STEM-тренинги для учителей Лейлекского района Баткенской области

High in the mountainous terrain of Leylek district, the village of Chimgen became an unlikely epicenter of educational innovation on April 24, 2025. At the School named after Japarov, rural educators from across one of Batken Oblast’s most remote districts gathered for the culminating session of a three-day regional STEAM training initiative that had already energized teachers in Osh Oblast and the urban centers of Kadamzhay.

This final training session carried special significance, representing the program’s commitment to ensuring that geographical isolation never translates to educational isolation. The teachers who made the journey to Chimgen village embody the dedication that characterizes rural education—professionals who often serve as the sole representatives of their subjects in small schools, wearing multiple hats and serving entire communities as educational leaders.

The rural context demanded a uniquely adapted approach to STEAM methodology. While their urban colleagues in Kyzyl Kiya and Batken had access to varied resources and specialist teachers, Leylek district educators often work in schools where a single teacher might cover multiple grade levels or subjects. This reality shaped the training’s focus toward versatile, adaptable strategies that could function effectively in resource-constrained environments.

Master trainer Symbat Satybaldieva, completing her three-day journey across the region alongside co-trainers Ainaz Ysmailova and Gulmira Isakova, brought to Chimgen a refined understanding of how STEAM principles could be tailored to rural realities. The cumulative experience from Osh and Kadamzhay sessions informed adaptations that made the methodology even more accessible and practical for remote schools.

The 5E learning model took on particular relevance in this setting, where teachers recognized its potential to transform limited resources into rich learning experiences. A biology teacher shared how the «Engage» phase could begin with students’ direct observations of their mountain environment, while the «Explore» phase might involve investigating local ecosystems that urban students could only read about in textbooks.

Rural educators brought unique perspectives to Growth Mindset discussions, sharing stories of students who had overcome significant challenges to pursue education despite economic and geographical barriers. These real-world examples of resilience and determination provided powerful illustrations of neuroplasticity principles, demonstrating how belief in student potential can literally reshape neural pathways and academic outcomes.

The session’s emphasis on locally-sourced materials resonated deeply with participants who have long practiced the art of educational innovation born from necessity. Teachers shared creative solutions they had developed—using mountain stones for mathematics manipulatives, incorporating traditional crafts into engineering challenges, and utilizing agricultural cycles to teach scientific method. The training validated these approaches while providing theoretical frameworks that elevated intuitive practices to evidence-based methodologies.

PISA-aligned assessment strategies sparked particularly engaging discussions as teachers grappled with preparing students for global standards while honoring local knowledge systems. The session explored how traditional Kyrgyz problem-solving approaches could be integrated with international assessment frameworks, creating learning experiences that were both culturally grounded and globally relevant.

Artificial intelligence tools presented both opportunities and challenges in this rural context. While internet connectivity and technology access remain variable in remote areas, teachers learned to view AI as a planning and preparation tool that could enhance their instructional design even when classroom implementation might rely on more traditional methods.

The «Marshmallow Challenge» took on special meaning in Chimgen, where teachers recognized parallels to community problem-solving traditions. The activity’s emphasis on iteration, collaboration, and learning from failure mirrored approaches that rural communities have long used to address resource limitations and environmental challenges.

One of the day’s most powerful moments came during the «Food Print Puzzles» activity, when teachers connected observation and inference skills to traditional ecological knowledge that their students possess. A geography teacher noted: «My students can predict weather patterns by reading cloud formations and animal behaviors—this is scientific observation at its most sophisticated. Now I understand how to build on this foundation.»

The collaborative atmosphere was enhanced by the intimate setting, where teachers from scattered mountain schools had rare opportunities to connect with colleagues facing similar challenges. Professional isolation, a common experience in rural education, gave way to animated discussions about shared solutions and mutual support strategies.

Demo lesson presentations showcased remarkable creativity in adapting content to local contexts. A history teacher demonstrated how the 5E model could transform lessons about ancient Silk Road trade routes by having students physically map pathways through their own mountain passes, while a mathematics teacher showed how geometric principles could be explored through traditional yurt construction techniques.

The training’s rural focus highlighted the critical role that individual teachers play in their communities. Unlike urban settings where educational responsibilities are distributed among many professionals, rural teachers often serve as their schools’ primary innovators, technology coordinators, and community liaisons. The STEAM methodologies provided frameworks for managing these multiple roles more effectively.

Feedback from participants emphasized the training’s relevance to their daily realities. One teacher reflected: «Living in the mountains teaches you to be resourceful, but this training showed me how to be resourceful with purpose. Every stone, every plant, every traditional practice can become a pathway to scientific understanding.»

The Chimgen session completed a comprehensive regional initiative that demonstrated how innovative educational approaches can be successfully adapted across diverse contexts—from urban pilot schools in Osh Oblast to the busy cities of Kadamzhay region to the remote villages of Leylek district. Each setting contributed unique insights that enriched the overall understanding of STEAM implementation in Central Asian contexts.

As the three-day program concluded, the mountain setting provided a fitting metaphor for the journey these educators have undertaken. Like climbers who support each other in reaching new heights, these teachers have formed professional networks that transcend geographical boundaries, united by shared commitment to educational excellence regardless of their schools’ remote locations.

The success in Chimgen proves that transformative education is not dependent on urban resources or technological abundance, but on the creativity, dedication, and professional growth of educators who refuse to let geographical challenges limit their students’ potential. These rural teachers return to their mountain schools equipped not just with new methodologies, but with renewed confidence that they can provide world-class educational experiences in any setting.

The ripple effects of this rural training will extend far beyond individual classrooms, as these teachers serve as educational leaders in communities where their influence shapes not just student learning, but community attitudes toward education, innovation, and possibility.