中国水稻科学
中國水稻科學
중국수도과학
CHINESE JOURNAL OF RICE SCIENCE
2013年
6期
591-602
,共12页
段骅%傅亮%剧成欣%刘立军%杨建昌
段驊%傅亮%劇成訢%劉立軍%楊建昌
단화%부량%극성흔%류립군%양건창
水稻%高温%氮素%产量%品质
水稻%高溫%氮素%產量%品質
수도%고온%담소%산량%품질
rice%high temperature%nitrogen%grain yield%quality
以中熟籼稻品种沪旱15和中熟粳稻品种扬粳4038为材料,利用盆栽试验,在水稻穗分化期设置低氮(每盆0.5 g 尿素)、中氮(每盆1.0 g尿素)和高氮(每盆2.0 g尿素)3种施氮量水平,在抽穗灌浆期进行高温(白天/夜间平均温度为35.1℃/20.8℃)和正常温度(白天/夜间平均温度为29.0℃/20.8℃)处理,探讨了氮素穗肥对水稻高温灌浆过程及其产量和品质的影响.结果表明,在高温胁迫下,中氮和高氮显著增加每穗粒数、结实率、千粒重和产量,增加整精米率和支链淀粉短链比例,降低垩白米率和支链淀粉中长链的比例,其中,中氮效果更为明显.施用氮素穗肥还增加了叶片光合速率、根系氧化力和籽粒中蔗糖-淀粉代谢途径关键酶活性.说明抽穗结实期遭受高温胁迫,在穗分化期适当施用氮肥可以获得较高的产量和较好的稻米品质,根系和冠层生理活性的提高是其重要原因.
以中熟秈稻品種滬旱15和中熟粳稻品種颺粳4038為材料,利用盆栽試驗,在水稻穗分化期設置低氮(每盆0.5 g 尿素)、中氮(每盆1.0 g尿素)和高氮(每盆2.0 g尿素)3種施氮量水平,在抽穗灌漿期進行高溫(白天/夜間平均溫度為35.1℃/20.8℃)和正常溫度(白天/夜間平均溫度為29.0℃/20.8℃)處理,探討瞭氮素穗肥對水稻高溫灌漿過程及其產量和品質的影響.結果錶明,在高溫脅迫下,中氮和高氮顯著增加每穗粒數、結實率、韆粒重和產量,增加整精米率和支鏈澱粉短鏈比例,降低堊白米率和支鏈澱粉中長鏈的比例,其中,中氮效果更為明顯.施用氮素穗肥還增加瞭葉片光閤速率、根繫氧化力和籽粒中蔗糖-澱粉代謝途徑關鍵酶活性.說明抽穗結實期遭受高溫脅迫,在穗分化期適噹施用氮肥可以穫得較高的產量和較好的稻米品質,根繫和冠層生理活性的提高是其重要原因.
이중숙선도품충호한15화중숙갱도품충양갱4038위재료,이용분재시험,재수도수분화기설치저담(매분0.5 g 뇨소)、중담(매분1.0 g뇨소)화고담(매분2.0 g뇨소)3충시담량수평,재추수관장기진행고온(백천/야간평균온도위35.1℃/20.8℃)화정상온도(백천/야간평균온도위29.0℃/20.8℃)처리,탐토료담소수비대수도고온관장과정급기산량화품질적영향.결과표명,재고온협박하,중담화고담현저증가매수립수、결실솔、천립중화산량,증가정정미솔화지련정분단련비례,강저성백미솔화지련정분중장련적비례,기중,중담효과경위명현.시용담소수비환증가료협편광합속솔、근계양화력화자립중자당-정분대사도경관건매활성.설명추수결실기조수고온협박,재수분화기괄당시용담비가이획득교고적산량화교호적도미품질,근계화관층생리활성적제고시기중요원인.
Effects of application of nitrogen as panicle-promoting fertilizer on grain yield and quality was studied with two mid-season rice cultivars,Huhan 15 (indica)and Yangjing 4038 (japonica)grown in pots as materials under three nitrogen fertilizer levels,low nitrogen level(LN,0.5 g urea per pot),medium nitrogen level (MN,1.0 g urea per pot),and high nitrogen level(HN,2.0 g urea per pot)at the panicle initiation stage under high temperature.Both high temperature (mean temperature during the day/night at 35.1℃/20.8℃)and normal temperature (mean temperature during the day/night at 29.0℃/20.8℃)treatments were conducted during heading and grain filling.The grain yield and rice quality were investigated under these treatments.The results showed that at the same temperature,especially under high temperature,compared with the LN,the MN and HN significantly increased spikelet number per panicle, seed-setting rate,1000-grain weight,grain yield,head rice rate and short chain percentage in debranched amylopectin, and reduced chalky grains and long chain in debranched amylopectin, especially at MN.Application of panicle-promoting fertilizer also increased the photosynthetic rate of flag leaf,root oxidation activity,and activities of the key enzymes involved in sucrose-to-starch metabolic pathway in grains in the two cultivars.These results indicate that proper application of nitrogen as panicle fertilizer could maintain a higher grain yield and better quality of rice when subj ected to high temperature during heading and grain filling,and increases in root and shoot activities contribute to the reducing adverse effects of high temperature on rice yield and quality.