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地理科学进展 2002

秸秆覆盖下的夏玉米蒸散、水分利用效率和作物系数的变化

DOI: 10.11820/dlkxjz.2002.06.008, PP. 583-592

张喜英,陈素英,裴冬,刘孟雨

Keywords: 灌溉,秸秆覆盖,水分利用效率,夏玉米,作物系数

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Abstract:

农业用水占华北水资源的70%以上,提高农业用水的效率对华北水资源安全具有重要意义。在节水农业研究中,利用农艺节水提高农田水分利用效率是节水农业的重要组成部分,其中减少农田无效棵间蒸发耗水和优化供水制度是主要的农艺节水措施。夏玉米是华北太行山山前平原的主要作物之一,一般在冬小麦收获前的5～7天套种在其中,以延长夏玉米的生育期。随着联合收割机的广泛应用,冬小麦收获后的秸秆直接覆盖夏玉米,对夏玉米的农田蒸散特别是苗期的蒸散产生影响;夏玉米生长在6～9月的雨季,一般年份降水能够满足夏玉米的需水要求,但夏季降水的分布变异较大,再加上近6年来的夏季干旱,使灌水对夏玉米的高产至关重要。为了提高夏玉米的农田水分利用效率,本研究的目的是建立秸秆覆盖下的夏玉米优化供水制度和研究秸秆覆盖对减少棵间无效耗水的影响及秸秆覆盖下的夏玉米作物系数的变化,为制定秸秆覆盖下的夏玉米优化供水制度提供依据。2年的实验结果显示,秸秆覆盖下的夏玉米产量在8000kg/ha,总蒸散量在390mm,水分利用效率在2.2kg/m3。干旱年份,夏玉米在灌四水的条件下产量最高,再增加灌水量,产量减少。水分利用效率随着灌水量的增加有所递减。

References

[1]	张喜英.太行山山前平原冬小麦和夏玉米需水规律研究[A].见:王绍仁,曾江海,吕富宝主编.生态农业实验研究[C].北京:科学技术出版社,1994.114-120.
[2]	AL D arby A M,M u stafa M A,AL 2Om ran A M et al.Effect of w heat residue and evapo rative dem and s on in term itten t evapo ration[J].S oil&T illag e R esea rch,1989,15:105-116.
[3]	Sep askhah A R,A ndam M.C rop coefficien t of sesam e in a sem i2arid reg ion of I.R.Iran[J].A g ricu ltu ra l W a terM anag em en t,2001,49:51-63.
[4]	A bdelhad i A W,H ata T,T anakam aru H et al.E stim ation of crop w ater requ irem en ts in arid reg ion u sing Penm an-M on teith equation w ith derived crop coefficien ts:a case study on A cala co tton in Sudan Gezira irrigated schem e[J].A g ricu ltu ra l W a ter M anag em en t,2000,45:203-214.
[5]	A llen R G,Pereira L S,R aes D S.C rop Evapo tran sp iration Gu idelines fo r E stim ating C rop W ater R equ irem en ts[M].FAO Irrigation and D rainage Pap er N o.56,FAO Rom e.,1998.
[6]	李英能.节水农业发展模式的研究[J].节水灌溉,1998,2:7212.
[7]	M ellou li H J,van W esem ael B,Poesen J et al.Evapo ration lo sses from bare so ils as infleneced by cu ltivation tech2n iques in sem iarid reg ion s[J].A g ricu ltu ra l W a ter M anag em en t,2000,42:355-369.
[8]	Geo rge B A,Shende S A,R aghuw an sh iN S.D evelopm en t and testing of an irrigation schedu ling m odel[J].A g ricu ltu ra l W a ter M anag em en t,2000,46:121-136.
[9]	Gow ing J W,E jieji C J.R eal-tim e schedu ling of supp lem en tal irrigation fo r po tatoes u sing a decision m odel andsho rtterm w eather fo recasts[J].A g ricu ltu ra l W a ter M anag em en t,2001,47:137-153.
[10]	D aam en C,Simm ond s L E,W allace J S et al.U se m icro lysim eters to m easu re evapo ration from sandy so ils[J].A g ricu ltu ra l and f orest M eteorology,1993,65:159-173.
[11]	L eun ing R,Condon A G.,D un in F X et al.R ainfall in tercep tion and evapo ration from so il below a w heat canop y[J].A g ricu ltu ra l and f orest M eteorology,1994,67:221-238.
[12]	张喜英,裴冬,由懋正.太行山山前平原冬小麦优化灌溉制度研究.水利学报,2001,1:92-98.
[13]	AL Kaisi A,B run J L,Enz W J.T ran sp iration and evapo tran sp iration from m aize as related to leaf area index[J].A g ricu ltu ra land f orest M eteorology,1994,48:111-116.
[14]	L iu C M,Zhang X Y,Zhang Y Q.D eterm ination of daily evapo ration and evapo tran sp iration of w in ter w heat andm aize by largescale w eigh ing lysim eter and m icrolysim eter[J].A g ricu ltu ra l and F orest M eteorology,2002,73:201-212.

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