%0 Journal Article %T Irrigation methods affect wheat flag leaf senescence and chlorophyll fluorescence in the North China Plain %J International Journal of Plant Production %I Gorgan University of Agricultural Sciences %Z 1735-6814 %A Xu, J.K. %A Shi, Yu %A Yu, Z.W. %A Zhao, J.Y. %D 2017 %\ 06/01/2017 %V 11 %N 3 %P 361-377 %! Irrigation methods affect wheat flag leaf senescence and chlorophyll fluorescence in the North China Plain %K Supplemental irrigation based on soil moisture %K Wheat %K Superoxide dismutase activity %K Actual photochemical efficiency of PSII %K Grain yield %R 10.22069/ijpp.2017.3545 %X The water resource shortage in North China Plain is an increasing threat to the sustainabilityof wheat (Triticum aestivum L.) production. A two-year field experiment was conducted toexamine the effects of two supplemental irrigation (SI) methods on wheat flag leaf senescence,chlorophyll fluorescence and grain yield. The following field treatments were conducted:no irrigation (W0); SI with 60 mm of water at jointing and anthesis stages (local quota SI, Wck);SI based on the relative soil water content (SWC) of 0–40 cm soil layers with 65% fieldcapacity (FC) at jointing stage and 70% FC at anthesis stage (W1); SI based on SWC of samesoil layers with 70% FC at the jointing and anthesis stage (W2); and SI based on the SWC ofsame soil layers with 75% FC at jointing stage and 70% FC at anthesis stage (W3). Resultsshowed that W0 accelerated flag leaf senescence and had reduced grain yield. Among irrigationtreatments, W2 (and W3 in 2013-2014) significantly increased flag leaf water potential from7 to 28 days after anthesis (DAA) compared with Wck and W1. Superoxide dismutase activity,catalase activity of W2 increased by 15.41% and 14.96% compared with those in Wck, resultingin the significantly decreased concentration of malondialdehyde and increased concentration ofsoluble protein at 14–28 DAA. The Fv/Fm at 21–28 DAA and the ΦPSII, qP and NPQ at 14–28DAA for W2 (and W3 in 2013–2014) were also significantly higher than those of Wck and W1.Eventually, grain yield, water use efficiency and irrigation benefit of W2 were 8704.54 kg ha-1,20.86 kg ha-1 mm-1 and 31.44 kg ha-1 mm-1, respectively, which were the highest among thoseof all the treatments. These values increased by 5.82%, 9.65% and 6.00%, respectively, relativeto those of Wck. In conclusion, the SI based on 0–40 cm soil layer and use of an appropriaterelative SWC (both 70% FC at the jointing and anthesis stages) can reduce irrigation amount,delay leaf senescence and improve grain yield and water use efficiency. %U https://ijpp.gau.ac.ir/article_3545_c4294c328efe4ce359377c2a0fc26dcb.pdf