Introduction

Drawing and resilience

Resilience can be broadly defined as the capacity of a dynamic system to adapt successfully to disturbances that threaten system function, viability, or development (Masten, 2014). Resilient children emerge from stressful environments, take active roles in their lives, and realize their accomplishments: self-efficacy, competency, independent thinking, autonomy, communication skills, problem-solving, and the capacity to manage strong feelings and impulses (Rutter, 1985). Several additional factors are associated with resilience, such as caring and supportive relationships within and outside the family (Chapin, 2015). Resilience can also be supported by providing children with communicative means and symbolic activities that can empower them by encouraging their feelings of participation (Eisner, 1982). Among the symbolic activities supporting resilience, drawing has been proven to occupy a favorable position (Mento et al., 2019).

Psychological research has increasingly focused on drawing as a purposeful and powerful tool for children’s meaning-making, recognizing, interpreting, and transforming reality (Ring, 2006); for adults, it offers an alternative way to access children’s views and experiences, which can be used with children more easily and cheaply than verbal instruments (Clark, 2005), especially through different populations (Huss and Alhaiga-Taz, 2013; Nuttman-Shwartz et al., 2010; Pinto and Bombi, 2007). In this vein, numerous interventions aimed at gaining children’s perspectives on the difficult circumstances in which they live have made use of thematic drawing. A number of these specifically directed children to draw their living environment, everyday places (both urban, architectural), and natural landscapes. The choice of this pictorial theme is firmly rooted in the tradition of research into children’s drawing: developmental psychology has emphasized how a child’s emotional attachment to a place is an important part of his or her identity (Winnicott, 1987), which includes memories, feelings, and preferences expressed in relation to physical spaces that have been places of life (Fried, 2000). Architectural structures have a considerable influence on the well-being of individuals, entering into close interaction with their perceptual and cognitive processes, social skills, and the sphere of their emotions (Proshansky and Fabian, 1987). According to Matthews (1985), drawing is the best tool for children to express their ideas about the buildings and architecture around them and for researchers to capture children’s perspectives in understanding ideas and practices of “home.” In the study performed by Aysan and Oliver (2001), the house that was drawn proved to be a significant indicator of the ways in which spaces are respected and utilized, the degree of privacy or security that the dwelling affords, the number of people that occupy it, their domestic relationship, and responsibilities to each other of its inhabitants. Visual patterns of the houses drawn are effective clues to children’s image of themselves and their relationship with family and friends, according to Cherney et al. (2007). Izadkhah and Gibbs (2015) asked 202 pre-school children, aged 5–6 years, from four districts of Tehran (Iran) to draw pictures of lands affected by earthquakes. The features that were observed in the children’s drawings included using color to indicate anxiety and fear; using parts of the body when taking shelter from earthquakes; providing assistance as well as seeking it during times of disasters; and appropriate (safe) and inappropriate (unsafe) places to shelter. In a study involving children who were caught in Hurricane Katrina in the United States, Kim (2005) observed how the child’s perception of the disaster was expressed through a visual representation of the storm, disease, corruption in the environment, and people’s feelings of loss, offering her representation of the disaster as a combination of manmade, natural, and individual disasters. In a case study, focusing on one thriving migrant Thai adolescent during a filmed “day in his life” (Cameron et al., 2014), the participant, 14-year-old “Pond”, drew spontaneously for more than an hour and proudly shared his drawings with the father as well as with the researchers. His graphic endeavors, representing domestic and urban landscapes, included traditional Thai representations and pop-cultural cartoon sketches, bridging the worlds he navigated as he adapted to his new domicile. In their study, Fargas-Malet and Dillenburger (2014) explored, through a draw-and-tell technique, children’s perceptions of their own lives and their predecessors’ lives in Northern Ireland, where regular riots and paramilitary activity continue the division and conflict. While multiple positive elements of peace and hope were depicted by most children, especially in the pictures portraying the present, negative elements and violent references mostly appeared in the pictures representing the past.

Taken together, these studies suggest that drawing their life environment offers a way for children to make sense of their experiences, to express grief and loss, and to become active participants in their own process of healing. However, the range and variety of experiences and most of the communications on this topic are narrative and descriptive in nature rather than research-oriented. For this reason, it is difficult to get a thorough picture of how drawing the setting in which they carry out their daily life is used with children living in difficult circumstances. Therefore, more reliable research and planning is needed, as Orr (2007) concludes in his review.

