Abstract
Selecting high-yielding wheat varieties for cultivation can effectively increase water use efficiency (WUE) in the Huang–Huai–Hai Plain, where is threatened by increasing water shortages. To further identify the difference in water use and its relationship with root morphology and senescence characteristics, wheat varieties with different yield potentials—Yannong 1212 (YN), Jimai 22 (JM), and Liangxing 99 (LX)—were studied in a high-yielding wheat field. The water consumption percentage (CP) in YN decreased from planting to anthesis; however, crop evapotranspiration and CP increased from anthesis to maturity compared with JM and LX. In YN, a higher soil water consumption from anthesis to maturity in the 0–100 cm soil layer was partly attributed to the greater root weight density in the 20–60 cm soil layer. In topsoil (0–40 cm), root length density, root surface area density, and root diameter at 20 days after anthesis, root superoxide dismutase activity, and root triphenyl tetrazolium chloride reduction activity during mid grain filling stage were higher in YN than in JM and LX. YN had the highest grain yields of 9,840 and 11,462 kg ha–1 and increased grain yield and WUE by 12.0 and 8.4%, respectively, as compared with JM, and by 30.3 and 21.3%, respectively, as compared with LX. Ensuring more soil water extraction post-anthesis by increasing roots in the 20–60 cm soil profile, improving root morphology traits, and alleviating root senescence in the topsoil during mid-grain filling stage will assist in selecting wheat varieties with high yield and WUE.
Highlights
The Huang–Huai–Hai Plain (3HP), as the main wheat production region in China, owns only 40% of the agricultural land in the country; it accounts for about 61% of the total wheat production of the country (Sun et al, 2011; Xu et al, 2018)
Compared with Jimai 22 (JM) and Liangxing 99 (LX), the consumption percentage (CP) from planting to jointing of Yannong 1212 (YN) was 4.9 and 7.8% lower in 2017– 2018, and 5.6 and 8.1% lower in 2018–2019, respectively
ET and CP from anthesis to maturity, both ranked in the decrease order of YN > JM > LX, in both years
Summary
The Huang–Huai–Hai Plain (3HP), as the main wheat production region in China, owns only 40% of the agricultural land in the country; it accounts for about 61% of the total wheat production of the country (Sun et al, 2011; Xu et al, 2018). In this area, the precipitation received during the full wheat growth season ranges from 100 mm to 180 mm, which can only meet 25–40% of the total water requirement of wheat (Iqbal et al, 2014). Studies have shown that renewing varieties is an effective way to increase yield and WUE (Faralli et al, 2019; Meena et al, 2019b), and it is necessary to study the physiological characteristics of wheat varieties with high yield and high WUE
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