滴灌条件下冬小麦施氮增产的光合生理响应  被引量：33

作　　者：张彦群[1] 王建东[1] 龚时宏[1] 隋娟[1] 

机构地区：[1]中国水利水电科学研究院水利研究所,北京100048

出　　处：《农业工程学报》2015年第6期170-177,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家"十二五"科技支撑计划课题(2014BAD12B05);国家自然科学基金项目(51309250;51279211);流域水循环模拟与调控国家重点实验室青年探索课题(节实验室科研1403)

摘　　要：小麦籽粒产量与抽穗期之后的旗叶光合能力密切相关。为明确冬小麦施氮增产的光合生理响应,该文以充分滴灌不同N追肥量处理的冬小麦田为研究对象,抽穗期后进行3次旗叶光合-光响应曲线测定,量化并比较了旗叶光合能力(Amax)和表观光量子羧化效率(α)等参数及产量(Y)和水分利用效率(WUEa),并确定了旗叶比叶重(SLA)、N含量(N-mass和N-area)和13C同位素甄别率(Δ)对光合参数及产量的影响。分析表明:充分滴灌条件下,增施N肥能延长旗叶光合功能持续期,提高Amax和α,以高N处理(N3,207kg/hm2)处理最为显著(P=0.046),在生育中后期仍能保持较高的Amax,这也是N3处理Y较高的主要原因。而N肥对农田耗水影响不显著,高N处理的WUEa也较高。Amax的提高和维持与旗叶SLA、N-mass、N-area和Δ的变化有关,N肥处理也显著影响了Amax与SLA、N-mass、N-area和Δ之间的线性相关关系。该结果从光合生理角度阐明了冬小麦施氮增产的生理因素,可为该地区冬小麦滴灌施肥管理提供参考。It is essential to understand the underlying physiological regulation of the effects of nitrogen fertilization to yield.Exploring the characteristics of flag leaf photosynthesis after the headed stage is of importance since the flag leaf assimilation product of this stage are the main sources of yield. In this research, winter wheat fields with sufficient drip irrigation and different nitrogen fertilization treatments were selected as the object of the study. Three nitrogen fertilization levels were designed. Net photosynthetic rate to photo active radiation（PAR） curves of different stages were measured with Li-cor 6400 portable photosynthesis system, to get the capacity of photosynthesis, i.e. the maximum photosynthetic rate（Amax） and the apparent quantum yield（α）. The specific leaf mass（SLA）, leaf nitrogen content per leaf mass（N-mass）, leaf nitrogen content per leaf area（N-area） and 13 C carbon isotope discrimination rate（Δ） were also determined by analyzing the leaf samples after photosynthesis measurements. Yield and water use efficiency were also estimated. The light curves were fit using a non-rectangular hyperbolic regression to obtain the relevant parameters for a comparison among treatments. Linear fitting was used for the light data at 0-150 μmol/（m^2·s）, the slope of the line was α and the intercept was the respiration rate（Rd）. The results showed that the more nitrogen fertilization significantly increased the parameters of Amax and α（P=0.046）, extended the duration of the better photosynthesis function, especially for the highest nitrogen treatments（N3, 221 kg/hm^2）. Rd and PARc showed no significant differences among treatments for the measurements on May 21st-23 rd and June 2nd-3rd. The mean values of Rd of the three measurements were 1.54, 1.98 and 1.90 μmol/（m^2·s）, respectively. The Amax values gradually decreased over the duration of the field trial. The Amax of N3, N2 and N1 treatments on June 2nd-3rd were 14.0%, 28.9% and 39.9% lo

关 键 词：氮肥 光合 生理 叶片氮含量 产量 水分利用效率 

分 类 号：S161.4[农业科学—农业气象学]