Citation
Hatano R., . (2007) Nitrogen cycling in agro-ecosystems of East Asia. [Proceedings Paper]
Abstract
Nitrate NO3-N runoff from the pedosphere to the aquasphere causes marine eutrophication and groundwater pollution. Nitrous oxide N2O emission from the pedosphere to the atmosphere causes global warming and ozone layer depletion. The current net nitrogen input NNI which is defined as the difference between total N input to land area chemical fertilizer N application import of N in food and feed biological N2 fixation and atmospheric N deposition and total N output from land area export of N in food and feed was estimated to be 52.4 Mt N yr-1 in East Asia in which chemical fertilizer N application account for 60. The results of simple regression analysis using reported data on stream NO3-N runoff from the total land area of East Asia was estimated to be 8.61 Mt N yr-1 which accounted for 27 of the total applied chemical fertilizer N in East Asia. Regression analysis using reported data on N2O and CO2 emission from soil and chemical fertilizer N pplication showed that log-transformed soil N2O emission was significantly correlated with soil C2O emission and applied chemical fertilizer N. Dramatically large soil N2O emission was found in tropical peatland cultivated with vegetables. It reached 259 kg N ha-1 at maximum which accounted for 39 of applied chemical fertilizer N. This indicates that soil N2O emission depends on organic matter decomposition as well as chemical fertilizer N application. Soil CO2 emission devided by soil CN ratio can be an indicator of gross mineralized N. Much better correlation for soil N2O emission was obtained using chemical N fertilizer application plus gross mineralized N P less than 0.001. Reported values of CO2 emission from the soil of cropland grassland and forest were significantly correlated with soil organic carbon C content. Soil N2O emission in each country was estimated by substituting the mean soil organic C content of ecological zones into the regression equation. Total N2O emission from the soil of cropland and grassland of East Asia was estimated to be 0.766 Mt N yr-1 including indirect soil N2O emission associated with stream NO3-N runoff. The proportion of soil N2O emission induced by chemical fertilizer N application and organic matter decomposition were 35 and 62 respectively. These values were similar to those reported by FAO 2001. Organic matter decomposition is an important factor inducing soil N2O emission and its increase may intensify stream NO-3-N runoff. Chemical fertilizer N application stimulates soil organic matter decomposition which was significant in soil with high organic matter content such as peat soil. To improve the accuracy of estimation high-quality geographical information including land cover area soil organic C content chemical fertilizer N application and manure N application as well as better parameterization for soil N2O emission and stream NO3-N runoff must be prepared by intensive monitoring.
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Abstract
Nitrate NO3-N runoff from the pedosphere to the aquasphere causes marine eutrophication and groundwater pollution. Nitrous oxide N2O emission from the pedosphere to the atmosphere causes global warming and ozone layer depletion. The current net nitrogen input NNI which is defined as the difference between total N input to land area chemical fertilizer N application import of N in food and feed biological N2 fixation and atmospheric N deposition and total N output from land area export of N in food and feed was estimated to be 52.4 Mt N yr-1 in East Asia in which chemical fertilizer N application account for 60. The results of simple regression analysis using reported data on stream NO3-N runoff from the total land area of East Asia was estimated to be 8.61 Mt N yr-1 which accounted for 27 of the total applied chemical fertilizer N in East Asia. Regression analysis using reported data on N2O and CO2 emission from soil and chemical fertilizer N pplication showed that log-transformed soil N2O emission was significantly correlated with soil C2O emission and applied chemical fertilizer N. Dramatically large soil N2O emission was found in tropical peatland cultivated with vegetables. It reached 259 kg N ha-1 at maximum which accounted for 39 of applied chemical fertilizer N. This indicates that soil N2O emission depends on organic matter decomposition as well as chemical fertilizer N application. Soil CO2 emission devided by soil CN ratio can be an indicator of gross mineralized N. Much better correlation for soil N2O emission was obtained using chemical N fertilizer application plus gross mineralized N P less than 0.001. Reported values of CO2 emission from the soil of cropland grassland and forest were significantly correlated with soil organic carbon C content. Soil N2O emission in each country was estimated by substituting the mean soil organic C content of ecological zones into the regression equation. Total N2O emission from the soil of cropland and grassland of East Asia was estimated to be 0.766 Mt N yr-1 including indirect soil N2O emission associated with stream NO3-N runoff. The proportion of soil N2O emission induced by chemical fertilizer N application and organic matter decomposition were 35 and 62 respectively. These values were similar to those reported by FAO 2001. Organic matter decomposition is an important factor inducing soil N2O emission and its increase may intensify stream NO-3-N runoff. Chemical fertilizer N application stimulates soil organic matter decomposition which was significant in soil with high organic matter content such as peat soil. To improve the accuracy of estimation high-quality geographical information including land cover area soil organic C content chemical fertilizer N application and manure N application as well as better parameterization for soil N2O emission and stream NO3-N runoff must be prepared by intensive monitoring.
Additional Metadata
| Item Type: | Proceedings Paper |
|---|---|
| Additional Information: | Available at Perpustakaan Sultan Abdul Samad Universiti Putra Malaysia 43400 UPM Serdang Selangor Malaysia. mal S590.2 S683 2007 Call Number |
| AGROVOC Term: | NITRATES |
| AGROVOC Term: | FERTILIZER APPLICATION |
| AGROVOC Term: | EMISSION |
| AGROVOC Term: | NITROGEN CYCLE |
| AGROVOC Term: | AGROECOSYSTEMS |
| AGROVOC Term: | AGROINDUSTRIAL SECTOR |
| AGROVOC Term: | ORGANIC MATTER |
| AGROVOC Term: | EAST ASIA |
| Geographical Term: | MALAYSIA |
| Depositing User: | Ms. Suzila Mohamad Kasim |
| Last Modified: | 24 Apr 2025 05:13 |
| URI: | http://webagris.upm.edu.my/id/eprint/10856 |
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