华北农学报
華北農學報
화북농학보
ACTA AGRICULTURAE BOREALI-SINICA
2013年
5期
213-218
,共6页
李付杰%武兰芳%马军花%康华靖
李付傑%武蘭芳%馬軍花%康華靖
리부걸%무란방%마군화%강화정
夏玉米%养分亏缺%叶绿素荧光%光合速率
夏玉米%養分虧缺%葉綠素熒光%光閤速率
하옥미%양분우결%협록소형광%광합속솔
Summer corn%Nutrition deficiency%Chlorophyll fluorescence%Photosynthesis rate
基于长期养分定位试验平台,研究了长期养分亏缺条件下夏玉米的光合特征,结果表明:缺P和缺K会导致初始荧光Fo的增加,缺P、缺N会导致最大光化学量子效率( Fv/Fm)、实际光化学效率(ΦPSⅡ)、电子传递效率(ETR)降低,而缺K对其无显著影响。光合速率的大小变化表现出和ΦPSⅡ、ETR相似的规律,缺K的情况下光合速率与全NPK相比并没有显著降低,而缺N和缺P的处理光合速率明显降低,尤其是缺P处理,下降了32.86%。通过对光合速率和ΦPSⅡ、ETR分别进行相关性分析和回归分析发现,光合速率和ΦPSⅡ、ETR有着显著的线性相关,相关系数分别为0.986和0.988。通过对光响应曲线和CO2响应曲线的分析,缺N对最大光合速率、饱和光强和饱和CO2浓度的影响要大于缺P的影响。
基于長期養分定位試驗平檯,研究瞭長期養分虧缺條件下夏玉米的光閤特徵,結果錶明:缺P和缺K會導緻初始熒光Fo的增加,缺P、缺N會導緻最大光化學量子效率( Fv/Fm)、實際光化學效率(ΦPSⅡ)、電子傳遞效率(ETR)降低,而缺K對其無顯著影響。光閤速率的大小變化錶現齣和ΦPSⅡ、ETR相似的規律,缺K的情況下光閤速率與全NPK相比併沒有顯著降低,而缺N和缺P的處理光閤速率明顯降低,尤其是缺P處理,下降瞭32.86%。通過對光閤速率和ΦPSⅡ、ETR分彆進行相關性分析和迴歸分析髮現,光閤速率和ΦPSⅡ、ETR有著顯著的線性相關,相關繫數分彆為0.986和0.988。通過對光響應麯線和CO2響應麯線的分析,缺N對最大光閤速率、飽和光彊和飽和CO2濃度的影響要大于缺P的影響。
기우장기양분정위시험평태,연구료장기양분우결조건하하옥미적광합특정,결과표명:결P화결K회도치초시형광Fo적증가,결P、결N회도치최대광화학양자효솔( Fv/Fm)、실제광화학효솔(ΦPSⅡ)、전자전체효솔(ETR)강저,이결K대기무현저영향。광합속솔적대소변화표현출화ΦPSⅡ、ETR상사적규률,결K적정황하광합속솔여전NPK상비병몰유현저강저,이결N화결P적처리광합속솔명현강저,우기시결P처리,하강료32.86%。통과대광합속솔화ΦPSⅡ、ETR분별진행상관성분석화회귀분석발현,광합속솔화ΦPSⅡ、ETR유착현저적선성상관,상관계수분별위0.986화0.988。통과대광향응곡선화CO2향응곡선적분석,결N대최대광합속솔、포화광강화포화CO2농도적영향요대우결P적영향。
Based on the long-term nutrient balance experiment conducted in Yucheng Comprehensive Exp .Sta-tion of CAS ,the effects of nitrogen ,phosphorus and potassium on the photosynthetic characteristics of summer maize were investigated respectively in this study .Four treatments,namely NP,NK,PK and NPK used as comparison ,are selected .In order to study the photosynthetic characteristics of summer maize in the long -term nutrient deficiency conditions,the chlorophyll fluorescence parameter ,photosynthetic rate ,light response curve and CO 2 response curve of summer maize leaves are measured .The results showed that phosphorus deficiency and potassium deficiency would lead to the increase of initial fluorescence ( Fo) .Phosphorus deficiency and nitrogen deficiency would lead to the decrease of the maximal photochemical efficiency ( Fv/Fm) and actual photochemical efficiency (ΦPSⅡ) and elec-trons transfer efficiency ( ETR) ,while the lack of potassium alone had no significant effect on the above indicators . Compared with the photosynthetic rate under the conditions of an adequate supply of NPK ,the deficiency of potassi-um has not reduce the photosynthetic rate significantly ,while the deficiency of nitrogen and phosphorus has lead to an significant decrease of the photosynthetic rate ,especially phosphorus deficiency conditions the photosynthetic rate has decreased by 32.86%.The variation of photosynthetic rate follows the same trend of ΦPSⅡ and ETR variation. The results of statistical analysis showed that there is significant linear correlation relationship between photosynthet -ic rate and ΦPSⅡ and ETR.The correlation coefficients are as high as 0.986 and 0.988,respectively.By analyzing the light response curve and CO 2 response curve ,it is concluded that the impact of nitrogen deficiency on the maxi-mal photosynthetic rate ,saturation light intensity and saturation CO 2 concentration is more significant than the im-pact of phosphorus deficiency .
