西南农业学报
西南農業學報
서남농업학보
SOUTHWEST CHINA JOURNAL OF AGRICULTURAL SCIENCES
2009年
5期
1305-1309
,共5页
刘永红%杨勤%何文铸%柯国华
劉永紅%楊勤%何文鑄%柯國華
류영홍%양근%하문주%가국화
玉米%花期干旱%灌溉%植物生长调节剂%光合生理%茎流
玉米%花期榦旱%灌溉%植物生長調節劑%光閤生理%莖流
옥미%화기간한%관개%식물생장조절제%광합생리%경류
Maize (Zea mays L.)%Drought stress at flowering stage%Irrigation%Plant growth regulators%Stem sap%Photosynthesis
采用池栽和干旱棚模拟花期干旱胁迫,试验研究植物生长调节剂对玉米旱害和正常植株不同时期茎流和光合性能的影响.结果表明:在干旱胁迫条件下,外源CaCl_2、ABA、6-BA、KT-30处理10 d显著抑制植株茎流强度,减少植株失水.还促进干旱影响植株的叶绿素含量(SAPD)、光化学效率(Fv/Fm)、光系统潜在活性(Fv/Fo)显著提高或者保持相对稳定,减缓干旱对植株光合作用的影响.在充分灌溉条件下,植物生长调节剂也使植株茎流强度下降,SAPD、Fv/Fm和Fv/Fo增加,但其作用强度弱于干旱胁迫处理.随着生育进程(处理20 d),植物生长调节剂还能增强玉米灌浆后期的植株茎流强度,使SPAD、Fv/Fm、Fv/Fo显著增加或者保持相对稳定,延缓干旱导致的植株衰老,但外源ABA具有双重作用,这与水分条件密切相关.研究还发现,Fv/Fm和Fv/Fo可作为植株衰老诊断指标.
採用池栽和榦旱棚模擬花期榦旱脅迫,試驗研究植物生長調節劑對玉米旱害和正常植株不同時期莖流和光閤性能的影響.結果錶明:在榦旱脅迫條件下,外源CaCl_2、ABA、6-BA、KT-30處理10 d顯著抑製植株莖流彊度,減少植株失水.還促進榦旱影響植株的葉綠素含量(SAPD)、光化學效率(Fv/Fm)、光繫統潛在活性(Fv/Fo)顯著提高或者保持相對穩定,減緩榦旱對植株光閤作用的影響.在充分灌溉條件下,植物生長調節劑也使植株莖流彊度下降,SAPD、Fv/Fm和Fv/Fo增加,但其作用彊度弱于榦旱脅迫處理.隨著生育進程(處理20 d),植物生長調節劑還能增彊玉米灌漿後期的植株莖流彊度,使SPAD、Fv/Fm、Fv/Fo顯著增加或者保持相對穩定,延緩榦旱導緻的植株衰老,但外源ABA具有雙重作用,這與水分條件密切相關.研究還髮現,Fv/Fm和Fv/Fo可作為植株衰老診斷指標.
채용지재화간한붕모의화기간한협박,시험연구식물생장조절제대옥미한해화정상식주불동시기경류화광합성능적영향.결과표명:재간한협박조건하,외원CaCl_2、ABA、6-BA、KT-30처리10 d현저억제식주경류강도,감소식주실수.환촉진간한영향식주적협록소함량(SAPD)、광화학효솔(Fv/Fm)、광계통잠재활성(Fv/Fo)현저제고혹자보지상대은정,감완간한대식주광합작용적영향.재충분관개조건하,식물생장조절제야사식주경류강도하강,SAPD、Fv/Fm화Fv/Fo증가,단기작용강도약우간한협박처리.수착생육진정(처리20 d),식물생장조절제환능증강옥미관장후기적식주경류강도,사SPAD、Fv/Fm、Fv/Fo현저증가혹자보지상대은정,연완간한도치적식주쇠로,단외원ABA구유쌍중작용,저여수분조건밀절상관.연구환발현,Fv/Fm화Fv/Fo가작위식주쇠로진단지표.
The controllable trials were carried out to study effect of plant growth regulators (PGRs) on stem sap and photosynthesis of maize growth stage on drought injury and irrigation plant at flowering stage with pool planting and canopy experiment. The results showed that both exogenous CaCl_2 and abscisic acid(ABA) and 6-benzyl adenine(6-BA) and kinetin-30(KT-30) markedly reduced stem sap intensity and controlled transpiration of plant,markedly increased or maintained relative stabilization on chlorophyll content (SPAD),the photochemistry efficiency (Fv/Fm) and latency activity (Fv/Fo) of photosystem Ⅱ on five leaves up and under spike at 10 days after the treatment of PGRs under drought stress,that reduced injury on photosynthesis of plant (Fig.1,2,3,4). The PGRs markedly reduced stem sap intensity and increased SPAD,Fv/Fm and Fv/Fo at 10 days after the treatment of PGRs under full irrigation,but effect of PGRs was smaller and weaker under irrigation than that under drought stress. The PGRs incarnate to stay senescence of plant because of increasing stem sap intensity and SPAD and Fv/Fm and Fv/Fo at 20 days (milking later stage) after the treatment,but exogenous ABA had double effect,which was related to water intensity. Studies discovered that Fv/Fm and Fv/Fo could be used as a index to estimate senescence of plant.
