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| 农田土壤中N_2O释放的水温特征研究 | |
| 引用本文: | 韩建刚,李占斌,朱咏莉,白红英,李世清.农田土壤中N_2O释放的水温特征研究[J].土壤通报,2004,35(3):285-289. |
| 作者姓名: | 韩建刚 李占斌 朱咏莉 白红英 李世清 |
| 作者单位: | 1. 西北农林科技大学,资源环境学院,陕西,杨凌,712100 2. 中国科学院、教育部水土保持与生态环境研究中心,陕西,杨凌,712100;西安理工大学,陕西,西安,710048 3. 中国科学院、教育部水土保持与生态环境研究中心,陕西,杨凌,712100 |
| 基金项目: | 中国科学院知识创新工程资助项目"黄土高原区域水土保持环境效应与生态环境建设对策"(KZCX1-1O-04) |
| 摘 要: | 室内模拟研究不同水热条件下土壤中N2O的释放特征,有助于阐明N2O释放的水热效应机理。本文通过室内试验研究了西北地区的典型耕种土壤土娄土中N2O在不同水温变化下的释放特征,借助化学反应动力学理论对其释放机理进行了初步的探讨。结果表明:10℃和30℃下,不同含水量的土壤中N2O的浓度变化随着培养时间的延长呈"S"型曲线。可用方程C=1/A+Bexp(-t)]来描述。随着温度的升高(10℃到30℃),N2O释放的快速期,减速期,稳定期的启动时间明显提前。在较低的土壤湿度范围内(27%至58%wfps),土壤中N2O释放的稳定浓度与土壤湿度呈正相关;田间持水量(58%wfps)时,N2O释放的稳定浓度达到最大;超过田间持水量时,其逐渐变小。当土壤湿度从27%-42%wfps增加时,30℃下土壤中N2O释放的稳定浓度大于10℃下的;当土壤湿度等于或大于田间持水量(58%wfps)时,30℃下土壤中N2O释放的稳定浓度小于10℃下的。低温下(10℃)的风干土壤(8%wfps)存在吸收N2O的现象。不同水热条件下土壤硝化和反硝化过程中N2O释放的表观化学反应速率常数和对应活化能的大小决定了土壤中N2O的释放量及难易程度。 |
| 关 键 词: | 土娄土 N2O释放 水热因子 表观速率常数 表观活化能 |
| 文章编号: | 0564-3945(2004)03-0285-05 |
| 修稿时间: | 2003年3月13日 |
Characteristics of N2O Emissions from Farmland Responding to Water and Temperature |
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| HAN Jian-gang,LI Zhan-bin.Characteristics of N2O Emissions from Farmland Responding to Water and Temperature[J].Chinese Journal of Soil Science,2004,35(3):285-289. | |
| Authors: | HAN Jian-gang LI Zhan-bin |
| Institution: | HAN Jian-gang~1,LI Zhan-bin~ |
| Abstract: | Model experiment provides possibilities for the study of N_2O emission from soil under different water and temperature regimes. Effects of water and temperature on the N_2O emission and the preliminary mechanism of the soil N_2O emission were studied in terms of the kinetic theory of chemical reactions in the Lou soil-a typically cultivated soil in arid and semiarid region in the Northwester of China. Results showed: the curve of soil N_2O concentration with incubation time under the different water regime is "S-shaped" and can be described by the equation C=1/A+Bexp(-t)] when the incubation temperatures are 10℃and 30℃. The startup time of fast-stage, deceleration-stage and stable stage of soil N_2O emission were advanced clearly with the increase of incubation temperature from 10℃to 30℃.The stable concentration of N_2O increased with the increase of soil water contents (from 27 to 58% wfps), and it became smaller gradually when water content was above the field water capacity. The highest concentration occurred at the field water capacity (58%wfps). The stable concentration at the 30℃ was higher than that at the 10℃ when the soil moisture varied from 27 to 42%wfps. However, the trend was opposite when water content was above the field water capacity (58%wfps). Also, the air-dried soil (8%wfps) could absorb N_2O weakly at the lower temperature (10℃).The apparent rate constant and activation energy of soil nitrification and denitrification process dominated the soil N_2O emission in the different water and temperature regime. |
| Keywords: | Lou soil N_2O emission Water and temperature factors Apparent rate constant Apparent activation energy |
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