Macro- and Micronutrient Contents in Soils of a Chronosequence of Naturally Regenerated Birch Stands on Abandoned Agricultural Lands in Central Poland

Gawęda, Tomasz; Małek, Stanisław; Błońska, Ewa; Jagodziński, Andrzej M.; Bijak, Szymon; Zasada, M.

doi:10.3390/f12070956

Cited by 8 publications

(7 citation statements)

References 52 publications

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“…Coal mining areas are highly susceptible to heavy metal pollution released from coal gangue (Liu et al, 2018), and we analyzed both total soil elements and effective state elements at different soil depths after long-term woody plant restoration. We found that the soil effective state elements decreased signi cantly, mainly at the 50-100 cm depth after restoration of the four woody plant species, in agreement with a previous report (Gawęda et al, 2021), and that plant roots developed more strongly at deeper depths and promoted the uptake of deep soil nutrients and metals. By contrast, the plant-free control area showed a sharp decrease at 10 cm depth, implying that effective elements are subject to interference by external factors, such as sunlight, weathering, and rainfall (Wang et al, 2019).…”

Section: Discussionsupporting

confidence: 92%

Long-term in situ restoration of different arbors in coal areas reconfigures metabolite and bacterial symbiosis patterns in vertical soils

Wang

Bai²,

Yu³

et al. 2022

Preprint

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Aims To elucidate the dominant effects of long-term restoration of different woody plants on the reconstitution of multiple environmental and biological factors in vertical soils of coal mining areas. Methods Soil physicochemical properties, soil enzyme activities, soil ionophore, microbial community structure, and soil metabolite distribution characteristics and interaction networks were analyzed at different vertical depths after long-term restoration (20 years) of four woody plant species in the coal mine area. Results (1) Phytoremediation increased the soil urease, sucrase, and acid phosphatase activities by 4.23–8.82, 4.52–8.29, and 3.28–5.26 times at 10 cm depth. It also reduced the active element content in the soil, and alleviated the mine toxicity stress of S, Fe, As, Pb, and U in the soil. (2) The Richness index and Shannon index of soil microorganisms increased by 4.77–23.81% and 2.93–7.93% after long-term restoration of woody plants, and the bacterial ecological niche was broadened. The microbial community structure shaped by different woody plants was highly similar, but the community similarity decreased with the increase in relative distance at vertical depth. Soil Cu, Fe, Mo, Na, and pH were important influencing factors of community structure for Sphingomonas, Pseudarthrobacter, Nocardioides, and Thiobacillus. (3) Woody plant restoration increased the abundance of soil metabolites (10 cm depth), and induced metabolites such as Organooxygen compounds, Carboxylic acids and derivatives, and Fatty Acyls as the main microbial regulators. Conclusions Woody plants have different patterns of environmental and biometabolic factor configurations for different depths of soil during mine restoration.

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Section: Discussionsupporting

confidence: 92%

Long-term in situ restoration of different arbors in coal areas reconfigures metabolite and bacterial symbiosis patterns in vertical soils

Wang

Bai²,

Yu³

et al. 2022

Preprint

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“…Last research has shown that B. pendula has developed traits, which help to survive [ 48 ]. For this reason, it is used as a remedial plant [ 49 – 51 ], which makes it more and more widespread and conducive to use in biomonitoring [ 1 , 51 , 52 ]. Therefore, it becomes important to determine the influence of the soil species, as well as other physicochemical properties of the soil on the possibility of accumulation of heavy metals.…”

Section: Discussionmentioning

confidence: 99%

Antioxidant activities in relation to the transport of heavy metals from the soil to different parts of Betula pendula (Roth.)

et al. 2023

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Background Birch is a tree with a common occurrence in the environment and its organs are used in the form of herbal material. An important aspect of this study is birch pollen, which is a problem for allergy sufferers, and due to a variety of environmental conditions, its allergenicity may increase. Among the organs studied, inflorescences deserve attention, which, as seen from an overview of the literature, are analysed for the content of heavy metals for the first time in this study. Results This paper investigated the relationship between antioxidant properties and the content of heavy metals (Cu, Zn, Cd, Pb, Ni and Cr) as the plant's response to stress, taking into account both the vegetative and generative organs of the tree Betula pendula. While studying the accumulation of elements in individual organs, the research was extended to include the aspect of different environmental conditions, reflected in two soil types of differing physicochemical properties: sandy and silty soils. In order to thoroughly analyse the transport of the studied heavy metals from the soil to individual organs (leaves, inflorescences and pollen), ecotoxicological indicators were used. A modified translocation factor (TF) index into sTF (sap translocation factor) was presented as a novelty in research, calculated based on the content of selected heavy metals in the sap flowing to individual birch organs. This allowed for a more complete description of the transport of elements in the aerial parts of plants, indicating the accumulation of zinc and cadmium, especially in leaves. Among the studied environmental conditions which may affect the accumulation of heavy metals, sandy soil is of particular significance, conditioning lower pH values, among other things. However, analysis of the reaction of birch to the conditions of the soil environment and the content of heavy metals, based on antioxidant properties, demonstrated an evident reaction to stress, but without an unambiguous response among the studied vegetative and generative organs. Conclusions As birch is a plant with wide utility values, monitoring studies are advisable to exclude the risk of accumulation of heavy metals in its organs, and for this purpose it may be useful to use the sTF indicator and assess the antioxidant potential.

