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1�����、中國(guó)油料作物學(xué)報(bào)2013�,35(6):674—679ChineseJournalofOilCropSciencesdoi:10.7505/j.issn.1007—9084.2013.06.009干旱脅迫對(duì)不同大豆品種葉片光合及生理特性的影響徐晨,張鵬����,徐克章���,李大勇,季平�,馮引娣,趙蘭坡(1.吉林農(nóng)業(yè)大學(xué)中藥材學(xué)院��,吉林長(zhǎng)春���,130118�����;2.吉林農(nóng)業(yè)大學(xué)農(nóng)學(xué)院�����,吉林長(zhǎng)春���,130118;3.吉林農(nóng)業(yè)大學(xué)資源與環(huán)境學(xué)院����,吉林長(zhǎng)春���,130118)摘要:采用盆栽試驗(yàn)��,研究了干旱脅迫對(duì)4個(gè)抗旱大豆品種和4個(gè)普通大豆品種葉片的光合特性�、葉綠素?zé)晒馓匦院鸵恍┥?/p>
2、理特性的影響��。結(jié)果表明�,干旱脅迫下R2、R4����、R6三個(gè)時(shí)期大豆葉片的凈光合速率(Pn)、氣孔導(dǎo)度(Gs)和蒸騰速率(Tr)均呈下降趨勢(shì)���,普通品種相比抗旱品種下降更為顯著�����;在R2期���,胞間二氧化碳濃度(ci)下降較大,普通品種的下降最為顯著����,表觀葉肉導(dǎo)度(AMC)變化極?����?����;在R4期和R6期�����,ci下降幅度變小����,AMC呈下降趨勢(shì)�,以普通品種的下降最為顯著,推測(cè)光合能力下降可能與非氣孔限制因素有關(guān)�����。干旱脅迫下光合電子傳遞量子效率(跚)�、光化學(xué)猝滅(qP)和表觀光合量子傳遞效率(ETR)均降低,非光化學(xué)猝滅(NPQ)升高�,原初光能轉(zhuǎn)化效率(/)變化不大。干旱脅
3、迫下葉片丙二醛�����、脯氨酸和可溶性糖含量增加���。關(guān)鍵詞:大豆(GlycineinaxL.);干旱脅迫��;光合作用���;氣孔限制作用�;水分利用效率中圖分類(lèi)號(hào):Q945.11��,$565.101文獻(xiàn)標(biāo)識(shí)碼:A文章編號(hào):1007—9084(2013)06—0674—06EfectsofdroughtstressonleafphotosynthesisandsomephysiologicaltraitsindiferentsoybeancultivarsXUChen����,ZHANGPeng,XUKe—zhang���,LIDa—yong�����,jIPing���,F(xiàn)ENGYin—di�����,ZHA
4��、OLan—po(1.CollegeofTraditionalChineseMedicine����,JilinAgriculturalUniversity�,Changchun130118,China�����;2.CollegeofAgronomy����,JilinAgriculturalUniversity,Changchun130118China��;3.CollegeofResourceandEnvironmentalScience����,filinAgriculturalUniversity�����,Changchun130118��,China)Abstract:Variationo
5、fphotosyntheticcharacteristics����,leafchlorophyllfluorescencecharacteristicsandsomephysiologicalcharacteristicsoffourdrought——resistantsoybeanvarietiesandfourordinarysoybcanvarietieswerein-vestigatedunderdroughtstress.Theresultsshowedthatthenetphotosyntheticrate(Pn),stomatalcondu
6�、ctance(Gs)andtranspirationrate(Tr)ofthreegrowthstagesweredeclinedunderdroughtstress.Theordinarysoybeanvarietiesweremoredeclinedthandrought—resistantvarieties.TheintercellularCO2concentration(Ci),especiallyoftheordinarysoybeanvarietiesdecreasedsignificantlyatR2stage.Theapparent
7���、mesophyllconductance(AMC)hadnOobviouschangeatR2.TheCidecreasedlessthanR2andtheAMCdecreasedatR4andR6.neordinaryvarietiesdecreasedsignificantly.Thissuggestedthatthestomatallimitationmighthaveledtophotosynthesisde—cline.Thephotosyntheticelectrontransferquantumeficiency(PSII)andph
8�����、otochemicalquenching(qP)andapparentphotosyntheticquantumtrans
