Abstract
Alternate partial root–zone drip irrigation (ADI) or fertigation has favorable effect on crop water- and nitrogen- use efficiencies (WUE and NUE). However, the advantage of combined application of ADI and nitrogen fertigation on crop WUE and NUE remains unclear. A pot experiment was conducted to investigate the impact of three irrigation methods (CDI conventional drip irrigation (both halves of pot irrigated), ADI (both halves of pot alternatively irrigated) and FDI fixed partial root–zone drip irrigation (fixed half of pot irrigated)) and five nitrogen treatments (F0 no N supplied, F1-F4 0.2, 0.18, 0.16 and 0.14 g N per kg soil via fertigation) on sweet-waxy maize. Compared with CDI, ADI reduced water consumption by 19.9%, but increased water use efficiency based on dry seed yield (WUEs) by 32.3%, and also enhanced nitrogen apparent recovery fraction (Nrf) and nitrogen agronomic efficiency (NAE). F1-F4 augmented dry mass accumulation, dry seed yield and total nitrogen uptake if compared to F0. Moreover, F2-ADI had higher shoot and total dry masses, WUEs, total nitrogen uptake, Nrf and NAE. Thus ADI increased nitrogen uptake, WUE and NUE of sweet-waxy maize with nitrogen fertigation of 0.18 g N per kg soil in this study.
Highlights
Agriculture is facing with the shortage of irrigation water, severe drought and low irrigation water use efficiency in China
Earlier studies showed that alternate partial root–zone irrigation (APRI) or alternate partial root–zone drip irrigation (ADI) decreases crop dry mass accumulation and raises water use efficiency (WUE) in comparison of conventional irrigation or conventional drip irrigation (CDI)[6,7,8,21]
The results of this study showed that ADI enhanced dry mass accumulation slightly and water use efficiency on the basis of total dry mass (WUEt) of sweet-waxy maize greatly if compared with CDI
Summary
Agriculture is facing with the shortage of irrigation water, severe drought and low irrigation water use efficiency in China. Previous studies showed alternate partial root–zone drip irrigation (ADI) or fertigation has benefit effect on crop dry mass accumulation, yield, N uptake, and water- and nitrogen- use efficiencies (WUE and NUE)[12,18,19,20]. The advantage of combined application of ADI and fertigation on crop yield, N uptake, WUE and NUE remains unresolved, so the hypothesis of this study was that the combined application of alternate drip irrigation and rational N fertigation can increase N uptake, WUE and NUE of sweet-waxy maize. A pot experiment was conducted to investigate the effect of three drip irrigation methods and five N fertigation strategies on dry mass accumulation, seed yield, N uptake, WUE and NUE of sweet-waxy maize, so as to reveal alternate root–zone drip irrigation combined with rational nitrogen fertigation for sweet-waxy maize production
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