Drawing to communicate: pictorial flexibility

Most of the interventions used drawings of the buildings produced spontaneously or in response to very general requests, sometimes in a clinical setting by children directly involved in adverse conditions. This method of collecting pictorial material allows a great deal of arbitrariness in interpretation by the recipient (whether psychological or educational professional) and leaves open an important methodological question: Is the viewer in front of a specific drawing of the required theme, inspired and modeled on the crisis, or is it a generic representation, the one that a child would have drawn anyway, even under normal conditions? To overcome this obstacle, the use of contrary pictorial tasks has proven to be particularly valid, that is, in which the children are asked to perform two different representations of the same pictorial object, each illustrating specific characteristics of the depicted theme. This collection method has proven fruitful in soliciting diversified representations of various themes, such as the child’s interpersonal relationships (Laghi et al., 2013), self-image (Bombi and Cannoni, 2003), and school life (Pinto et al., 2011). This method requires the drawers to use their pictorial flexibility, but it is not an easy task: according to Thomas and Silk (1990), graphic development can be assimilated to the discovery of rules and regularities that underlie the construction of informative and recognizable representations, shared by the “visual” community the child belongs to. Whenever a child is asked to draw, there will be a tendency to rely on traditional schemata for the representation of ordinary objects (human figures, animals, buildings) shown from a typical view, one that best displays their important structural or invariant features. These typical, “canonical” representations allow children to reach a great communicative efficacy through limited executive effort, because few signs (and simple ones) are often required to make the drawn objects recognizable by others. As children develop, they learn to adjust to changing demands and priorities to consider something from a fresh or different perspective (Barrett and Light, 1976). To depart from these traditional, stereotyped representations and connote the pictorial object in a more personal way, children must have what is referred to as “cognitive flexibility”. As Karmiloff-Smith (1990) indicates, this will come about through a spontaneous interfacing with the child’s own internal descriptions (compiled procedures), initially through intra- and, eventually, inter-representational flexibility. In her representational redescription model, “representational redescription” is defined as the mental processes through which a child produces a new description of his or her existing representations. This recoding of information enables the child to think more flexibly and, in drawing behavior, allows the relaxation of a sequential constraint, leading to the eventual depiction of unusual views (Karmiloff-Smith, 1992).

Subsequent drawing research has suggested that pictorial flexibility may be influenced not only by the children’s endogenous redescription of mental representation, but also by three possible sources: children’s perceptual input (e.g., pictorial models, art, and media), drawing experiences (e.g., availability of drawing material), and learning environments (e.g., instructions, art education, and caregiver–child interactions; Burkitt et al., 2010).

In fact, the possibilities of children to intentionally deviate from a conventional representation of buildings to create an original one in an ecological context are under-investigated (Sameroff, 2010). Indeed, psychological research is mostly conducted in Western cultures on typically developing children in situations of well-being and protection.

The contrastive procedure has inspired test material in a clinical setting (Giordano, 2017) to detect the presence of psychological trauma, but to the best of our knowledge, this pictorial task has not been used to access at-risk children’s ideas about their living environment, with few drawing-centered educational experiences, and few opportunities to practice drawing.

Aims of the study

The pictorial flexibility was prompted here by the use of a novel, contractive assignment, and the pictorial theme was a specific relevant element of the human landscape, that is, buildings. The choice of this specific theme—the house in which the children live or would like to live—adds a layer of uniqueness to our data collection, given the particular salience of buildings in the representation of one’s daily life. The analysis of the pictorial flexibility was carried out through the evaluation of the variations in the two representations, and of the different graphic solutions through which an effective visual communication was achieved.

The purpose of this study is to investigate whether children between the ages of 8 and 12, who grew up in difficult socioeconomic and cultural circumstances, (1) possess sufficient pictorial flexibility to make drawings of their home, varying the pictorial characteristics of the buildings depicted, in a communicatively effective manner; and (2) the number and type of pictorial strategies with which they pursue the goal of effectively differentiating the buildings depicted, according to the age of the drawers.

We expect that the contrastive task will be effective in stimulating the pictorial flexibility needed to differentiate the picture of their real environment from the picture of the house they would like to live in. We expect this differentiation will be realized to a different extent and in different ways depending on the age of the participants. In particular, we expect that the representational flexibility of the participants will be reflected in the use of fewer pictorial strategies among the younger than among the older ones; we also expect that only the older ones will use more complex differentiation strategies, while the younger ones will use simpler pictorial strategies.

