pinheiro et al., 2016).
Finally, it is also possible that the change observed in a small percentage of the population shows in some way the need for knowledge and the advantages of directing environmental education towards an urban population with a higher educational level and possibly with less adherence to myths and beliefs (Fita, Costa-Neto, & Schiavetti, 2010; Ceríaco, 2012; Gómez-Martínez, Gutiérrez-Montes, & DeClerck, 2014; Pinheiro et al., 2016; Estévez-Haro & Proaño-Morales, 2019; Ríos-Orjuela, Falcón-Espitia, Arias-Escobar, Espejo-Uribe, & Chamorro-Vargas, 2020). This, eventually, could generate positive impacts on the environmental education received by the child population related to the participants who showed such improvement in their perception towards the snakes.
Knowledge about snakes: Participants showed improvement in half of the knowledge-oriented questions, including: number of Costa Rican snake species, number of poisonous species, and maximum size of a snake in Costa Rica; although none evidenced dependence with respect to the observed video. It is important to note that all the improvements are related to numbers that could be easier to memorize and it is also possible that this improvement responds to an interaction of positive effects, between watching the video and interacting with a specialist, although this could not be evaluated (Alea-García, 2006). Direct interaction has been described as an excellent environmental education strategy (Torkar, 2015; Pinheiro et al., 2016), but it has disadvantages compared to educational video, mainly in terms of economic investment, reproduction and scope (Cabero & Llorente, 2005). In fact, the creation of educational videos has recently gained in importance due to the pandemic and its adaptability could be key in environmental education.
Regarding the remaining questions, the participants maintained the same level of knowledge about: snake prey, characteristics to identify venomous snakes and common names of snakes; regardless of the video observed. These results could have a negative impact on the conservation of snake populations, because they suggest that people still believe that snakes are more dangerous than they actually are (Fita et al., 2010; Aguilar-López, 2016).
Since venomous snakes in Costa Rica represent an easily distinguishable minority (Savage, 2002; Solórzano, 2004; Quesada-Acuña, 2018; Sánchez-Paniagua et al, 2018; Sasa, Bonilla, & Chaves, 2019), reinforces the importance of designing environmental education on snakes highlighting the characteristics to differentiate venomous from non-venomous snakes, which favors the conservation of populations of this group (Fita et al, 2010; Gómez-Martínez et al., 2014; García-López, Villegas, Pacheco-Coronel, & Gómez-Álvarez, 2017; Quesada-Acuña, 2018; Sánchez-Paniagua et al., 2018).
Finally, when analyzing the general knowledge by summation of scores, a considerable improvement was evident in favor of those participants who observed the educational video, which suggests that it is an effective tool and that it generates in the population a different effect than journalistic reports (usually negative), possibly because it allows the viewer to build their own knowledge in its immediate context, without the information received generating unwarranted prejudice or fear (Perales & García-Granada, 1999; Cabero & Llorente, 2005; Alea-García, 2006; Santiago-Rivera, 2008; Galindo-González, 2015).
In addition, it is important to consider that we designed the research seeking a time distance of at least 45 days between the observation of the video and the evaluative survey, so that the changes reflect a memorization or learning that was maintained in the participants for a considerable time, which could have a positive effect on people's behavioral patterns towards snakes, promoting their conservation (Cabero & Llorente, 2005; Alea-García, 2006; Lavilla-Cerdán, 2011). In this regard, many investigations omit this temporal spacing and do not give participants the opportunity to show the effect of time, real interest, or knowledge acquired during the intervention in their responses (Alves et al., 2014; Pinheiro et al., 2016; Souchet & Aubret, 2016; Landová et al., 2018). We believe that by doing so we obtained a response closer to reality, since all the participants had time to “forget” (Lavilla-Cerdán, 2011).
Our research suggests that educational video can be an efficient distance environmental education tool in changing perceptions and disseminating knowledge, not only in children's populations where environmental education efforts are more frequently focused (Prosser-Bravo & Romo-Medina, 2019), but also in young people and adults who can positively influence child populations for the conservation of biodiversity.
Ethics, conflict of interest, and funding statement
The authors declare that they have fully complied with all pertinent ethical and legal requirements, both during the study and in the production of the manuscript; that there are no conflicts of interest of any kind; that all financial sources are fully and clearly stated in the acknowledgments section; and that they fully agree with the final edited version of the article. A signed document has been filed in the journal archives.
The manuscript was planned, developed, analyzed and written by the two authors with equal percentages of contribution.