Microbiomes of different ages in Rendzic Leptosols in the Crimean Peninsula

Kimeklis, Anastasiia K.; Gladkov, Grigory; Zverev, Aleksei; Kichko, Arina; Andronov, Evgeny; Ergina, E. I.; Kostenko, I. V.

doi:10.7717/peerj.10871

Cited by 5 publications

(5 citation statements)

References 80 publications

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“…The southwestern portion of the peninsula is distinguished by the prevalence of dense, saline, heavy clay soils, whereas the northeastern region, with its more pronounced topography, has superior drainage and consequently, less saline soils. In lowland areas, a combination of hydromorphic solonetzes and chestnut-meadow soils is typically observed, which are characterised by high salinity levels due to the region's elevated soil salinity [30][31][32][33].…”

Section: Research Areamentioning

confidence: 99%

The Kerch Peninsula in Transition: A Comprehensive Analysis of Land Use and Land Cover Changes Over Thirty Years

Krivoguz

2024

Preprint

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This study presents an in-depth analysis of land use and land cover change on the Kerch Peninsula over a period spanning three decades. Utilizing convolutional neural networks alongside satellite imagery analysis, we have mapped and quantified the changes in land use and cover, revealing significant trends and transformations within the peninsula's landscape. The research aims to elucidate the interplay between anthropogenic activities, climatic variations, and policy interventions in shaping land cover dynamics, thereby providing insights into the environmental and socio-economic impacts of these changes. Our findings indicate a marked increase in urban expansion at the expense of natural ecosystems, including forests and wetlands, underscoring the urgent need for sustainable land management strategies. The study highlights the role of agricultural intensification and expansion in altering the peninsula's ecological balance and emphasizes the critical importance of integrating change analysis and prediction. By leveraging advanced remote sensing and GIS technologies, our analysis not only enhances the understanding of the complex dynamics driving land use and land cover change but also showcases the potential of predictive modeling in forecasting future land cover scenarios. The implications of this study extend beyond the Kerch Peninsula, offering valuable lessons for managing land use changes and conserving natural landscapes in similar regions globally.

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Section: Research Areamentioning

confidence: 99%

The Kerch Peninsula in Transition: A Comprehensive Analysis of Land Use and Land Cover Changes Over Thirty Years

Krivoguz

2024

Preprint

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“…The southwestern portion of the peninsula is distinguished by the prevalence of dense, saline, heavy clay soils, whereas the northeastern region, with its more pronounced topography, has superior drainage and consequently, less saline soils. In lowland areas, a combination of hydromorphic solonetzes and chestnutmeadow soils is typically observed, which are characterized by high salinity levels due to the region's elevated soil salinity [31][32][33][34].…”

Section: Research Areamentioning

confidence: 99%

The Kerch Peninsula in Transition: A Comprehensive Analysis and Prediction of Land Use and Land Cover Changes over Thirty Years

Krivoguz

2024

Sustainability

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This study presents an in-depth analysis of land use and land cover change on the Kerch Peninsula over a period spanning three decades. Convolutional neural networks were employed in conjunction with satellite imagery analysis to map and quantify the changes in land use and cover. This revealed significant trends and transformations within the peninsula’s landscape. The analysis revealed a notable increase in urban expansion, particularly at the expense of natural ecosystems. Furthermore, there was a notable reversion of agricultural lands to grasslands, driven by economic downturns and reduced agricultural activity. These land cover changes underscore the urgency of implementing sustainable land management policies. The study recommends the establishment of conservation easements to protect remaining natural ecosystems, the initiation of reforestation programs to restore degraded lands, and the development of comprehensive water management strategies to address the peninsula’s hydrological challenges. Furthermore, the study underscores the pivotal importance of integrating change analysis and predictive modeling to anticipate future land cover scenarios and inform effective land management strategies. The model developed through this research, which employs advanced remote sensing and GIS technologies, provides a robust framework for understanding and managing land use and land cover change. This model can serve as a reference for similar regions globally, offering insights that can inform sustainable land use practices and policy decisions. The findings of this study have implications that extend beyond the Kerch Peninsula. They provide insights that can inform the management of land use changes and the conservation of natural landscapes in regions facing comparable socio-economic and environmental challenges.

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“…Data were processed using the pack-ages in the R software environment ( [2] R Team 2021) and QIIME2 (Bolyen et al 2019) as described in Kimeklis et al (2021). Taxonomic assignment of the phylotypes was determined using the Silva 138 database (Quast et al 2013).…”

Section: Dna Extraction and Metagenomics Researchmentioning

confidence: 99%

Microbiome of abandoned soils of former agricultural cryogenic ecosystems of central part of Yamal region

Abakumov¹,

Kimeklis²,

Gladkov³

et al. 2023

Czech Polar Rep.

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Microbial activity plays a crucial role in the development and formation of soil properties. The active and abandoned agricultural soils in the Arctic zone represent a valuable resource that can play a crucial role in providing food security in the northern regions. The reuse of abandoned land for agriculture will reduce environmental risks in the context of a changing climate. Therefore, there is a need for monitoring studies to assess changes in soil parameters after long-term abandonment (taxonomic diversity, agrochemical and physico-chemical qualities). In the study, we evaluated the taxonomic diversity of the microbiome in abandoned (postagrogenic) and pristine soils of the Central part of the Yamal region. In the process of taxonomic analysis, more than 30 different bacterial and archaeal phyla were identified. The formation of a specific microbiome associated with anthropogenic influence in post-agrogenic sites has been shown. Most common types of soil microorganisms in samples collected from pristine and postagrogenic soils were Firmicutes (average 26.86%), Proteobacteria (average 23.41%), and Actinobacteria (average 15.45%). Firmicutes phylum was found mainly in the agrocenoses soils, Proteobacteria were mainly described in the mature tundra soils, Actinobacteria in humid conditions. An increase in diversity indices in postagrogenic soils was shown.

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Microbiomes of different ages in Rendzic Leptosols in the Crimean Peninsula

Cited by 5 publications

References 80 publications

The Kerch Peninsula in Transition: A Comprehensive Analysis of Land Use and Land Cover Changes Over Thirty Years

The Kerch Peninsula in Transition: A Comprehensive Analysis of Land Use and Land Cover Changes Over Thirty Years

The Kerch Peninsula in Transition: A Comprehensive Analysis and Prediction of Land Use and Land Cover Changes over Thirty Years

Microbiome of abandoned soils of former agricultural cryogenic ecosystems of central part of Yamal region

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