Abstract
Recently, questions about the return of the concept of Arctic agriculture in order to promote sustainable development of the northern regions and ensure food security have been raised more often. The re-involvement of previously-used and abandoned soils into agricultural usage can provide an essential contribution for the development of the Arctic regions. We conducted a comprehensive research of soils with different levels of abandonment in the central part of the Yamal Region (Russia) and compared their morphological features, chemical and physical properties, fertile qualities and the level of contamination with heavy and trace metals to background soils of the region. It has been noted that there are no evident features of cryoturbation processes in the profiles of abandoned agricultucal soils and regular changes in the redox regime, as a consequence of the presence of reductimorphic spots in the soil profiles, have been recorded. Soil organic matter (SOM) stock in the topsoil of abandoned soils is estimated as medium and has a similar level to the stocks of total organic matter in the agricultural soils of the Arctic circumpolar region (Norway, Sweden, and Finland). Statistically significant differences in the content of nutrients between abandoned and background soils were recorded which indicates stability of the soil nutritional state during different abandoned states. Particularly notable are the differences between the content of available forms of phosphorus. The results of the study revealed significant differences between soils of various periods of abandonment and the background soils of the Yamal Region. Abandoned soils can be used for ground and greenhouse agriculture, these soils having a high level of fertility and are not limited for use in agriculture by the level of contamination with heavy and trace metals. According to the character of trace metal contamination, abandoned and background soils are evaluated as uncontaminated on the base of Zc and Igeo indices values. Reuse of the previously abandoned soils can undoubtedly become the basis for increasing agricultural production and ensuring food security in the Yamal Region.
Highlights
The development of the agricultural sector of economy in the Arctic Regions is inextricably linked to the sustainable development and stable economic growth, in individual regions, and in the country as a whole (Maximova 2018)
Signs of cryoturbation processes are observed amongst pristine soils, which are most pronounced in the SD2 profile; other background soils (SA2 and YT3) are less turbed
Heavy and trace metals are able to migrate from the soil profile into crop and livestock products, which will lead to harmful effects on human health (Chary et al 2008, Sharma and Agrawal 2005)
Summary
The development of the agricultural sector of economy in the Arctic Regions is inextricably linked to the sustainable development and stable economic growth, in individual regions, and in the country as a whole (Maximova 2018). The development of global projects in the Arctic zone is impossible without providing food security for the regions of this circumpolar region. This issue is receiving more and more attention nowadays (Alekseeva 2017, Abakumov and Morgun 2020, Abakumov et al 2020b). Heavy and trace metals are able to migrate from the soil profile into crop and livestock products, which will lead to harmful effects on human health (Chary et al 2008, Sharma and Agrawal 2005). Agricultural soils can become contaminated with heavy metals through the use of pesticides and plant growth stimulants (Juvelikyan et al 2009). Mineral phosphate fertilizers can contain trace metal impurities (Karpova and Potatueva 2005, Karpukhin and Bushuev 2007)
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