缺氮对不同年份育成的玉米杂交种光合特性的影响。
Effects of nitrogen deficiency on photosynthetic traits of maize hybrids released in different years.
作者信息
Ding L, Wang K J, Jiang G M, Biswas D K, Xu H, Li L F, Li Y H
机构信息
Laboratory of Quantitative Vegetation Ecology, Institute of Botany, The Chinese Academy of Sciences, 20 Nanxincun, Xiangshan, 100093 Beijing, PR China.
出版信息
Ann Bot. 2005 Oct;96(5):925-30. doi: 10.1093/aob/mci244. Epub 2005 Aug 15.
BACKGROUND AND AIMS
New maize (Zea mays) hybrids outperformed old ones even at reduced N rates. Understanding the mechanisms of the differences in performance between newer and older hybrids under N deficiency could provide avenues for breeding maize cultivars with large yield under N deficiency, and reduce environmental pollution caused by N fertilizers.
METHODS
N deficiency effects on grain weight, plant weight, harvest index, leaf area and photosynthetic traits were studied in the field for six maize hybrids released during the past 50 years to compare their tolerance and to explore their physiological mechanisms.
KEY RESULTS
N deficiency decreased grain yield and plant weight in all hybrids, especially in the older hybrids. However, there was no significant difference in harvest index, rate of light-saturated photosynthesis (Psat) 20 d before flowering, leaf area or plant weight at flowering between the N-deficient and control plants of all hybrids. Dry matter production after flowering of the N-deficient plants was significantly lower than that of the control plants in all hybrids, especially in the older hybrids, and was mostly due to differences in the rate of decrease in photosynthetic capacity during this stage. The lower Psat of the older hybrids was not due to stomatal limitation, as there was no significant difference in stomatal conductance (gs) and intercellular CO2 concentration (Ci) between the hybrids. N deficiency accelerated senescence, i.e. decreased chlorophyll and soluble protein contents, after anthesis more for the earlier released hybrids than for the later ones. N deficiency decreased phosphoenolpyruvate carboxylase (PEPCase) activity significantly more in older hybrids than newer hybrids, and affected the maximal efficiency of PSII photochemistry (Fv/Fm) only in the old hybrids and at the late stage.
CONCLUSIONS
Compared with older (earlier released) hybrids, newer (later released) hybrids maintained greater plant and grain weight under N deficiency because their photosynthetic capacity decreased more slowly after anthesis, associated with smaller non-stomatal limitations due to maintenance of PEPCase activity, and chlorophyll and soluble protein content.
背景与目标
即使在施氮量减少的情况下,新的玉米(Zea mays)杂交种的表现也优于旧的杂交种。了解缺氮条件下新旧杂交种性能差异的机制,可为培育缺氮条件下高产的玉米品种提供途径,并减少氮肥造成的环境污染。
方法
在田间研究了缺氮对过去50年中发布的6个玉米杂交种的粒重、植株重量、收获指数、叶面积和光合特性的影响,以比较它们的耐受性并探索其生理机制。
关键结果
缺氮降低了所有杂交种的籽粒产量和植株重量,尤其是旧杂交种。然而,所有杂交种的缺氮植株与对照植株在收获指数、开花前20天的光饱和光合速率(Psat)、叶面积或开花时的植株重量方面没有显著差异。所有杂交种中,缺氮植株开花后的干物质产量均显著低于对照植株,尤其是旧杂交种,这主要是由于该阶段光合能力下降速率的差异所致。旧杂交种较低的Psat并非由于气孔限制,因为杂交种之间的气孔导度(gs)和细胞间CO2浓度(Ci)没有显著差异。缺氮加速了衰老,即开花后较早发布的杂交种比晚些发布的杂交种叶绿素和可溶性蛋白含量下降更多。缺氮使旧杂交种中磷酸烯醇式丙酮酸羧化酶(PEPCase)活性的降低幅度显著大于新杂交种,并且仅在旧杂交种的后期影响PSII光化学的最大效率(Fv/Fm)。
结论
与旧的(较早发布的)杂交种相比,新的(较晚发布的)杂交种在缺氮条件下保持了更大的植株和籽粒重量,因为它们开花后的光合能力下降较慢,这与由于PEPCase活性、叶绿素和可溶性蛋白含量的维持而导致的较小的非气孔限制有关。
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