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“…Daugaviete et al (2003) and Aosaar et al (2016) reported positive effects of birch trees on soil N during the first few years after afforestation. Additionally, Uri et al (2012) and Gawęda et al (2014) observed increasing contents of the major nutrients in soils under birch chronosequences. Birch biomass is generally moderately abundant in nutrients; however, their concentrations are strongly controlled by their bioavailability (Daugaviete et al 2015).…”

Section: Introductionmentioning

confidence: 89%

“…Fresh silver birch biomass is moderately abundant in P, with the highest contents being reported in leaves and the lowest in wood (Novák et al 2017;Rustowska 2022). A major pool of the element is allocated in the aboveground biomass, in the branches and foliage (Ukonmaanaho et al 2008;Gawęda et al 2014;Novák et al 2017). The silver birch litterfall in the studied stands contained 1.05-1.68 g kg −1 P, and leaves were the richest source of the element among the litterfall fractions, followed by flowers and seeds (Table 4, Supplementary material).…”

Section: Litterfall Chemistrymentioning

confidence: 99%

“…Nutrient distribution is uneven in tree organs, usually reaching their highest contents in the leaves, followed by the fine roots or bark, with the lowest in the stemwood (Rustowska 2022). According to Gawęda et al (2014), the nutrient allocation in a 12-year-old silver birch stand was 543.41 kg ha −1 N, 60.03 kg ha −1 P, 186.42 kg ha −1 K, 220.40 kg ha −1 Ca, and 50.48 kg ha −1 magnesium (Mg) in the aboveground biomass, and 59. 67, 13.44, 33.09, 40.55, and 6.39 kg ha −1 in the roots, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Nutrient fluxes via litterfall in silver birch (Betula pendula Roth) stands growing on post-arable soils

et al. 2023

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The purpose of this study was to evaluate the importance of litterfall as a link in biogeochemical cycling of certain elements (C, N, P, K, Ca, Mg, Fe, Mn, Cu, and Zn) in silver birch stands growing on post-arable soils under temperate climatic conditions (Poland). The study covered three stands on sandy soils (21, 29, and 40 years old) and three on loamy soils (15, 33, and 41 years old). Litterfall was collected during 2020–2021 and analysed using standard procedures. Elemental contents were determined also in green leaves collected from the tree crowns in early summer to determine intensity of retranslocation. The total litterfall production varied from 2576 to 5293 kg ha−1, depending on the stand and year. These values are typical of temperate forests. Litterfall production was positively correlated with stand age. Leaves made up the major fraction, followed by twigs. Silver birch litterfall was generally rich in nutrients compared to many other tree species typical for temperate climatic zone. Nutrient fluxes to the soil were in the upper limits reported in the literature. It may partially be an effect of the post-arable history of these stands. Large fluxes of nutrients to the soil via litterfall are important in the context of the high nutritional demands of the studied tree species. This study also showed that silver birch strongly retranslocates N, P, and K from senescing leaves, whereas Ca, Mg, Fe, Mn, Cu, and Zn are accumulated in these organs.

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Macro- and Micronutrient Contents in Soils of a Chronosequence of Naturally Regenerated Birch Stands on Abandoned Agricultural Lands in Central Poland

Cited by 8 publications

References 52 publications

Long-term in situ restoration of different arbors in coal areas reconfigures metabolite and bacterial symbiosis patterns in vertical soils

Long-term in situ restoration of different arbors in coal areas reconfigures metabolite and bacterial symbiosis patterns in vertical soils

Antioxidant activities in relation to the transport of heavy metals from the soil to different parts of Betula pendula (Roth.)

Nutrient fluxes via litterfall in silver birch (Betula pendula Roth) stands growing on post-arable soils

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