华南农业大学学报
華南農業大學學報
화남농업대학학보
JOURNAL OF SOUTH CHINA AGRICULTURAL UNIVERSITY
2014年
2期
96-100
,共5页
臧英%罗锡文%张国忠%曾山%汪沛%张明华%陈雄飞
臧英%囉錫文%張國忠%曾山%汪沛%張明華%陳雄飛
장영%라석문%장국충%증산%왕패%장명화%진웅비
开沟起垄%穴直播%甲烷排放通量%水稻分蘖前期
開溝起壟%穴直播%甲烷排放通量%水稻分蘗前期
개구기롱%혈직파%갑완배방통량%수도분얼전기
furrow and ridge%hill-drop drilling%methane emission flux%the rice early tillering stage
[目的]研究开沟起垄式水稻精量穴直播技术对甲烷气体排放的影响.[方法]选取同步深施肥精量穴直播(30 cm)、宽窄行(35 cm+15 cm)精量穴直播和25cm固定行距精量穴直播3种直播方式,以人工撒直播、机插秧、手抛秧和人工移栽为对照,利用静态箱法测定水稻分蘖前期甲烷的排放通量.[结果和结论]对2010和2011年2年采集的数据分析结果显示,与非精量直播对照组相比,精量穴直播可以降低田间54.55%甲烷气体排放( P=0.011);不同栽种方式的甲烷平均排放通量顺序为:深施肥精量穴直播[(1.48±0.44) mg· m-2· h-1]<宽窄行精量穴直播[(1.65±0.30) mg· m-2· h-1]<固定行距精量穴直播[(2.57±0.56) mg· m-2· h-1]<人工撒直播[(2.89±0.61) mg· m-2· h-1]<机插秧[(3.77±0.64) mg· m-2· h-1]<人工移栽[(4.76±0.90) mg· m-2· h-1]<手抛秧[(5.33±0.84) mg· m-2· h-1].研究结果表明开沟起垄穴直播技术可以有效降低水稻分蘖前期甲烷气体的排放.
[目的]研究開溝起壟式水稻精量穴直播技術對甲烷氣體排放的影響.[方法]選取同步深施肥精量穴直播(30 cm)、寬窄行(35 cm+15 cm)精量穴直播和25cm固定行距精量穴直播3種直播方式,以人工撒直播、機插秧、手拋秧和人工移栽為對照,利用靜態箱法測定水稻分蘗前期甲烷的排放通量.[結果和結論]對2010和2011年2年採集的數據分析結果顯示,與非精量直播對照組相比,精量穴直播可以降低田間54.55%甲烷氣體排放( P=0.011);不同栽種方式的甲烷平均排放通量順序為:深施肥精量穴直播[(1.48±0.44) mg· m-2· h-1]<寬窄行精量穴直播[(1.65±0.30) mg· m-2· h-1]<固定行距精量穴直播[(2.57±0.56) mg· m-2· h-1]<人工撒直播[(2.89±0.61) mg· m-2· h-1]<機插秧[(3.77±0.64) mg· m-2· h-1]<人工移栽[(4.76±0.90) mg· m-2· h-1]<手拋秧[(5.33±0.84) mg· m-2· h-1].研究結果錶明開溝起壟穴直播技術可以有效降低水稻分蘗前期甲烷氣體的排放.
[목적]연구개구기롱식수도정량혈직파기술대갑완기체배방적영향.[방법]선취동보심시비정량혈직파(30 cm)、관착행(35 cm+15 cm)정량혈직파화25cm고정행거정량혈직파3충직파방식,이인공살직파、궤삽앙、수포앙화인공이재위대조,이용정태상법측정수도분얼전기갑완적배방통량.[결과화결론]대2010화2011년2년채집적수거분석결과현시,여비정량직파대조조상비,정량혈직파가이강저전간54.55%갑완기체배방( P=0.011);불동재충방식적갑완평균배방통량순서위:심시비정량혈직파[(1.48±0.44) mg· m-2· h-1]<관착행정량혈직파[(1.65±0.30) mg· m-2· h-1]<고정행거정량혈직파[(2.57±0.56) mg· m-2· h-1]<인공살직파[(2.89±0.61) mg· m-2· h-1]<궤삽앙[(3.77±0.64) mg· m-2· h-1]<인공이재[(4.76±0.90) mg· m-2· h-1]<수포앙[(5.33±0.84) mg· m-2· h-1].연구결과표명개구기롱혈직파기술가이유효강저수도분얼전기갑완기체적배방.
[Objective]To study the effects in the precision rice hill-drop drilled field on methane emission .[Method] Seven treatments were designed , including three precision rice hill-drop drilling types:the first precision rice hill-drop drilling with deep fertilization (30 cm) , the second with the alternate line (35 cm+15 cm) and the third with fixed line (25 cm),using mechanical transplanting , manual seedling broadcast-ing and manual transplanting as the control groups .Methane samples emitted from paddy field in 2010 and 2011 were collected using a closed-chamber technique .[Result and conclusion] The results showed that CH4 flux was reduced significantly in paddy fields treated by the precision rice hill -drop drilling compared with the non-precision rice field control within three weeks on the rice early tillering stage ( reduced by 54.55%, P=0.011).Their flux order of CH4 emission were as follows, the first precision rice hill-drop drilling with deep fertilization type [(1.48 ±0.44) mg· m-2 · h-1 ] <the second with the alternate line [(1.65 ±0.30) mg· m-2· h-1] <the third with fixed line[(2.57 ±0.56) mg· m-2· h-1] <manual seedling broadcasting [ ( 2.89 ±0.61 ) mg · m -2 · h-1 ] <mechanical transplanting [ ( 3.77 ±0.64 ) mg· m-2 · h-1 ] <manual transplanting [ ( 4.76 ±0.90 ) mg · m-2 · h-1 ] <manual broadcasting [ (5.33 ±0.84 ) mg · m-2 · h-1 ] .The present study results showed that the precision rice hill-drop drilling technology can reduce the emission of CH 4 in the pre-tillering paddy field effectively .