作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2015年
4期
633-641
,共9页
殷文%赵财%于爱忠%柴强%胡发龙%冯福学
慇文%趙財%于愛忠%柴彊%鬍髮龍%馮福學
은문%조재%우애충%시강%호발룡%풍복학
间作%秸秆还田%竞争力%相对拥挤指数%产量
間作%秸稈還田%競爭力%相對擁擠指數%產量
간작%갈간환전%경쟁력%상대옹제지수%산량
Intercropping%Straw returning%Competitiveness%Relative crowding coefficient%Yield
保护性耕作具有提高作物水分利用效率、减少能耗等优点,但能否将该技术集成应用于间作套种,尚需理论研究和具体实验依据。本研究通过2011至2012年度的田间定位试验,探讨不同耕作和秸秆还田方式对小麦间作玉米作物群体竞争、互补作用及产量的影响。试验设3种秸秆还田处理,分别是小麦带25 cm高茬收割立茬免耕(NTSS)、小麦带25 cm高茬等量秸秆覆盖免耕(NTS)及小麦带高茬等量秸秆还田翻压(TIS),以传统耕作(CT)为对照。秸秆还田后少耕间作的土地当量比高于传统耕作间作,且大于1,说明少耕小麦秸秆还田有利于提高间作优势;少耕秸秆还田降低了共生期小麦相对于玉米的竞争力,以NTS处理对小麦竞争力的影响最大, NTSS、NTS和TIS的小麦全生育期相对竞争力分别降低37%~54%、109%~141%和22%~24%。与单作玉米相比, NTSS、NTS、TIS和CT处理间作玉米的相对生长率分别高54%~59%、66%~71%、61%~63%和71%~78%,其中小麦秸秆还田间作处理中NTS更有利于发挥玉米的恢复效应。间作条件下,3种秸秆还田处理的产量较对照高6%~10%(2011年度)和4%~12%(2012年度),其中 NTS 增产显著。总体来看,间作群体籽粒产量与小麦相对于玉米全生育期的平均竞争力呈二次相关关系,当该竞争力在0.24~0.27时利于获得间作高产。本研究表明,秸秆还田配合少耕是调控种间竞争力的可行途径,其中小麦等量秸秆(小麦留茬25 cm)还田覆盖是优化小麦玉米竞争力的理想耕作措施。
保護性耕作具有提高作物水分利用效率、減少能耗等優點,但能否將該技術集成應用于間作套種,尚需理論研究和具體實驗依據。本研究通過2011至2012年度的田間定位試驗,探討不同耕作和秸稈還田方式對小麥間作玉米作物群體競爭、互補作用及產量的影響。試驗設3種秸稈還田處理,分彆是小麥帶25 cm高茬收割立茬免耕(NTSS)、小麥帶25 cm高茬等量秸稈覆蓋免耕(NTS)及小麥帶高茬等量秸稈還田翻壓(TIS),以傳統耕作(CT)為對照。秸稈還田後少耕間作的土地噹量比高于傳統耕作間作,且大于1,說明少耕小麥秸稈還田有利于提高間作優勢;少耕秸稈還田降低瞭共生期小麥相對于玉米的競爭力,以NTS處理對小麥競爭力的影響最大, NTSS、NTS和TIS的小麥全生育期相對競爭力分彆降低37%~54%、109%~141%和22%~24%。與單作玉米相比, NTSS、NTS、TIS和CT處理間作玉米的相對生長率分彆高54%~59%、66%~71%、61%~63%和71%~78%,其中小麥秸稈還田間作處理中NTS更有利于髮揮玉米的恢複效應。間作條件下,3種秸稈還田處理的產量較對照高6%~10%(2011年度)和4%~12%(2012年度),其中 NTS 增產顯著。總體來看,間作群體籽粒產量與小麥相對于玉米全生育期的平均競爭力呈二次相關關繫,噹該競爭力在0.24~0.27時利于穫得間作高產。本研究錶明,秸稈還田配閤少耕是調控種間競爭力的可行途徑,其中小麥等量秸稈(小麥留茬25 cm)還田覆蓋是優化小麥玉米競爭力的理想耕作措施。
보호성경작구유제고작물수분이용효솔、감소능모등우점,단능부장해기술집성응용우간작투충,상수이론연구화구체실험의거。본연구통과2011지2012년도적전간정위시험,탐토불동경작화갈간환전방식대소맥간작옥미작물군체경쟁、호보작용급산량적영향。시험설3충갈간환전처리,분별시소맥대25 cm고치수할립치면경(NTSS)、소맥대25 cm고치등량갈간복개면경(NTS)급소맥대고치등량갈간환전번압(TIS),이전통경작(CT)위대조。갈간환전후소경간작적토지당량비고우전통경작간작,차대우1,설명소경소맥갈간환전유리우제고간작우세;소경갈간환전강저료공생기소맥상대우옥미적경쟁력,이NTS처리대소맥경쟁력적영향최대, NTSS、NTS화TIS적소맥전생육기상대경쟁력분별강저37%~54%、109%~141%화22%~24%。여단작옥미상비, NTSS、NTS、TIS화CT처리간작옥미적상대생장솔분별고54%~59%、66%~71%、61%~63%화71%~78%,기중소맥갈간환전간작처리중NTS경유리우발휘옥미적회복효응。간작조건하,3충갈간환전처리적산량교대조고6%~10%(2011년도)화4%~12%(2012년도),기중 NTS 증산현저。총체래간,간작군체자립산량여소맥상대우옥미전생육기적평균경쟁력정이차상관관계,당해경쟁력재0.24~0.27시리우획득간작고산。본연구표명,갈간환전배합소경시조공충간경쟁력적가행도경,기중소맥등량갈간(소맥류치25 cm)환전복개시우화소맥옥미경쟁력적이상경작조시。
Conservation tillage has the advantages of enhancing water use efficiency and reducing water/energy consumption simultaneously in common cropping systems. However, this technique has not been well studied and practiced in intercropping system. A field experiment was conducted in 2011 to 2012 growing seasons, in order to investigating the effects of different straw returning ways on crop yields, and interspecific competitiveness and complementation in wheat/maize intercropping systems. Three wheat straw returning treatments were designed, which were no-tillage with 25 cm straw standing (NTSS), no-tillage with 25 cm straw covering (NTS), and tillage with 25 cm straw incorporation (TIS). Conventional tillage (CT) was used as the control. In the intercropping system, the land use efficiency (LER) of reduced tillage treatments under straw returning condition increased compared with that of CT, showing the intercropping superiority (LER>1). Simultaneously, the competitiveness of wheat with maize in the whole wheat growing duration decreased in treatments NTSS, NTS and TIS by 37–54%, 108–141%, and 22–24%, respectively. Compared with monocropping maize, intercropping maize had higher rates of relative growth with the increased percentages of 54–59% in NTSS, 66–71% in NTS, 61–63% in TIS and 71–78% in CT. Clearly, NTS showed the most effect on maize growth after wheat harvest. In the intercropping system, the total yields of both crops were 6–10% (2011) and 4–12% (2012) higher in the straw returning treatments than in CT. NTS exhibited the most significant effect on enhancing yield. A quadratic relationship was observed between the total yield of intercropping system and the competitiveness of wheat versus maize, and high yields of both crops were obtained when the competitiveness ranged from 0.24 to 0.27. Our results showed that straw return-ing in combination with reduced tillage is feasible to regulate the interspecific competitiveness in wheat/maize intercropping sys-em, and NTS treatment is recommended.
