Effects of drip irrigation on root activity pattern, root-sourced signal characteristics and yield stability of winter wheat
文献类型: 外文期刊
第一作者: Ma, Shou-tian
作者: Ma, Shou-tian;Ma, Shou-Chen;Ma, Shou-tian;Wang, Tong-chao
作者机构:
关键词: Winter wheat; Drip fertilization; Root-sourced signal; Root activity pattern; Yield stability
期刊名称:AGRICULTURAL WATER MANAGEMENT ( 影响因子:6.611; 五年影响因子:6.574 )
ISSN: 0378-3774
年卷期: 2022 年 271 卷
页码:
收录情况: SCI
摘要: A field experiment was conducted to explore the mechanism of drip fertilization to increase grain yield and water productivity (WP) of winter wheat. The traditional irrigation and fertilization method (surface flooding irrigation + artificially applying fertilizer) was used as CK, and two drip fertilization methods were set up: surface drip fertilization (I1) and subsurface drip fertilization (I2). The results showed that drip fertilization affected the root morphological pattern (RMP) and root activity pattern (RAP)of wheat by affecting the distribution of water and nitrogen in the soil. At heading stage, both I1 and I2 had higher root weight density (RWD) and root length density (RLD) in deep soil layer (40-80 cm) compared with CK, but lower RWD and RLD in the topsoil layer (0-20 cm). I1 and I2 had greater root activity in deep soil layer compare to CK, but root activity of I2 in 0-20 cm surface soil was lower than that of CK and I1. Drip fertilization also affected the distribution space of maximum root activity (MRA) of plant. At heading stage, the distribution space of MRA of I1 and I2 was the same as that of CK, and all of them were located in 20-40 cm soil layer. At the filling stage, MRA of CK was located in 40-80 cm soil layer, and that of I1 and I2 were in 20-60 cm soil layer. Plant can adjust its water uptake strategy and RAP according to soil moisture and the growth stages. Plants in I1 and CK mainly use water from 0 to 20 cm soil layer at jointing stage (one week after irrigation), and I2 mainly absorbs water from 20 to 40 cm soil layer. At the filling stage (three weeks after irrigation), the main uptake space (MUS) of root moved to 40-80 cm soil layers, but I1 and I2 had greater water uptake capacity in this position compared with CK. Drip fertilization also triggered non-hydraulic root-sourced signal (nHRS) earlier, but delayed the emergence of hydraulic root-sourced signal (HRS). In addition, the grain yield, yield stability (YS) and WP of I1 and I2 were higher than those of CK. In conclusion, drip fertilization optimized RMP, RAP and root-sourced signal characteristics of crop by improving the water and fertilizer environment in the root zone, thus improving grain yield, YS and WP of crop.
分类号:
- 相关文献
作者其他论文 更多>>
-
Responses of rainwater conservation, precipitation-use efficiency and grain yield of summer maize to a furrow-planting and straw-mulching system in northern China
作者:Ma, B. L.;Wang, Tong-Chao;Wei, Li;Wang, He-Zhou;Ma, Shou-Chen
关键词:grain yield;rainwater conservation;precipitation-use efficiency
-
Root-sourced signal and photosynthetic traits, dry matter accumulation and remobilization, and yield stability in winter wheat as affected by regulated deficit irrigation
作者:Ma, Shou-Chen;Wang, Rui;Guan, Zhong-Mei;Ma, Shou-Chen;Duan, Ai-Wang;Yang, Shen-Jiao;Ma, Shou-Tian;Shao, Yun
关键词:Winter wheat;Regulated deficit irrigation;Non-hydraulic root-sourced signal;Dry matter accumulation and remobilization;Grain yield stability
-
EFFECT OF EARLY-STAGE REGULATED DEFICIT IRRIGATION ON STEM LODGING RESISTANCE, LEAF PHOTOSYNTHESIS, ROOT RESPIRATION AND YIELD STABILITY OF WINTER WHEAT UNDER POST-ANTHESIS WATER STRESS CONDITIONS
作者:Ma, Shou-Chen;Ma, Shou-Chen;Duan, Ai-Wang;Ma, Shou-Tian;Yang, Shen-Jiao;Ma, Shou-Chen
关键词:drought;regulated deficit irrigation;stress tolerance;waterlogging;winter wheat