Methods

Participants

We carried out a study with 200 8-to-12-year-old children, living in a favela in Rio de Janeiro, Brazil. The favela, or shantytown, came into being when squatters occupied vacant land in the city and constructed shanties of salvaged or stolen materials. The lack of infrastructure gives rise to improvised and jury-rigged plumbing and electrical wiring. The favela is also permeated by delinquent activities, first and foremost dominated by illegal drug trafficking. As a result of crowding, unsanitary conditions, poor nutrition, and pollution, disease is rampant in the poorer favelas, and infant mortality rates are high. Although mandatory, school attendance is irregular, and school materials are very limited. The participants were children and adolescents from the favela who attended, even occasionally, the activities of an out-of-school educational center set up in the favela by a team of workers with socio-educational training, free of charge. All participants were asked for their consent to make these drawings for the study, explaining the intent of the activity in language accessible and appropriate to different ages.

The presence of researchers and their activities has been approved by the parents and authorities in the favela. The study was approved by the Department of Education, Languages, Intercultures, Literature and Psychology, University of Florence.

Procedure

The proposed pictorial activity was part of a program to support the development of the favela children’s communicative and expressive skills. This program was proposed by the co-author, who worked as a volunteer for social activities at the favela’s education center.

Each child was asked to draw two different drawings of a house: one to show what the house they live in looks like, and one to show a house they would like to live in. To draw, the experimenter gave the children white paper (21 × 29.7 cm) and a wide variety of drawing materials. The children were asked to draw the buildings as they came to mind, and it was made clear to them that they would not be judged on the beauty of the drawing. The task thus formulated aimed to make the subjects aware of the importance of their thoughts and desires. The order in which the drawing tasks were proposed alternated.

The collection of drawings took place in an ecological context, an ecology that would have been altered or reduced by the administration of formalized tests or other measures of pictorial ability.

Data coding

The 400 drawings collected (two for each child) were classified by two independent judges. First, they assessed the differentiation between the two drawings (the real house vs. the ideal house), deciding which was the real house and which was the ideal house, and indicating the use of which pictorial strategies had been used to indicate the differentiation.

The six strategies used by the children to implement pictorial variation were as follows:

  1. 1.

    Variations in the number of parts: this was assigned when one of the drawings presents a larger number of parts (concerning the whole drawing: house and background) than the other. The coding involved counting the parts of the house on one list (e.g., walls, roofs, windows, doors, balconies, chimneys, etc.) and assigning the number of parts present in each of the two drawings. The scores were given on a dichotomous scale (0–1) according to the presence or absence of the number of element variations.

  2. 2.

    Variations in the number of colors: as with the previous index, this was assigned when one of the drawings presented a larger number of colors (concerning the whole drawing: house and background) than the other. The coding involved counting the number of colors used. The scores were given on a dichotomous scale (0–1) according to the presence or absence of variation in the number of colors.

  3. 3.

    Variations in size (height and width): assigned when one of the two houses is taller or larger than the other. The coding consisted of measuring centimeters in the height and/or width of each house. The scores were given on a dichotomous scale (0–1), according to the presence or absence of the variation in size.

  4. 4.

    Variations in the number of decorative elements: assigned when there is enrichment with decorative elements applied to the parts of the house, both to the structure and to its environment. The coding involved counting the number of decorative elements used (e.g., the drapes in the windows, the garden, etc.). The scores were given on a dichotomous scale (0–1) according to the presence or absence of the pictorial strategy.

  5. 5.

    Variations in the architectural structure represented: assigned when the two drawings differ in changes in the architectural structure and the functions that the buildings perform. The coding gave the drawn building a scale of increasing architectural value, ranging from shack to palace. A score of 0 was assigned if the buildings belonged to the same category and a score of 1 if there was a difference in architectural value.

  6. 6.

    Variations in the pictorial techniques used: assigned when different technical solutions (pencil, marker, shadows, and transparency) are used for the realization of one of the two drawings. For coding, the drawing is assigned on a scale ranging from the simplest (e.g., pencil) to the most complex (e.g., use of shading). A score of 0 was given if the techniques used in the two drawings were the same, a score of 1 if the techniques were different.

The agreement between the judges was 97% for the different indices considered. Conflicts were resolved by a third independent judge.

Data analysis and results

Out of the 400 designs reviewed by the judges, 86% of the drawings were actually two different representations of the two types of houses that could be clearly distinguished (congruent representation). Only 4% of the drawings were non-congruent representations, and 10% of drawings did not show any kind of differentiation between the two. According to these results, only 172 pairs of congruent drawings were used to check how many pictorial strategies were used by the children. Of the eliminated drawings, 76% were drawings of younger children.

First, we controlled for order effects by having each condition occur with the same frequency at each ordinal position. Using ANOVA, we have verified if there were differences between the two condition of order (real vs ideal house and ideal vs real house) and the number of pictorial strategies produced. The order of the task presentation was found to be irrelevant (F(1, 170) = 0.09, p = n.s.).

