干旱地区农业研究
榦旱地區農業研究
간한지구농업연구
Agricultural Research In The Arid Areas
2015年
5期
169-174,185
,共7页
大豆%滴水量%超高产%根系%垂直分布
大豆%滴水量%超高產%根繫%垂直分佈
대두%적수량%초고산%근계%수직분포
soybean%dripping amount%super-high-yielding%root%vertical distribution
为揭示滴水量对超高产大豆根系生长的影响规律,设置975 m3· hm-2(W1)、1575 m3· hm-2(W2)、2175 m3· hm-2(W3)、2775 m3· hm-2(W4)4种滴水处理,对各处理0~100 cm土层含水量、新大豆27号根系干重、侧根长和产量进行测定分析。结果表明:随着滴水量的增加,0~40 cm土层的含水量增加;0~20 cm土层根干重密度和侧根长密度增幅最大,20~40 cm土层增幅其次;增加生育中后期0~80 cm土层总根干重和总侧根长,鼓粒初期W2、W3、W4处理的根干重分别较W1增加14.2%、30.4%、41.1%,侧根长分别较W1增加17.4%、25.7%、40.3%;提高0~40 cm土层根系活力,增加根系伤流量,提高水分利用效率,W3、W4鼓粒初期0~80 cm土层根干重分别为88.6、95.8 g·m-2,侧根长为432.4~482.9 m·m-2,产量分别为6082.6 kg·hm-2、6404.7 kg·hm-2,水分利用效率为1.30左右。新疆伊宁地区大豆的适宜滴水量为2175~2775 m3· hm-2。
為揭示滴水量對超高產大豆根繫生長的影響規律,設置975 m3· hm-2(W1)、1575 m3· hm-2(W2)、2175 m3· hm-2(W3)、2775 m3· hm-2(W4)4種滴水處理,對各處理0~100 cm土層含水量、新大豆27號根繫榦重、側根長和產量進行測定分析。結果錶明:隨著滴水量的增加,0~40 cm土層的含水量增加;0~20 cm土層根榦重密度和側根長密度增幅最大,20~40 cm土層增幅其次;增加生育中後期0~80 cm土層總根榦重和總側根長,鼓粒初期W2、W3、W4處理的根榦重分彆較W1增加14.2%、30.4%、41.1%,側根長分彆較W1增加17.4%、25.7%、40.3%;提高0~40 cm土層根繫活力,增加根繫傷流量,提高水分利用效率,W3、W4鼓粒初期0~80 cm土層根榦重分彆為88.6、95.8 g·m-2,側根長為432.4~482.9 m·m-2,產量分彆為6082.6 kg·hm-2、6404.7 kg·hm-2,水分利用效率為1.30左右。新疆伊寧地區大豆的適宜滴水量為2175~2775 m3· hm-2。
위게시적수량대초고산대두근계생장적영향규률,설치975 m3· hm-2(W1)、1575 m3· hm-2(W2)、2175 m3· hm-2(W3)、2775 m3· hm-2(W4)4충적수처리,대각처리0~100 cm토층함수량、신대두27호근계간중、측근장화산량진행측정분석。결과표명:수착적수량적증가,0~40 cm토층적함수량증가;0~20 cm토층근간중밀도화측근장밀도증폭최대,20~40 cm토층증폭기차;증가생육중후기0~80 cm토층총근간중화총측근장,고립초기W2、W3、W4처리적근간중분별교W1증가14.2%、30.4%、41.1%,측근장분별교W1증가17.4%、25.7%、40.3%;제고0~40 cm토층근계활력,증가근계상류량,제고수분이용효솔,W3、W4고립초기0~80 cm토층근간중분별위88.6、95.8 g·m-2,측근장위432.4~482.9 m·m-2,산량분별위6082.6 kg·hm-2、6404.7 kg·hm-2,수분이용효솔위1.30좌우。신강이저지구대두적괄의적수량위2175~2775 m3· hm-2。
To reveal influence of dripping water amount on the ultra -high-yielding soybean root growth ,a field research method was employed .Treatments with four dripping levels at 975 m3 · hm-2 (W1 ) ,1 575 m3 · hm-2 (W2 ) , 2 175 m3·hm-2 (W3 ) ,and 2 775 m3·hm-2 (W4 ) were set to examine the influences on moisture in 0~100 cm soil lay-er ,soybean root dry weight ,lateral root length and yield .The results showed that with the increase of water dripping amount ,soil moisture in 0~40 cm was increased .Soil root dry weight density and lateral root length density in 0~20 cm had been increased most ,followed by those in 20~40 cm soil layer .At late growth stage ,total root dry weight and total lateral root length in 0~80 cm soil were increased significantly .At the beginning of filling period ,compared to those with W1 treatment ,root dry weight with W2 ,W3 ,and W4 ,were increased by 14 .2% ,30 .4% ,and 41 .1% ,re-spectively .Additionally ,lateral root lengths became increased by 17 .4% ,25 .7% ,and 40 .3% ,respectively .Root ac-tivity in 0~40 cm soil was increased significantly ,as well as root bleeding sap ,resulting in improvement of water use ef-ficiency .Moreover ,with W3 and W4 treatments at the beginning of filling period ,soil root dry weights in 0~80 cm were 88 .6 g·m-2 and 95 .8 g·m-2 ,respectively ;lateral root lengths were 432 .4~482 .9 m·m-2 ;yields were 6 082 .6 kg·hm-2 and 6404 .7 kg·hm-2 ,respectively ;and water use efficiency was about 1 .30 .In conclusion ,suitable drip amounts for soybean in Xinjiang Yining were 2 175~2 775 m3·hm-2 .
