Knowledge space

Political tensions over water management in the Central Asia region have intensified since the Soviet era, as ecological issues like the drying Aral Sea and seasonal hydropower disruptions impact downstream countries. The paper discusses the region’s water governance challenges, including climate-induced uncertainties, water resource demands, and the limited capacity of local research institutions. While Central Asia’s governments have initiated reforms, including new infrastructure and agreements, resilience in water management remains underdeveloped. The paper also explores the role of higher education institutions in fostering capacity-building for sustainable governance, emphasizing the need for local expertise and regional collaboration. The proposed establishment of a Central Asian water research platform aims to enhance science-policy integration, promote sustainable water governance, and support informed regional cooperation on transboundary water issues.

The water, energy, and food (WEF) nexus is being promoted as a conceptual idea for achieving sustainable development, that describes the interconnections and interdependencies between those three sectors. The main objective of this article is to operationalize the WEF nexus concept in lift-irrigated areas of Uzbekistan through involving local stakeholders, to investigate the WEF nexus within the lift-irrigated agriculture of the Kashkadarya region, an area heavily reliant on the Karshi Canal system. The study is grounded in the urgent need for sustainable development, with a focus on enhancing intersectoral cooperation between water, energy, and food sectors. A case study methodology was employed, incorporating semi-structured interviews with experts, alongside local farmers and scientists. Data were analysed using the qualitative analysis software, Atlas.ti. The results indicate significant challenges to intersectoral cooperation in the WEF nexus, including lack of trust, communication barriers, differing priorities, and insufficient political will. However, the findings also highlight the potential benefits of improved cooperation, such as enhanced resource efficiency, reduced operational costs, and mitigated risks from environmental stressors like drought. The study concludes that, according to stakeholders’ opinions, while the WEF nexus presents critical opportunities for advancing sustainable development in Uzbekistan, substantial barriers must be addressed to realize these benefits. Recommendations include promoting sustainable agriculture to reduce water dependency, improving energy security by diversifying energy sources, and raising awareness of the WEF nexus’s importance. Furthermore, fostering stronger stakeholder cooperation is crucial for achieving Uzbekistan’s Sustainable Development Goals (SDGs) by 2030.

Soil salinity in Central Asia negatively impacts soil structure, leading to degradation and reduced water infiltration. This not only hampers agricultural productivity but also makes the land less suitable for construction due to its high susceptibility to deformation. Environmentally friendly materials like biochar, a carbon-rich substance, show promise in reducing the deformation of saline soils. However, the mechanisms behind its effectiveness are not yet fully understood. This study aims to analyse saline clays’ dispersion and sedimentation behaviour under varying pore water salinity levels (0 % to 10%). A biochar content of 5 % was selected as it is found to be optimum for plant growth and erosion resistance. It was found from the study that the biochar increases the aggregation of soil particles and enhances flocculation, improving soil dispersion characteristics. Biochar facilitates soil particle aggregation by increasing the cation exchange capacity. At higher pore water salinity levels (5% and 10%), the sedimentation behaviour of biochar-treated soil particles deviates from expectations, showing slower sedimentation rates and lower sedimentation heights. This is because the sodium ions are adsorbed by biochar, reducing salt’s effect on dispersion and sedimentation. The results demonstrate that biochar effectively enhances the stability of saline soils and, hence, has a potential use for ground improvement in the Central Asian region.

Land restoration in Kazakhstan plays a pivotal role in addressing both climate change mitigation and biodiversity conservation. The country faces significant challenges related to land degradation, including driven by deforestation and shrubland loss, which has substantial economic and environmental impacts. By restoring forests, Kazakhstan can enhance carbon sequestration, particularly in regions such as Eastern Kazakhstan, which has shown notable gains in carbon sinks from land use and land cover changes. Restoration initiatives also align with Kazakhstan’s commitments under the Bonn Challenge, aiming to restore millions of hectares of degraded land by 2030. By analyzing land cover changes from 2001 to 2020, we identified key degradation hotspots and quantified economic losses of approximately 5.6 billion USD, primarily in grasslands and forests. Evaluating three socioeconomic and climatic scenarios—Optimistic, Base, and Pessimistic—revealed that restoration investments ranging from 6.7 to 11.6 billion USD could yield benefit-cost ratios between 1.4 and 4.3, with wetlands and forests restoration emerging as priority areas. These findings highlight the need for an integrated, data-driven approach to align economic viability with environmental sustainability, thereby promoting green growth and enhancing long-term resilience. Land restoration can serve as a cornerstone for achieving Kazakhstan’s environmental goals, fostering synergies between climate mitigation, biodiversity protection, and sustainable development.

Исследование лавинной деятельности в горных регионах является важным аспектом для обеспечения безопасности населения и защиты инфраструктуры. Особое внимание уделяется изучению лавин в труднодоступных и малоизученных горных районах, одним из которых является Гиссаро-Алай. Удаленность, труднодоступность и повышенная облачность в период наибольшей лавинной активности делают полевые наблюдения и использование оптических спутниковых снимков для исследования лавинной деятельности в Гиссаро-Алае крайне затруднительными. В таких условиях оптимальным решением становится применение радиолокационных технологий, позволяющих получать данные независимо от погодных условий и условий освещенности. В статье описывается методика обработки радиолокационных снимков спутника Sentinel-1, а также результаты дешифрования лавинных отложений, которые были получены для Зеравшанского, Гиссарского, Туркестанского и Алайского хребтов в сезоне 2021/2022 гг. Проведена верификация метода при помощи мультиспектральных данных со спутников группировки Sentinel-2. Для каждого из хребтов Гиссаро-Алая приведены особенности лавинной деятельности – распределение отдельных мест залегания лавинных отложений по абсолютной высоте, крутизне и экспозиции склонов.