Characteristics of soil carbon and nutrient stocks across land use types in a forest region of central Korea

Han, Si Ho; Meng, Loth; Park, Gwan Soo; Kim, S. B.; Cho, Min Seok; Park, Byung Bae

doi:10.1080/21580103.2017.1341434

Cited by 5 publications

(8 citation statements)

References 16 publications

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“…Apple trees often require signi cant amounts of calcium to produce high-production fruits, which lead to addition of liming in orchard soil (Vang-Petersen 1980). MP's intensive management practices, including sawdust compost application, pruning, and vegetation control, contributed to a high macronutrient concentration in the soil (Han et al 2017). In contrast, lower calcium levels in PD and QA may result from their acidic pH and natural rooting habits (Bueis et al 2019).…”

Section: Variation In Soil Physical and Chemical Properties Across La...mentioning

confidence: 99%

“…Such a modi cation can have adverse effects on soil quality and properties. Soil properties and nutrient dynamics are likely to change with land use intensi cation as surface soils are disturbed and replaced by the soil from deeper layers (Han et al 2017;Li et al 2021; Park et al 2021). Moreover, the effects of land use changes on soil quality and properties can also impact root distribution in urban areas through changes in soil pH, organic matter content, and water and nutrient availability (Ramesh et al 2019).…”

Section: Introductionmentioning

confidence: 99%

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Fine root distribution and soil physicochemical properties variations in four contrasting urban land use types in South Korea

Tran

Carayugan

et al. 2023

Preprint

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Fine root distribution patterns across land use types and their relationships with soil physicochemical properties are crucial for sustainable management of vegetated urban land uses amid urbanization and increasing demands for green spaces. Thus, we investigated soil properties and spatial distribution of fine roots mass in two diameter classes of fine roots (0–2 and 2–5 mm) at six soil depths across different land use types in urban areas, including grassland (ZJ), apple orchards (MP), pine forest (PD) and oak forest (QA). Soil pH, organic matter (OM), potassium, calcium varied significantly across land use types. Available P, Ca2+, Mg2+, pH, and NO3-N were higher in ZJ and MP, while CEC, C/N ratio, and OM were higher in PD and QA. Total fine root biomass and necromass (0-5cm) across the 0–30 cm soil profile in ZJ, MP, PD, QA were 440.09, 98.30, 487.21, 700.30 g m− 2 and 88.49, 1.06, 34.33, 64.49 g m− 2, respectively. Results revealed that fine root vertical distribution varied among land use types and most of fine roots were found in the topsoil layers (0–10 cm), except for MP. Fine root biomass in the upper soil layer (0–10 cm) across land use types followed the order ZJ > QA > PD > MP. In conclusion, fine root biomass/necromass differed significantly, primarily explained by variations in soil physicochemical properties and depth. Findings of the study can enhance understanding of the factors influencing spatial distribution of fine roots of various plants and provide implications for sustainable management of different vegetated land uses in urban areas.

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Section: Variation In Soil Physical and Chemical Properties Across La...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Fine root distribution and soil physicochemical properties variations in four contrasting urban land use types in South Korea

Tran

Carayugan

et al. 2023

Preprint

Self Cite

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“…Nevertheless, tree species in a forest plantation has been reported an important factor related to soil C storage, because the litter inputs in soil may vary depending on tree species in the same plantation (Binkley & Giardina, 1998;Chen & Li, 2003;Framstad et al, 2013;Lukina et al, 2020). Another, authors have been reported the correlation between tree species and C and N stock in the soil (Chen & Li, 2003;Han et al, 2017;Augusto et al, 2002). Besides, soil type and parental material (Angst et al, 2018), type of vegetation (Galicia et al, 2016) and the age of the forest site (Casiano-Domínguez et al, 2018), are important for soil carbon storage.…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, estimates of C stocks in forests soil have become relevant at global, national, regional and local scale (Li et al, 2012;Han et al, 2017;Kim et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Soil Carbon Storage in Experimental Forest Plantations with Tropical Species

Orozco¹,

Garnica²,

Acuña³

et al. 2022

OJF

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“…Quantitative evaluation of carbon (C) and nitrogen (N) stocks in forests is important because of the role of C sequestration in mitigating global climate change and sustainable forest productivity. Consequently, estimates of C and N stocks in forests have been made at global, national, regional, landscape, and stand scales [1][2][3][4][5]. The role of C and N stocks in forests is likely to vary on a stand scale because nutrient conversion rates and allocation mechanisms differ between tree species [1,6,7].…”

Section: Introductionmentioning

confidence: 99%

A Stand-Level Comparison of Carbon and Nitrogen Distribution in an Exotic Japanese Cedar Plantation and a Natural Oak Stand

Baek

Bae

Kim

2021

Forests

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This study compared carbon (C) and nitrogen (N) distribution at a stand level in an exotic Japanese cedar (Cryptomeria japonica D. Don) plantation and a natural Serrata oak (Quercus serrata Murray) stand growing under similar site conditions in South Korea. The aboveground biomass (stems, branches, and leaves) of 20 trees (10 of each species), the forest floor, and the mineral soils to a depth of 30 cm were sampled to determine C and N concentrations. Except in branches, C concentrations were significantly higher (p < 0.05) in the Japanese cedar plantation than in the Serrata oak stand, whereas N concentrations, except in the stem bark, were significantly lower in the Japanese cedar plantation. Reforestation with an exotic coniferous species significantly increased the C stocks in the aboveground biomass and the N stocks in the forest floor and mineral soils compared with a natural oak stand. The N stocks in the aboveground biomass were dependent on either the N concentrations or the C stocks in the tree components, whereas soil C and N stocks were negatively related to soil fertility parameters such as C/N ratio. Although it is uncertain which factors are responsible for the difference in aboveground C and soil N stocks following the establishment of Japanese cedar plantations on former natural Serrata oak stands, tree replacement may have an impact on C and N allocation within different forest compartments.

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Characteristics of soil carbon and nutrient stocks across land use types in a forest region of central Korea

Abstract: View related articles View Crossmark data Citing articles: 1 View citing articles Characteristics of soil carbon and nutrient stocks across land use types in a forest region of central Korea

Cited by 5 publications

References 16 publications

Fine root distribution and soil physicochemical properties variations in four contrasting urban land use types in South Korea

Fine root distribution and soil physicochemical properties variations in four contrasting urban land use types in South Korea

Soil Carbon Storage in Experimental Forest Plantations with Tropical Species

A Stand-Level Comparison of Carbon and Nitrogen Distribution in an Exotic Japanese Cedar Plantation and a Natural Oak Stand

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