大麦与谷类科学
大麥與穀類科學
대맥여곡류과학
BARLEY AND CEREAL SCIENCES
2014年
4期
30-32,33
,共4页
文聃%何文静%高剑华%袁志华%邱先进%邢丹英%徐建龙%钟育海
文聃%何文靜%高劍華%袁誌華%邱先進%邢丹英%徐建龍%鐘育海
문담%하문정%고검화%원지화%구선진%형단영%서건룡%종육해
粳稻%播期%密度%施氮量%水分%生育期%产量
粳稻%播期%密度%施氮量%水分%生育期%產量
갱도%파기%밀도%시담량%수분%생육기%산량
Japonica rice%Sowing date%Planting density%Nitrogen fertilization%Water%Growth duration%Yield
对杂交粳稻甬优8号进行不同播期、基本苗、施氮量和水分4因素3水平的正交试验,筛选其最佳栽培因子组合。结果表明:播期(x)对其全生育期(y)影响显著(F =82.71﹥F0.05),呈显著负相关,y =-0.4x +149.67,(R =0.9974);基本苗对有效穗影响显著( F=52.74﹥F0.05),随着基本苗的增加有效穗呈递增趋势,结实率和千粒重呈下降趋势;播期和施氮量对产量影响极显著,密度对产量影响显著,甬优8号最佳栽培组合为播期(5月5日)、密度(5.46万/667 m2)、施氮量(20 kg/667 m2)和水分(表层无明水)。
對雜交粳稻甬優8號進行不同播期、基本苗、施氮量和水分4因素3水平的正交試驗,篩選其最佳栽培因子組閤。結果錶明:播期(x)對其全生育期(y)影響顯著(F =82.71﹥F0.05),呈顯著負相關,y =-0.4x +149.67,(R =0.9974);基本苗對有效穗影響顯著( F=52.74﹥F0.05),隨著基本苗的增加有效穗呈遞增趨勢,結實率和韆粒重呈下降趨勢;播期和施氮量對產量影響極顯著,密度對產量影響顯著,甬優8號最佳栽培組閤為播期(5月5日)、密度(5.46萬/667 m2)、施氮量(20 kg/667 m2)和水分(錶層無明水)。
대잡교갱도용우8호진행불동파기、기본묘、시담량화수분4인소3수평적정교시험,사선기최가재배인자조합。결과표명:파기(x)대기전생육기(y)영향현저(F =82.71﹥F0.05),정현저부상관,y =-0.4x +149.67,(R =0.9974);기본묘대유효수영향현저( F=52.74﹥F0.05),수착기본묘적증가유효수정체증추세,결실솔화천립중정하강추세;파기화시담량대산량영향겁현저,밀도대산량영향현저,용우8호최가재배조합위파기(5월5일)、밀도(5.46만/667 m2)、시담량(20 kg/667 m2)화수분(표층무명수)。
In order to select the optimum cultivation combination,we conducted orthogonal experiments to hybrid japonica rice Yongyou 8 from different sowing date,basic seeding,nitrogen application rate and water. The results showed that the whole growth duration (y)was significantly influenced by sowing date(x)(F=82. 71﹥F0. 05),which had significant negative correlation(y= -0. 4x+149. 67(R=0. 9 986*)). Effective panicles were significantly influenced by basic seeding(F=52. 74﹥F0. 05. There was positive correlation between basic seeding and effective panicles,but negative correlation between grain filling and 1 000-grain weight. Both seeding date and nitrogen fertilization had remarkable influence on the yield of Yongyou 8. Meanwhile,planting density had greater effect on the yield. The study suggested that the optimum cultivation combination of Yongyou 8 was that sowing date was May 5 and planting densities were 5. 46 × 103/667 m2 . And then nitrogen application rate was 20 kg/667 m2 with suitable water on soil surface.
