中国水稻科学
中國水稻科學
중국수도과학
CHINESE JOURNAL OF RICE SCIENCE
2014年
4期
391-400
,共10页
付景%王志琴%袁莉民%王学明%杨建昌
付景%王誌琴%袁莉民%王學明%楊建昌
부경%왕지금%원리민%왕학명%양건창
超级稻%施氮量%产量%根系活力%光合速率
超級稻%施氮量%產量%根繫活力%光閤速率
초급도%시담량%산량%근계활력%광합속솔
super rice%nitrogen rate%grain yield%root activity%photosynthetic rate
以两个超级稻品种两优培九(两系杂交籼稻)和淮稻9号(粳稻)为材料,两个高产品种汕优63(三系杂交籼稻)和扬辐粳8号(粳稻)为对照,设置四种氮肥水平,即全生育期不施氮肥、全生育期施氮120 kg/hm2、全生育期施氮240 kg/hm2和全生育期施氮360 kg/hm2,分析不同氮肥水平对超级稻产量的影响及其生理机制。结果表明,施氮量为0~360 kg/hm2,两个超级稻品种的产量、灌浆期剑叶光合速率和硝酸还原酶活性、根系氧化活力和玉米素+玉米素核苷(Z+ZR)含量、地上部干物质量、根干质量和根冠比均随着施氮量的增加而增加。而两个对照品种在施氮量0~240 kg/hm2条件下,以上各指标随施氮量增加而增加,当施氮量达到360 kg/hm2时,则显著下降。在同一施氮水平下,两个超级稻的产量均高于对照品种,但超级稻的其他各测定指标,在施氮量不高于240 kg/hm2时低于对照品种,施氮量为360 kg/hm2时高于对照品种。说明超级稻品种无论在低氮还是在高氮水平均能获得较高产量,在高氮水平下更有利于其生理和产量优势的发挥。
以兩箇超級稻品種兩優培九(兩繫雜交秈稻)和淮稻9號(粳稻)為材料,兩箇高產品種汕優63(三繫雜交秈稻)和颺輻粳8號(粳稻)為對照,設置四種氮肥水平,即全生育期不施氮肥、全生育期施氮120 kg/hm2、全生育期施氮240 kg/hm2和全生育期施氮360 kg/hm2,分析不同氮肥水平對超級稻產量的影響及其生理機製。結果錶明,施氮量為0~360 kg/hm2,兩箇超級稻品種的產量、灌漿期劍葉光閤速率和硝痠還原酶活性、根繫氧化活力和玉米素+玉米素覈苷(Z+ZR)含量、地上部榦物質量、根榦質量和根冠比均隨著施氮量的增加而增加。而兩箇對照品種在施氮量0~240 kg/hm2條件下,以上各指標隨施氮量增加而增加,噹施氮量達到360 kg/hm2時,則顯著下降。在同一施氮水平下,兩箇超級稻的產量均高于對照品種,但超級稻的其他各測定指標,在施氮量不高于240 kg/hm2時低于對照品種,施氮量為360 kg/hm2時高于對照品種。說明超級稻品種無論在低氮還是在高氮水平均能穫得較高產量,在高氮水平下更有利于其生理和產量優勢的髮揮。
이량개초급도품충량우배구(량계잡교선도)화회도9호(갱도)위재료,량개고산품충산우63(삼계잡교선도)화양복갱8호(갱도)위대조,설치사충담비수평,즉전생육기불시담비、전생육기시담120 kg/hm2、전생육기시담240 kg/hm2화전생육기시담360 kg/hm2,분석불동담비수평대초급도산량적영향급기생리궤제。결과표명,시담량위0~360 kg/hm2,량개초급도품충적산량、관장기검협광합속솔화초산환원매활성、근계양화활력화옥미소+옥미소핵감(Z+ZR)함량、지상부간물질량、근간질량화근관비균수착시담량적증가이증가。이량개대조품충재시담량0~240 kg/hm2조건하,이상각지표수시담량증가이증가,당시담량체도360 kg/hm2시,칙현저하강。재동일시담수평하,량개초급도적산량균고우대조품충,단초급도적기타각측정지표,재시담량불고우240 kg/hm2시저우대조품충,시담량위360 kg/hm2시고우대조품충。설명초급도품충무론재저담환시재고담수평균능획득교고산량,재고담수평하경유리우기생리화산량우세적발휘。
A field experiment was conducted to reveal the effects of nitrogen rate on super rice grain yield and its mechanism with two super rice cultivars,Liangyoupeijiu (two-line indica hybrid)and Huaidao 9 (japonica),and two high-yielding elite check cultivars,Shanyou 63 (indica hybrid)and Yangfujing 8 (japonica)as material at four nitrogen (N)rates,no N application and N rates of 120 kg/hm2 ,240 kg/hm2 ,and 360 kg/hm2 .The results showed that the grain yield of two super rice cultivars increased with increasing N rates from 0 to 360 kg/hm2 .Similarly,the physiological performance,such as net photosynthetic rate and nitrate reductase activity of the flag leaf,root oxidation activity and zeatin + zeatin riboside content,shoot dry weight,root dry weight and the root/shoot ratio were improved with increassing N rates for both super rice cultivars.The grain yield and the physiological performance of the two check cultivars were also improved with the increase of N rates from 0 to 240 kg/hm2 .The above-mentioned indexes were decreased at the N rate of 360kg/hm2 for the two check cultivars.At the same N rate the grain yield of the two super rice cultivars was higher than that of the two check cultivars,while the physiological performance of the super rice cultivars was just the opposite under N rates no more than 240kg/hm2 .However,the physiological performance was better for super rice at the N rate of 360 kg/hm2 .The results suggested that super rice cultivars could obtain a higher grain yield than elite high-yielding cultivars at either a low N rate or a high N rate,and a high N rate was favorable to realize high-yielding potential of super rice.