To test our hypotheses, participants were divided into three groups according to age: 8–9 years old (n = 50), 10–11 years old (n = 60), and 12–13 years old (n = 62). By age group, it was estimated how many pictorial strategies are present in the drawings that have achieved differentiation effectiveness. Based on each drawing couple, the pictorial strategies were counted and three levels were identified: (1) drawings that used up to two strategies, (2) drawings that used up to three strategies, and (3) those that used four or more strategies.

Frequency and chi-square analyses were performed to assess the number of differentiating pictorial strategies used by each age group, and whether the association between the number of pictorial strategies used and the age groups was significant. The results showed that the number of pictorial strategies used varied with age (χ2(2) = 191.19, p < 0.001). Specifically, most young children used only up to two pictorial strategies, 10–11-year-olds used up to three pictorial strategies, and only older children used four or more pictorial strategies. Table 1 shows the percentages of how many pictorial strategies used in each age group.

Table 1 Percentages of quantitative levels of pictorial strategies used by children by age groups.

To check how often each strategy was used, all strategies were counted within each age group. Specifically, it was found that 8–9-year-olds used a mean of 2 strategies for each pair of drawings; 10–11-year-olds used a mean of 4 strategies; and 12–13-year-olds used a mean of 5 strategies for each pair of drawings. Table 2 shows the frequencies of how often a particular strategy was used in each age group.

Table 2 Frequencies of pictorial strategies used in each drawing by age groups.

A chi-square test was used to verify the association between group age and the typology of pictorial strategy. The results showed a significant association (χ2(10) = 74.38, p < 0.001) (Table 2). Specifically, the results found that younger children use more basic strategies to differentiate between the two drawings, defined as variations in the number of elements, the number of colors, and size. Older children use most sophisticated strategies in a statistically differentiated way, such as variations in the number of decorative elements, in architectural structure, and in the techniques used.

Below are three examples of drawings of a real versus ideal house with the relative pictorial strategies used (Figs. 1, 2, and 3)

Fig. 1: Drawing of the real house vs. the desired house. F., 8 years old.
figure 1

Example of use of Strategies 1, 2, and 3, and increases in architectural details, colors, and dimensions.

Fig. 2: Drawing of the real house vs. the desired house. F., 10 years old.
figure 2

Example of the use of Strategies 1, 2, 3, and 4, and increases in architectural details, dimensions; change of type of building.

Fig. 3: Drawing of the real house vs. the desired house. F., 12 years old.
figure 3

Example of use of Strategies 1, 2, 4, and 5; increases in architectural details, colors; changes in type of building and pictorial technique.

Discussion

In this exploratory study, we investigated whether children’s pictorial flexibility, and the ability to perform pictorial representations that deviate from canonical, conventional representations of buildings, were present in children living in favelas. These children live in urban contexts of extreme poverty and with social and cultural disadvantages, who have limited access to schooling and drawing experiences. We also aimed to investigate the developmental pattern that pictorial flexibility would assume in relation to the age of the participants.

In this study, performed with children living in a disadvantaged socioeconomic context, children were asked to draw both the real house and the house in which they would like to live, if their wishes could come true. This request was meant to stimulate the pictorial flexibility necessary to mentally transform the reality in which they were immersed and to act on it in an original way. The contrastive drawing task proved to be a powerful way to encourage children to represent and articulate their own ideas and to communicate their ideas to others.

The request to create the two drawings was welcomed by almost all the children, who approached the assignment with commitment and joy. The high degree of confidence with which the judges were then able to distinguish which type of house the young drawer intended to represent each time, confirms that drawing is a particularly suitable communication channel to bring out aspects of children’s ideas, which are not easily captured by the most commonly used verbal tools.

The task was accessible to almost all drawers, with the exception of a small number (about 30) of the younger ones, aged 8 and 9 years old. Since at this age the cognitive ability to distinguish the level of reality from that of fantasy is considered mastered, we think that the difficulty in executing two different drawings is of an executive type. In fact, the youngest was still grappling with the execution of a typical, conventional building, a simple and essential house, which they substantially rendered the same way in the second drawing, whatever the theme required. It is possible that this difficulty in performance is exacerbated by the fact that these children live in environments with poor iconography. These children suffer from a poverty of environmental visual models and have little access to iconographic material that they could use as a guide in practicing the possibility of variation (e.g., books designed for children). These results suggest that a lack of drawing practice slows the progression toward drawing mastery, as has been found in research conducted on the execution of other pictorial themes, such as the human figure, by children with little schooling (Martlew and Connolly, 1996).

