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
3期
164-170
,共7页
白翔斌%岳善超%李世清%陈迎迎
白翔斌%嶽善超%李世清%陳迎迎
백상빈%악선초%리세청%진영영
春玉米%土壤含水量%栽培模式%水分利用效率%产量
春玉米%土壤含水量%栽培模式%水分利用效率%產量
춘옥미%토양함수량%재배모식%수분이용효솔%산량
spring maize%soil water content%WUE%yield%cultivation system
于2012年和2013年连续两年进行田间定位试验,研究在全膜双垄沟覆盖条件下不同施肥和开花期揭膜处理对春玉米农田土壤水分时空变化特征、土壤含水量和水分利用效率的影响。试验设农户模式(施N 200 kg·hm-2,半膜,CK)、高产栽培(施N 380 kg·hm-2,T1)、高产高效栽培(施N 225 kg·hm-2+有机肥,T2)、再高产高效栽培(施N 225 kg·hm-2+有机肥+开花期揭膜,T3)等4个处理,以先玉335为供试玉米品种,分别在玉米各个关键生育期测定土壤含水量,收获测定实际产量。结果表明,T2、T3处理在生育前期、中期不仅能够高效利用浅层(0~100 cm )土壤水分,而且有利于促使深层(100~200 cm )土壤水分向上迁移,为玉米生育后期雨季充分蓄纳降雨腾出库容;从播前到收获0~200 cm土壤贮水量均降低,收获时各处理贮水量依次为CK>T1>T2>T3,差值均小于5 cm ,没有显著差异。土壤含水量在0~60 cm土层变化幅度大,而深层(160~200 cm )比较稳定。四种处理间耗水量、产量和水分利用效率存在不同差异,表现为T3>T2>T1>CK。尤其2013年四个处理产量和水分利用效率均达到显著水平,T1、T2、T3产量分别比CK高27.4%、34.8%、42.4%,CK处理水分利用效率比 T1、T2、T3分别低21.7%、29.9%、23.7%。高产高效栽培,特别是开花期揭膜的再高产高效栽培模式,在玉米整个生育期不仅没有导致土壤剖面土壤水分显著降低,而且可显著提高籽粒产量和水分利用效率,是该地区值得推广的旱作春玉米栽培模式。
于2012年和2013年連續兩年進行田間定位試驗,研究在全膜雙壟溝覆蓋條件下不同施肥和開花期揭膜處理對春玉米農田土壤水分時空變化特徵、土壤含水量和水分利用效率的影響。試驗設農戶模式(施N 200 kg·hm-2,半膜,CK)、高產栽培(施N 380 kg·hm-2,T1)、高產高效栽培(施N 225 kg·hm-2+有機肥,T2)、再高產高效栽培(施N 225 kg·hm-2+有機肥+開花期揭膜,T3)等4箇處理,以先玉335為供試玉米品種,分彆在玉米各箇關鍵生育期測定土壤含水量,收穫測定實際產量。結果錶明,T2、T3處理在生育前期、中期不僅能夠高效利用淺層(0~100 cm )土壤水分,而且有利于促使深層(100~200 cm )土壤水分嚮上遷移,為玉米生育後期雨季充分蓄納降雨騰齣庫容;從播前到收穫0~200 cm土壤貯水量均降低,收穫時各處理貯水量依次為CK>T1>T2>T3,差值均小于5 cm ,沒有顯著差異。土壤含水量在0~60 cm土層變化幅度大,而深層(160~200 cm )比較穩定。四種處理間耗水量、產量和水分利用效率存在不同差異,錶現為T3>T2>T1>CK。尤其2013年四箇處理產量和水分利用效率均達到顯著水平,T1、T2、T3產量分彆比CK高27.4%、34.8%、42.4%,CK處理水分利用效率比 T1、T2、T3分彆低21.7%、29.9%、23.7%。高產高效栽培,特彆是開花期揭膜的再高產高效栽培模式,在玉米整箇生育期不僅沒有導緻土壤剖麵土壤水分顯著降低,而且可顯著提高籽粒產量和水分利用效率,是該地區值得推廣的旱作春玉米栽培模式。
우2012년화2013년련속량년진행전간정위시험,연구재전막쌍롱구복개조건하불동시비화개화기게막처리대춘옥미농전토양수분시공변화특정、토양함수량화수분이용효솔적영향。시험설농호모식(시N 200 kg·hm-2,반막,CK)、고산재배(시N 380 kg·hm-2,T1)、고산고효재배(시N 225 kg·hm-2+유궤비,T2)、재고산고효재배(시N 225 kg·hm-2+유궤비+개화기게막,T3)등4개처리,이선옥335위공시옥미품충,분별재옥미각개관건생육기측정토양함수량,수획측정실제산량。결과표명,T2、T3처리재생육전기、중기불부능구고효이용천층(0~100 cm )토양수분,이차유리우촉사심층(100~200 cm )토양수분향상천이,위옥미생육후기우계충분축납강우등출고용;종파전도수획0~200 cm토양저수량균강저,수획시각처리저수량의차위CK>T1>T2>T3,차치균소우5 cm ,몰유현저차이。토양함수량재0~60 cm토층변화폭도대,이심층(160~200 cm )비교은정。사충처리간모수량、산량화수분이용효솔존재불동차이,표현위T3>T2>T1>CK。우기2013년사개처리산량화수분이용효솔균체도현저수평,T1、T2、T3산량분별비CK고27.4%、34.8%、42.4%,CK처리수분이용효솔비 T1、T2、T3분별저21.7%、29.9%、23.7%。고산고효재배,특별시개화기게막적재고산고효재배모식,재옥미정개생육기불부몰유도치토양부면토양수분현저강저,이차가현저제고자립산량화수분이용효솔,시해지구치득추엄적한작춘옥미재배모식。
To assess the impacts of different cultivation systems on the characteristics of space-time dynamics on soil moisture and water use efficiency (WUE ) ,which could be helpful for increasing grain yield and WUE in dryland maize production in semi-arid regions ,a field trial was conducted at the Changwu experimental station in 2012 and 2013 .Four treatments were carried out including farmers’ practice(N 200 kg·hm-2 ,ridges covered with plastic film ,CK) ,T1 treatment (N 380 kg·hm-2 ,ridges and furrows both covered with plastic film ) ,T2 treatment (N 225 kg·hm-2+ Or-ganic fertilizer ,ridges and furrows both covered with plastic film ) ,T3 treatment (N 225 kg·hm-2+ Organic fertilizer , ridges and furrows both covered with plastic film and removing plastic film at silking stage ) .Compared to farmers’ prac-tice ,T1 ,T2 and T3 treatments could not only efficiently use water in the 0~100 cm soil layers ,but also use water in the 100~200 cm soil layers .At harvest ,no significant differences in soil water content were observed between treat-ments .Water consumption levels during the whole growing stage of the four treatments were in the order of T 3>T2>T1>CK ,and the grain yields followed the same .Because the rate of yield increase was higher than that of water consump-tion ,the water use efficiencies of the four treatments were also found to be in the same order as T 3>T2>T1>CK .In conclusion ,the cultivation systems that ridges and furrows both were covered with plastic film improved not only grain yield but also water use efficiency ,especially in the plots where plastic film was removed at the silking stage .This culti-vation system could be helpful for increasing grain yield and WUE of dryland maize in semi-arid regions .
