中国烟草科学
中國煙草科學
중국연초과학
CHINESE TOBACCO SCIENCE
2015年
2期
71-75
,共5页
林叶春%高维常%陈懿%丁福章%陈伟%李洪勋%潘文杰%姚国娇
林葉春%高維常%陳懿%丁福章%陳偉%李洪勛%潘文傑%姚國嬌
림협춘%고유상%진의%정복장%진위%리홍훈%반문걸%요국교
烤烟%施氮量%打顶期%光响应曲线
烤煙%施氮量%打頂期%光響應麯線
고연%시담량%타정기%광향응곡선
flue-cured tobacco%nitrogen application%topping stage%light response curve
为进一步明确氮肥施用量与烤烟打顶期中部叶片光合作用的关系,设置了3个氮肥水平45、90和135 kg/hm2,在盆栽试验条件下研究了不同施氮量对烤烟打顶期中部烟叶光响应曲线及其拟合参数的影响。采用开放式气路测定了烤烟中部叶净光合速率、胞间 CO2浓度和蒸腾速率,并计算了瞬时蒸腾速率和光能利用效率。结果表明,随着光合有效辐射水平增强,打顶期中部烟叶净光合速率逐渐提高并趋于稳定;但增加施氮量,叶片净光合速率、胞间 CO2浓度和瞬时光能利用效率逐渐降低,表观量子效率、最大净光合速率和光补偿点随之降低;施氮为45 kg/hm2的叶片瞬时水分利用效率和光补偿点最低。综上所述,盆栽试验条件下,施氮量为45~90 kg/hm2有利于增强烤烟打顶期中部叶片的光合响应。
為進一步明確氮肥施用量與烤煙打頂期中部葉片光閤作用的關繫,設置瞭3箇氮肥水平45、90和135 kg/hm2,在盆栽試驗條件下研究瞭不同施氮量對烤煙打頂期中部煙葉光響應麯線及其擬閤參數的影響。採用開放式氣路測定瞭烤煙中部葉淨光閤速率、胞間 CO2濃度和蒸騰速率,併計算瞭瞬時蒸騰速率和光能利用效率。結果錶明,隨著光閤有效輻射水平增彊,打頂期中部煙葉淨光閤速率逐漸提高併趨于穩定;但增加施氮量,葉片淨光閤速率、胞間 CO2濃度和瞬時光能利用效率逐漸降低,錶觀量子效率、最大淨光閤速率和光補償點隨之降低;施氮為45 kg/hm2的葉片瞬時水分利用效率和光補償點最低。綜上所述,盆栽試驗條件下,施氮量為45~90 kg/hm2有利于增彊烤煙打頂期中部葉片的光閤響應。
위진일보명학담비시용량여고연타정기중부협편광합작용적관계,설치료3개담비수평45、90화135 kg/hm2,재분재시험조건하연구료불동시담량대고연타정기중부연협광향응곡선급기의합삼수적영향。채용개방식기로측정료고연중부협정광합속솔、포간 CO2농도화증등속솔,병계산료순시증등속솔화광능이용효솔。결과표명,수착광합유효복사수평증강,타정기중부연협정광합속솔축점제고병추우은정;단증가시담량,협편정광합속솔、포간 CO2농도화순시광능이용효솔축점강저,표관양자효솔、최대정광합속솔화광보상점수지강저;시담위45 kg/hm2적협편순시수분이용효솔화광보상점최저。종상소술,분재시험조건하,시담량위45~90 kg/hm2유리우증강고연타정기중부협편적광합향응。
In order to identify the relationship between nitrogen application rates and photosynthetic characteristics of cutters at topping stage in flue-cured tobacco, a pot experiment was carried out to study the effects of nitrogen levels on light response parameters of cutters at topping stage. Three levels of nitrogen fertilizer (45, 90 and 135 kg/ha) were set up in pot experiment. Net photosynthetic rate(Pn), intercellular CO2 concentration (Ci) and transpiration rate (E) of cutters were measured in an open-circuit gas channel system, meanwhile, instantaneous light use efficiency (LUEi) and instantaneous water use efficiency (WUEi) were calculated out. The results showed that as the levels of photosynthetically active radiation increased,Pn of cutters at topping stage in flue-cured tobacco gradually increased and stabilized; as the levels of nitrogen fertilizer increased,Pn,Ci and LUEi of middle leaves decreased, and the same pattern was found on the apparent quantum efficiency (AQY), maximum net photosynthetic rate (Pmax) and light compensation point (LCP). WUEi and light compensation point (LCP) were reduced with 45 kg /ha applied in pot experiment. Based on this study, an optimum nitrogen rate of between 45 kg/ha and 90 kg/ha was recommend to ensure strong photosynthetic capacity of cutters at topping stage in flue-cured tobacco.