农业工程学报
農業工程學報
농업공정학보
2015年
15期
78-85
,共8页
灌溉%排放控制%氮氧化物%寒地稻作%N2O
灌溉%排放控製%氮氧化物%寒地稻作%N2O
관개%배방공제%담양화물%한지도작%N2O
irrigation%emission control%nitrogen oxide%cold region rice culture%nitrous oxide
2014年在大田试验条件下,设置控制灌溉、间歇灌溉、浅湿灌溉及淹灌4种水分管理模式,采用静态暗箱-气相色谱法田间观测寒地水稻生长季N2O排放特征,研究不同灌溉模式对寒地稻田N2O排放的影响及N2O排放对土壤环境要素的响应,同时测定水稻产量,以期为寒地稻田N2O排放特征研究提供对策。结果表明:不同灌溉模式下N2O排放的高峰均出现在水分交替频繁阶段,水稻生育阶段前期,各处理N2O排放都处于较低水平,泡田期几乎无N2O排放。与淹灌相比,间歇灌溉使N2O排放总量增加47.3%,控制灌溉和浅湿灌溉使N2O排放总量减少40.7%和39.6%。寒地稻田N2O排放通量与土壤硝态氮含量关系密切,与土壤10 cm温度显著相关(P<0.05)。水稻生长期间各处理 N2O排放顺序间歇灌溉>淹灌,二者均显著高于浅湿灌溉和控制灌溉(P<0.05)。各处理水稻产量以浅湿灌溉最低、其他方式差异不显著。可见,间歇灌溉有助于提高水稻产量,但会促进稻田N2O的排放。在综合考虑水稻产量及稻田温室效应的需求下,控制灌溉为最佳灌溉方式,应予以高度重视。该研究可为黑龙江寒地稻作区选择节水减排模式提供科学支撑。
2014年在大田試驗條件下,設置控製灌溉、間歇灌溉、淺濕灌溉及淹灌4種水分管理模式,採用靜態暗箱-氣相色譜法田間觀測寒地水稻生長季N2O排放特徵,研究不同灌溉模式對寒地稻田N2O排放的影響及N2O排放對土壤環境要素的響應,同時測定水稻產量,以期為寒地稻田N2O排放特徵研究提供對策。結果錶明:不同灌溉模式下N2O排放的高峰均齣現在水分交替頻繁階段,水稻生育階段前期,各處理N2O排放都處于較低水平,泡田期幾乎無N2O排放。與淹灌相比,間歇灌溉使N2O排放總量增加47.3%,控製灌溉和淺濕灌溉使N2O排放總量減少40.7%和39.6%。寒地稻田N2O排放通量與土壤硝態氮含量關繫密切,與土壤10 cm溫度顯著相關(P<0.05)。水稻生長期間各處理 N2O排放順序間歇灌溉>淹灌,二者均顯著高于淺濕灌溉和控製灌溉(P<0.05)。各處理水稻產量以淺濕灌溉最低、其他方式差異不顯著。可見,間歇灌溉有助于提高水稻產量,但會促進稻田N2O的排放。在綜閤攷慮水稻產量及稻田溫室效應的需求下,控製灌溉為最佳灌溉方式,應予以高度重視。該研究可為黑龍江寒地稻作區選擇節水減排模式提供科學支撐。
2014년재대전시험조건하,설치공제관개、간헐관개、천습관개급엄관4충수분관리모식,채용정태암상-기상색보법전간관측한지수도생장계N2O배방특정,연구불동관개모식대한지도전N2O배방적영향급N2O배방대토양배경요소적향응,동시측정수도산량,이기위한지도전N2O배방특정연구제공대책。결과표명:불동관개모식하N2O배방적고봉균출현재수분교체빈번계단,수도생육계단전기,각처리N2O배방도처우교저수평,포전기궤호무N2O배방。여엄관상비,간헐관개사N2O배방총량증가47.3%,공제관개화천습관개사N2O배방총량감소40.7%화39.6%。한지도전N2O배방통량여토양초태담함량관계밀절,여토양10 cm온도현저상관(P<0.05)。수도생장기간각처리 N2O배방순서간헐관개>엄관,이자균현저고우천습관개화공제관개(P<0.05)。각처리수도산량이천습관개최저、기타방식차이불현저。가견,간헐관개유조우제고수도산량,단회촉진도전N2O적배방。재종합고필수도산량급도전온실효응적수구하,공제관개위최가관개방식,응여이고도중시。해연구가위흑룡강한지도작구선택절수감배모식제공과학지탱。
Greenhouse gas emissions from paddy field in China have aroused widespread attention. Northeast China is the most important marketable grain base in China, and the paddy fields acreage of northeast China is increasing rapidly in nearly a decade. It has only scattered reports in regard to paddy greenhouse gas emissions in the northeast cold region. The winter of northeast is very cold and long, and organic matter of farmland soil is relatively high. Nitrous oxide (N2O) emissions from fields in cold region of northeast China may play an role in climate change. In this study, a field experiment was conducted to investigate the N2O emissions from rice paddy field in cold region under different irrigation modes and its response to environmental factors. The experiment was set up in Rice Irrigation Experimental Center of Heilongjiang located in Heping town of Qing’an county in 2014 with four treatments including control irrigation, wet irrigation, intermittent irrigation and flood irrigation. The For all the treatments, drainage and drying were conducted in the lateral tillering stage and yellow ripe stage. In addition, under the control irrigation system, the soil water content was controlled at 0.7 or 0.8 times of saturated moisture content except for seeding establishment when water layer was 0-30 mm; Under the intermittent irrigation system, water layer was arranged at 0-30 or 0-40 mm for stages other than the lateral tillering stage and yellow ripe stage; Under the wet irrigation system, water layer was arranged at 0-20 or 0-30 mm for stages other than the lateral tillering stage and yellow ripe stage; Under the flood irrigation, most of stages had water layer of 0-40 mm. Each treatment was repeated three times. During the experiment, the N2O emission was measured at 10:00-14:00 using the method of static chamber-gas chromatographic techniques. Additionally, rice yield was determined at harvest. The results showed that the N2O emissions fluxes had same trend in the seasonal variation under different treatments. The peak of emissions appeared in the stage when water alteration was frequent. The N2O emission was low in the early stage of rice growth and small amounts of N2O emissions occurred in steeping field stage. Compare to flood irrigation, the total amount of N2O emissions under intermittent irrigation increased by 47.3%, but that of control and wet irrigation treatments reduced by 40.7% and 39.6%. The N2O emission flux from cold rice paddies was closely related to soil NO3--N content and soil 10-cm temperature (P<0.05). The N2O emission from rice yield would increase with soil temperature and NO3--N content. For rice yield, the treatment of wet irrigation was worse than the others and the other treatments had no significant difference. The N2O emissions per unit yield of control and wet irrigation were 40% and 30% lower than the flood irrigation. However, the rice yield of control irrigation treatment was significantly higher than wet irrigation. Therefore, the control irrigation was best irrigation mode to increase rice yield and reduce N2O emission among the four treatments. It should be heavily emphasized in future in the cold regions of China. The results can provide valuable information for selection of water-saving irrigation method in Heilongjiang cold region.
