Home > Research > Publications & Outputs > A spatial research of denitrification and nitri...

Research

Keywords

View graph of relations

A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Published

Standard

A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice. / Guo, H; Li, GH; Zhang, X. et al.
Proceedings of the International Symposium on Water Resources and the Urban Environment : 9-10 November 2003, Wuhan, P.R. China . ed. / Yanxin Wang; Aiguo Zhou. Beijing: CHINA ENVIRONMENTAL SCIENCE PRESS, 2003. p. 179-185.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Guo, H, Li, GH, Zhang, X, Yan, F, Zhang, D & Lu, C 2003, A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice. in Y Wang & A Zhou (eds), Proceedings of the International Symposium on Water Resources and the Urban Environment : 9-10 November 2003, Wuhan, P.R. China . CHINA ENVIRONMENTAL SCIENCE PRESS, Beijing, pp. 179-185, International Symposium on Water Resources and the Urban Environment, WUHAN, 9/11/03.

APA

Guo, H., Li, GH., Zhang, X., Yan, F., Zhang, D., & Lu, C. (2003). A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice. In Y. Wang, & A. Zhou (Eds.), Proceedings of the International Symposium on Water Resources and the Urban Environment : 9-10 November 2003, Wuhan, P.R. China (pp. 179-185). CHINA ENVIRONMENTAL SCIENCE PRESS.

Vancouver

Guo H, Li GH, Zhang X, Yan F, Zhang D, Lu C. A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice. In Wang Y, Zhou A, editors, Proceedings of the International Symposium on Water Resources and the Urban Environment : 9-10 November 2003, Wuhan, P.R. China . Beijing: CHINA ENVIRONMENTAL SCIENCE PRESS. 2003. p. 179-185

Author

Guo, H ; Li, GH ; Zhang, X. et al. / A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice. Proceedings of the International Symposium on Water Resources and the Urban Environment : 9-10 November 2003, Wuhan, P.R. China . editor / Yanxin Wang ; Aiguo Zhou. Beijing : CHINA ENVIRONMENTAL SCIENCE PRESS, 2003. pp. 179-185

Bibtex

@inproceedings{804b7ed7d5d1440c87192f33aede98f8,
title = "A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice",
abstract = "As a crucial step in the N-cycle, denitrification not only provides an important pathway for nitrogen losses from cultivated land, but also helps to prevent excess of nitrate (and nitrite) reaching groundwater. Furthermore, denitrification is often considered to be a major source of N(2)O, which contributes-to global warm and the destruction of stratospheric ozone. Denitrification potential and nitrification potential of soils at different depths beneath four plots, including three differently fertilized plots cultivating celeries and one uncultivated plot (control plot) in Dayu, Kunming City, were studied in the laboratory, and N(2)O emissions from each plot were in-situ monitored, in our study. The application of fertilizers is the dominant factor controlling nitrification potential of soils at a depth of 30 cm below soil surface, which resulted in the highest nitrification potential of the soils of the plot applied by the largest amount of fertilizers. O(2) available and the soil moisture content are the important limiting factors for nitrification of soils in. the profiles. However, not fertilizer application, but the soil moisture content is the dominant factor controlling denitrification rate in soils at a depth of 30 cm below soil surface. Denitrification potential decreased in the soils at depths between 30 and 100 cm below soil surface and increased at depths greater than 100 cm below soil surface with an increase of the soil depth. This decrease is affected by a decrease in the size of the denitrification community with depth rather than solely a limitation of substrate. The increase Was probably caused by groundwater, which would favor the propagation of the denitrification community. Chemical fertilizer application also stimulated N(2)O emission. In addition to N(2)O, N(2) was produced by denitrification.",
keywords = "N2O PRODUCTION, groundwater, nitrification, TILLAGE, denitrification, N(2)O, NITROUS-OXIDE EMISSIONS, fertilizer, GRASSLAND, PASTURE, SEDIMENTS",
author = "H Guo and GH Li and X. Zhang and F Yan and D Zhang and C Lu",
year = "2003",
language = "English",
isbn = "7-80163-764-X",
pages = "179--185",
editor = "Yanxin Wang and Aiguo Zhou",
booktitle = "Proceedings of the International Symposium on Water Resources and the Urban Environment",
publisher = "CHINA ENVIRONMENTAL SCIENCE PRESS",
note = "International Symposium on Water Resources and the Urban Environment ; Conference date: 09-11-2003 Through 10-11-2003",

}

RIS

TY - GEN

T1 - A spatial research of denitrification and nitrification potential of agricultural soils in relation to fertilization practice

AU - Guo, H

AU - Li, GH

AU - Zhang, X.

