Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content

Переведенное название: Элементный состав и структурные особенности гумусовых веществ из лесных подстилок почв с разным содержанием R2O3

Результат исследований: Материалы конференцийтезисынаучнаярецензирование

Выдержка

Up to 80% of fine roots can be contained in the forest floor (FF); therefore, the composition and pools of organogenic horizons largely determine the productivity of the trees. The stages of litter transformation in FF are poorly studied. We tested the hypothesis of the influence of R2O3 on the quality as of the whole FF as humic substances in FF. The soils of four key plots of dry pine lichen-green moss forests of the Leningrad Region differed in terms of the R2O3 content in soil-forming sands (1.7–32.0 mass %) and in forest floor (4.1–17.1 mass%). The age of the main generation of pine was from 100 to 130 years. The FF thickness varied from 7 to 10 cm. Sampling was carried out in fivefold repetitions of L, F, H sub-horizons. The general physicochemical characteristics of the soil and the total elements were determined. Humic substances (HS) isolated from fermented and humified sub-horizons (F and H) have been characterized for their elemental composition (C, N, H). Changes in molar H:C, O:C, C:N and ratio of aromatic and aliphatic fragments have been revealed. Solid-state 13C nuclear magnetic resonance spectroscopy was applied to identify the structure of HS. HS of the FF showed low aromaticity and absence of correlation with R2O3. The ratio of gross C/N of the F and H sub-horizons of forest floor were from 28-32 to 37-43. The gross C/N and the total Fe2O3 content were not correlated. A weak correlation was found with the Al2O3content. More clear dependences were found for C/N of HS with Fe2O3 and Al2O3 1) y1 = -2,7124x + 35,182, R² = 0,698 and 2) y2 = -0,728x + 35,431 R² = 0,719 correspondingly. Conclusion. The effect of R2O3 was revealed only in relation to the nitrogenous part of the HS.
Язык оригиналаанглийский
Страницы28
СостояниеОпубликовано - июн 2019
СобытиеNatural Organic Matters geochemical flows and properties: from theory to practice - Рига, Латвия
Продолжительность: 5 июн 2019 → …

Конференция

КонференцияNatural Organic Matters geochemical flows and properties: from theory to practice
Сокращенный заголовокHUMI
СтранаЛатвия
ГородРига
Период5/06/19 → …

Ключевые слова

  • humic acids
  • elemental composition
  • 13C NMR
  • podzol
  • pine forest

Цитировать

Nadporozhskaya, M., Yakkonen, K., Ryumin, A., & Mirin, D. (2019). Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content. 28. Выдержка из Natural Organic Matters geochemical flows and properties: from theory to practice, Рига, Латвия.
Nadporozhskaya, Marina ; Yakkonen, Kirill ; Ryumin, Alexander ; Mirin, Denis. / Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content. Выдержка из Natural Organic Matters geochemical flows and properties: from theory to practice, Рига, Латвия.
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title = "Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content",
abstract = "Up to 80{\%} of fine roots can be contained in the forest floor (FF); therefore, the composition and pools of organogenic horizons largely determine the productivity of the trees. The stages of litter transformation in FF are poorly studied. We tested the hypothesis of the influence of R2O3 on the quality as of the whole FF as humic substances in FF. The soils of four key plots of dry pine lichen-green moss forests of the Leningrad Region differed in terms of the R2O3 content in soil-forming sands (1.7–32.0 mass {\%}) and in forest floor (4.1–17.1 mass{\%}). The age of the main generation of pine was from 100 to 130 years. The FF thickness varied from 7 to 10 cm. Sampling was carried out in fivefold repetitions of L, F, H sub-horizons. The general physicochemical characteristics of the soil and the total elements were determined. Humic substances (HS) isolated from fermented and humified sub-horizons (F and H) have been characterized for their elemental composition (C, N, H). Changes in molar H:C, O:C, C:N and ratio of aromatic and aliphatic fragments have been revealed. Solid-state 13C nuclear magnetic resonance spectroscopy was applied to identify the structure of HS. HS of the FF showed low aromaticity and absence of correlation with R2O3. The ratio of gross C/N of the F and H sub-horizons of forest floor were from 28-32 to 37-43. The gross C/N and the total Fe2O3 content were not correlated. A weak correlation was found with the Al2O3content. More clear dependences were found for C/N of HS with Fe2O3 and Al2O3 1) y1 = -2,7124x + 35,182, R² = 0,698 and 2) y2 = -0,728x + 35,431 R² = 0,719 correspondingly. Conclusion. The effect of R2O3 was revealed only in relation to the nitrogenous part of the HS.",
keywords = "humic acids, elemental composition, 13C NMR, podzol, pine forest",
author = "Marina Nadporozhskaya and Kirill Yakkonen and Alexander Ryumin and Denis Mirin",
note = "Marina Nadporozhskaya, Kirill Yakkonen, Alexander Ryumin, Denis Mirin. Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content // The Book of Abstracts of the International Conference “Natural Organic Matters geochemical flows and properties: from theory to practice”(HUMIC). Riga, University of Latvia, 2019. P. 28.; null ; Conference date: 05-06-2019",
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Nadporozhskaya, M, Yakkonen, K, Ryumin, A & Mirin, D 2019, 'Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content' Natural Organic Matters geochemical flows and properties: from theory to practice, Рига, Латвия, 5/06/19, стр. 28.

Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content. / Nadporozhskaya, Marina; Yakkonen, Kirill; Ryumin, Alexander; Mirin, Denis.

2019. 28 Выдержка из Natural Organic Matters geochemical flows and properties: from theory to practice, Рига, Латвия.

Результат исследований: Материалы конференцийтезисынаучнаярецензирование

TY - CONF

T1 - Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content

AU - Nadporozhskaya, Marina

AU - Yakkonen, Kirill

AU - Ryumin, Alexander

AU - Mirin, Denis

N1 - Marina Nadporozhskaya, Kirill Yakkonen, Alexander Ryumin, Denis Mirin. Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content // The Book of Abstracts of the International Conference “Natural Organic Matters geochemical flows and properties: from theory to practice”(HUMIC). Riga, University of Latvia, 2019. P. 28.

PY - 2019/6

Y1 - 2019/6

N2 - Up to 80% of fine roots can be contained in the forest floor (FF); therefore, the composition and pools of organogenic horizons largely determine the productivity of the trees. The stages of litter transformation in FF are poorly studied. We tested the hypothesis of the influence of R2O3 on the quality as of the whole FF as humic substances in FF. The soils of four key plots of dry pine lichen-green moss forests of the Leningrad Region differed in terms of the R2O3 content in soil-forming sands (1.7–32.0 mass %) and in forest floor (4.1–17.1 mass%). The age of the main generation of pine was from 100 to 130 years. The FF thickness varied from 7 to 10 cm. Sampling was carried out in fivefold repetitions of L, F, H sub-horizons. The general physicochemical characteristics of the soil and the total elements were determined. Humic substances (HS) isolated from fermented and humified sub-horizons (F and H) have been characterized for their elemental composition (C, N, H). Changes in molar H:C, O:C, C:N and ratio of aromatic and aliphatic fragments have been revealed. Solid-state 13C nuclear magnetic resonance spectroscopy was applied to identify the structure of HS. HS of the FF showed low aromaticity and absence of correlation with R2O3. The ratio of gross C/N of the F and H sub-horizons of forest floor were from 28-32 to 37-43. The gross C/N and the total Fe2O3 content were not correlated. A weak correlation was found with the Al2O3content. More clear dependences were found for C/N of HS with Fe2O3 and Al2O3 1) y1 = -2,7124x + 35,182, R² = 0,698 and 2) y2 = -0,728x + 35,431 R² = 0,719 correspondingly. Conclusion. The effect of R2O3 was revealed only in relation to the nitrogenous part of the HS.

AB - Up to 80% of fine roots can be contained in the forest floor (FF); therefore, the composition and pools of organogenic horizons largely determine the productivity of the trees. The stages of litter transformation in FF are poorly studied. We tested the hypothesis of the influence of R2O3 on the quality as of the whole FF as humic substances in FF. The soils of four key plots of dry pine lichen-green moss forests of the Leningrad Region differed in terms of the R2O3 content in soil-forming sands (1.7–32.0 mass %) and in forest floor (4.1–17.1 mass%). The age of the main generation of pine was from 100 to 130 years. The FF thickness varied from 7 to 10 cm. Sampling was carried out in fivefold repetitions of L, F, H sub-horizons. The general physicochemical characteristics of the soil and the total elements were determined. Humic substances (HS) isolated from fermented and humified sub-horizons (F and H) have been characterized for their elemental composition (C, N, H). Changes in molar H:C, O:C, C:N and ratio of aromatic and aliphatic fragments have been revealed. Solid-state 13C nuclear magnetic resonance spectroscopy was applied to identify the structure of HS. HS of the FF showed low aromaticity and absence of correlation with R2O3. The ratio of gross C/N of the F and H sub-horizons of forest floor were from 28-32 to 37-43. The gross C/N and the total Fe2O3 content were not correlated. A weak correlation was found with the Al2O3content. More clear dependences were found for C/N of HS with Fe2O3 and Al2O3 1) y1 = -2,7124x + 35,182, R² = 0,698 and 2) y2 = -0,728x + 35,431 R² = 0,719 correspondingly. Conclusion. The effect of R2O3 was revealed only in relation to the nitrogenous part of the HS.

KW - humic acids

KW - elemental composition

KW - 13C NMR

KW - podzol

KW - pine forest

M3 - Abstract

SP - 28

ER -

Nadporozhskaya M, Yakkonen K, Ryumin A, Mirin D. Elemental composition and structural features of humic substances in forest floor of sandy soils with different R2O3 content. 2019. Выдержка из Natural Organic Matters geochemical flows and properties: from theory to practice, Рига, Латвия.