Kernel quality, germination rate and seedling performance of eight wheat varieties produced under three different irrigation regimes

A. H. A. Ghani, Saddam Aref Al- Dalain, Ghassab H. Tarawneh, Huda Hazim Al- Taae, Basel H Al- Tarawneh, S. Owais, Awad S Al- Ebissat, Raeda Al- Mayta, Jawad A. AL- Dala'een, M. A. Duwayri
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Abstract

The effects of three different irrigation treatments were tested on kernel quality (i.e. kernel size), germination rate and seedling performance of eight wheat varieties. The irrigation treatments used were as follows: (i) rainfed treatment with 262.8mm annual rainfall received during the growing season, (ii) partial irrigation (PSI) treatment receiving 482.8 mm of water (262.8mm rainfall + 220mm irrigation at anthesis) and (iii) continuous supplementary irrigation (CSI) receiving 640 mm water (262.8 mm rainfall + 377.2 mm supplementary irrigation at 2-3 weeks interval). Seven durum wheat varieties (Sham1, Omqais, Acsad65, Bani Suef6, Bani Suef4, Horani Nawawi, Dairalla6) and one bread wheat variety (Ammon) were included in this study. Split-plot design was used with three replications. The main plots were the irrigation treatments, while the sub-plots were varieties nested within irrigation treatments. Kernels weight was recorded under different irrigation treatments in addition to the germination rate parameters (mean germination time and the time to attain 10% and 50% of complete germination percentage) and seedling attributes (shoot length, maximum seminal root length, coleoptile length, shoot fresh weight and seminal root fresh weight). The thousand kernel weight (TKW) was maximum under PSI (46.21g), followed by CSI (43.20g) and rainfed treatment (41.70g). TKW was maximum in Cham1 (45.37g) and BaniSuef6 (45.22g), while the minimum TKW was recorded in Ammon bread wheat variety (39.19g). Smaller wheat kernels released under rainfed condition were notoriously faster to germinate as compared with kernels released under CSI and PSI, and consequently smaller kernels would be desirable to accelerate the time required from sowing to seedling emergence. Hourani Nawawi and DairAlla 6 gave a more vigorous seedling with longer seminal roots and larger seedling biomass, which might indicate their high adaptability to early drought. In conclusion, smaller kernels were faster in germination, which minimize the time required from germination to emergence for a good stand establishment, while heavy kernels would have seedlings with a more vigorous root system which may help the crop to withstand early drought
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3种不同灌溉制度下8个小麦品种的籽粒品质、发芽率和幼苗性能
试验了3种不同灌溉处理对8个小麦品种籽粒品质(即籽粒大小)、发芽率和幼苗性能的影响。采用的灌溉处理为:(i)生长期年降雨量为262.8mm的雨养处理,(ii)部分灌溉(PSI)处理482.8 mm的水(262.8mm降雨量+开花期灌溉220mm)和(iii)连续补充灌溉(CSI)处理640 mm的水(262.8mm降雨量+ 377.2 mm补灌,间隔2-3周)。选取7个硬粒小麦品种(Sham1、Omqais、Acsad65、Bani Suef6、Bani Suef4、Horani Nawawi、Dairalla6)和1个面包小麦品种(Ammon)作为研究对象。采用裂区设计,3个重复。主样地为灌水处理,次样地为灌水处理内嵌套的品种。记录不同灌水处理下籽粒重、发芽率参数(平均发芽时间、达到完全发芽率10%和50%的时间)和幼苗属性(茎长、最大种根长、胚芽鞘长、茎鲜重和种根鲜重)。PSI处理千粒重(TKW)最大,为46.21g, CSI次之(43.20g),雨养处理次之(41.70g)。Cham1和BaniSuef6的TKW最大(45.37g), Ammon面包小麦品种TKW最小(39.19g)。与CSI和PSI条件下释放的籽粒相比,雨养条件下释放的小粒萌发速度更快,因此更小的籽粒可以加快从播种到出苗所需的时间。houani Nawawi和DairAlla 6的种子根更长,幼苗生物量更大,幼苗活力更强,这可能表明它们对早期干旱的适应性较高。综上所述,小粒的种子萌发速度更快,从而最大限度地减少了从发芽到出苗所需的时间,从而建立了一个良好的林分,而大粒的种子根系更强健,这可能有助于作物抵御早期干旱
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