AU - Yan, F

AU - Zhang, D

AU - Lu, C

PY - 2003

Y1 - 2003

N2 - As a crucial step in the N-cycle, denitrification not only provides an important pathway for nitrogen losses from cultivated land, but also helps to prevent excess of nitrate (and nitrite) reaching groundwater. Furthermore, denitrification is often considered to be a major source of N(2)O, which contributes-to global warm and the destruction of stratospheric ozone. Denitrification potential and nitrification potential of soils at different depths beneath four plots, including three differently fertilized plots cultivating celeries and one uncultivated plot (control plot) in Dayu, Kunming City, were studied in the laboratory, and N(2)O emissions from each plot were in-situ monitored, in our study. The application of fertilizers is the dominant factor controlling nitrification potential of soils at a depth of 30 cm below soil surface, which resulted in the highest nitrification potential of the soils of the plot applied by the largest amount of fertilizers. O(2) available and the soil moisture content are the important limiting factors for nitrification of soils in. the profiles. However, not fertilizer application, but the soil moisture content is the dominant factor controlling denitrification rate in soils at a depth of 30 cm below soil surface. Denitrification potential decreased in the soils at depths between 30 and 100 cm below soil surface and increased at depths greater than 100 cm below soil surface with an increase of the soil depth. This decrease is affected by a decrease in the size of the denitrification community with depth rather than solely a limitation of substrate. The increase Was probably caused by groundwater, which would favor the propagation of the denitrification community. Chemical fertilizer application also stimulated N(2)O emission. In addition to N(2)O, N(2) was produced by denitrification.

AB - As a crucial step in the N-cycle, denitrification not only provides an important pathway for nitrogen losses from cultivated land, but also helps to prevent excess of nitrate (and nitrite) reaching groundwater. Furthermore, denitrification is often considered to be a major source of N(2)O, which contributes-to global warm and the destruction of stratospheric ozone. Denitrification potential and nitrification potential of soils at different depths beneath four plots, including three differently fertilized plots cultivating celeries and one uncultivated plot (control plot) in Dayu, Kunming City, were studied in the laboratory, and N(2)O emissions from each plot were in-situ monitored, in our study. The application of fertilizers is the dominant factor controlling nitrification potential of soils at a depth of 30 cm below soil surface, which resulted in the highest nitrification potential of the soils of the plot applied by the largest amount of fertilizers. O(2) available and the soil moisture content are the important limiting factors for nitrification of soils in. the profiles. However, not fertilizer application, but the soil moisture content is the dominant factor controlling denitrification rate in soils at a depth of 30 cm below soil surface. Denitrification potential decreased in the soils at depths between 30 and 100 cm below soil surface and increased at depths greater than 100 cm below soil surface with an increase of the soil depth. This decrease is affected by a decrease in the size of the denitrification community with depth rather than solely a limitation of substrate. The increase Was probably caused by groundwater, which would favor the propagation of the denitrification community. Chemical fertilizer application also stimulated N(2)O emission. In addition to N(2)O, N(2) was produced by denitrification.

KW - N2O PRODUCTION

KW - groundwater

KW - nitrification

KW - TILLAGE

KW - denitrification

KW - N(2)O

KW - NITROUS-OXIDE EMISSIONS

KW - fertilizer

KW - GRASSLAND

KW - PASTURE

KW - SEDIMENTS

M3 - Conference contribution/Paper

SN - 7-80163-764-X

SP - 179

EP - 185

BT - Proceedings of the International Symposium on Water Resources and the Urban Environment

A2 - Wang, Yanxin

A2 - Zhou, Aiguo

PB - CHINA ENVIRONMENTAL SCIENCE PRESS

CY - Beijing

T2 - International Symposium on Water Resources and the Urban Environment

Y2 - 9 November 2003 through 10 November 2003

ER -