Carbon and nitrogen in Danish forest soils - Contents and distribution determined by soil order
Research output: Contribution to journal › Journal article › Research › peer-review
Standard
Carbon and nitrogen in Danish forest soils - Contents and distribution determined by soil order. / Vejre, Henrik; Callesen, Ingeborg; Vesterdal, Lars; Raulund-Rasmussen, Karsten.
In: Soil Science Society of America Journal, Vol. 67, No. 1, 2003, p. 335-343.Research output: Contribution to journal › Journal article › Research › peer-review
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - JOUR
T1 - Carbon and nitrogen in Danish forest soils - Contents and distribution determined by soil order
AU - Vejre, Henrik
AU - Callesen, Ingeborg
AU - Vesterdal, Lars
AU - Raulund-Rasmussen, Karsten
PY - 2003
Y1 - 2003
N2 - Increasing atmospheric CO2 concentrations, and widespread deposition of N to terrestrial ecosystems has increased the focus on soil C and N pools. The aim of this study was to estimate the size and distribution of organic C and N pools in well-drained Danish forest soils. We examined 140 forest soil profiles from pedological surveys of Danish forest soils. We calculated total C and N pools in organic layers and mineral soils to a depth of 1 m. The profiles represent variations in texture (sandy to loamy), and soil order (USDA soil taxonomy Spodosols, Alfisols, Entisols,,and Inceptisols). The average total organic C and N contents were 12.5 and 0.61 kg m(-2) respectively. There were large differences in total C and N among soil orders. Spodosols had the greatest C content (14.6 kg m(-2)), and Alfisols the least (8.8 kg m(-2)), while the N content was highest in Alfisols (0.75 kg m(-2)) and least in Spodosols (0.51 kg m(-2)). The main contributor to the high C content in Spodosols is the spodic horizons containing illuvial humus, and thick organic horizons. Carbon and N concentrations decreased with soil depth. Soil clay content was negatively correlated to C content and positively correlated to N content. Soil order and horizon designations may be useful in predicting the total C and N content of Danish forest soils, and may also predict potential for C sequestration following afforestation of arable land.
AB - Increasing atmospheric CO2 concentrations, and widespread deposition of N to terrestrial ecosystems has increased the focus on soil C and N pools. The aim of this study was to estimate the size and distribution of organic C and N pools in well-drained Danish forest soils. We examined 140 forest soil profiles from pedological surveys of Danish forest soils. We calculated total C and N pools in organic layers and mineral soils to a depth of 1 m. The profiles represent variations in texture (sandy to loamy), and soil order (USDA soil taxonomy Spodosols, Alfisols, Entisols,,and Inceptisols). The average total organic C and N contents were 12.5 and 0.61 kg m(-2) respectively. There were large differences in total C and N among soil orders. Spodosols had the greatest C content (14.6 kg m(-2)), and Alfisols the least (8.8 kg m(-2)), while the N content was highest in Alfisols (0.75 kg m(-2)) and least in Spodosols (0.51 kg m(-2)). The main contributor to the high C content in Spodosols is the spodic horizons containing illuvial humus, and thick organic horizons. Carbon and N concentrations decreased with soil depth. Soil clay content was negatively correlated to C content and positively correlated to N content. Soil order and horizon designations may be useful in predicting the total C and N content of Danish forest soils, and may also predict potential for C sequestration following afforestation of arable land.
KW - Former LIFE faculty
KW - Organic-matter;Norway spruce;storage;release;
M3 - Journal article
VL - 67
SP - 335
EP - 343
JO - Soil Science Society of America Journal
JF - Soil Science Society of America Journal
SN - 0361-5995
IS - 1
ER -
ID: 8028679