The results also illustrate that children’s age has an influence not only on when representational flexibility emerges, but also on the quantity and quality of the pictorial strategies adopted to clarify the differences between the two types of houses. Younger children use fewer drawing variations than older children, and the ones they perform are the most basic strategies (e.g., variations in the number of parts and colors). It is likely that beginners are strongly pressured by the traditional representation of houses, and for them to deviate from it is very costly from a cognitive and executive point of view.

The difficulty of the task is probably accentuated by the lack of artistic practice these children can have, and by the scarcity of iconographic models to which they are exposed. We know, in fact, that having accessible examples in the environment could instead lighten the ideational load of change, offering ready-made pictorial equivalents, on which to lean when passing from the project to the executive process.

The ability to differentiate between the two types of houses appears to be performed through the targeted use of certain strategies rather than others, according to their ages. The strategies that were mostly used by the youngest subjects to differentiate the two drawings varied in the number of parts, the number of colors, and the size of the elements drawn. These are the simplest pictorial strategies that do not require high planning or advanced executive skills. These simple pictorial devices to transform houses are also accessible to drawers with limited artistic skills. The size of the parts drawn, their dimensions, and the quantity of colors used can be varied during the execution of the drawing, in a summative way, and do not require advanced planning.

Older children, on the other hand, express pictorial flexibility with more complex differentiation strategies, as a change in the pictorial techniques used and a change to the representation of the buildings drawn. These strategies need more elaboration from a cognitive point of view, as they require advanced planning and richer executive skills. These more mature strategies do not limit the differentiation to the perceptual aspects of reality, but portray buildings with more complex qualities, which integrate the perceptual features (shape, number, color of the constituent parts) with the functional and esthetic aspects of buildings.

For the entire sample examined, most of the changes the drawers made benefit the ideal home. The children adhered to the more canonical and essential representations of buildings in drawing their real house, while using their pictorial possibilities to the fullest to show the desirable house. The increase in the number and quality of pictorial details added to complete the ideal structure, and the graphic care with which they were realized. were consistent with the advantages of the desired houses compared to the rudimentary houses they then inhabited. Moreover, the architectural elements that constitute the former were realized in a visually accurate way, thanks to both chromatism and the use of decorative forms, adding to the buildings an esthetic value that goes beyond the strict requirements of functionality.

On the whole, the contrasting pictorial request adopted here was interpreted by the children as an opportunity to give space to their imagination, to distance themselves from their present reality, and create a better place to live, at least on paper. The task prompts children to represent their living environments as scenarios that can change in different time frames, and can facilitate their ability to ask which parts of their current story are permanent and which can possibly change, suggesting that the situation can be looked at in a different way that they have not been considering. In their drawings, they juxtaposed real worlds with possible ones, freeing themselves with their power of imagination from the constraints of everyday life.

These findings tell us something new about the ability of disadvantaged children to draw flexibly and provide some additional understanding of the contribution that drawing can provide to children’s resources in coping with adversity. For the children involved, drawing proved to be helpful in expressing feelings that could otherwise be unspeakable and inexpressible. Recreating places on paper reduces the child’s helplessness and creates feelings of empowerment. Drawing is a powerful expressive tool that can strengthen children’s ability to cope with adversity and increase their cognitive, affective, and communicative resources. For this to happen, however, it is necessary for drawers to have sufficient pictorial skills to effectively represent what they intend to paint and flexibly vary the pictorial theme, departing from its schematic, canonical execution to make room for their own personal ideas about the characteristics of the object drawn.

These results clearly highlight the wishes and hopes that the visual method allows one to express. Inducing people to reflect “visually” can contribute to building a sense of belonging to the place, grasp its specific functions, and color it with functional, cultural, and emotional meanings. The children seem to think, in a resilient way, that beauty and art can contribute to the improvement of their living conditions. Images, more than words, can tell us in which direction the child’s gaze is going, and which desirable scenarios reveal themselves in the child’s eye.

In this paper, we take a step further to extend drawing into the field of social semiotics (Hodge and Kress, 1997) and into the notion of meaning-making through signs and symbols. This study provides a qualitative repertoire of desires and creative imagination influencing children’s experience of their environment, and the results can inspire projects and choices aimed at improving and enriching the domestic and urban scene, attuning it to the participants’ expectations. The drawing activity described in this paper could be embedded in programs to increase public awareness and strengthen resilience among youth, e.g. to increase children’s ability to use drawings to communicate their needs and desires.