地下滴灌施肥条件下磷肥类型和滴管深度对根系和土壤养分分布、养分吸收以及玉米产量的影响

IF 5.6 1区 农林科学 Q1 AGRONOMY
Yanhong Guo , Zhen Wang , Jiusheng Li
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引用次数: 0

摘要

背景地表下滴灌可以通过改变养分和根系的空间分布来增加养分吸收,但不同磷源结合不同滴灌深度的增效潜力仍需进一步评估。方法我们在 2021 年和 2022 年对春玉米进行了为期两年的田间试验,以确定三种磷源(P1,磷酸一铵(MAP);P2,多磷酸铵(APP);P0,无磷)和三种滴管深度(D0,地表滴灌,0 厘米;D15,地下滴灌,15 厘米;D16,地下滴灌,15 厘米)的调节作用;D15,地表下 15 厘米深;D30,地表下 30 厘米深)对土壤 NO3-N、NH4-N 和奥尔森-P 分布、根系分布、氮肥部分全要素生产率(PFPN)和磷肥利用效率(PUE)以及谷物产量的影响。结果我们发现氮源和滴灌线深度之间存在显著的耦合效应,两者都对土壤养分和根系分布、谷物产量、PFPN 和 PUE 有显著影响。在 P1D15 和 P2D15 中,土壤 NO3-N 和 Olsen-P 含量最高的土壤深度分别为 0-30 厘米和 10-20 厘米,以及 0-30 厘米和 10-30 厘米。同样,P1D30 和 P2D30 的土壤深度分别为 20-40 厘米和 20-40 厘米,以及 20-40 厘米和 30-60 厘米。与其他处理相比,P2D15 和 P1D30 在 30-60 厘米土壤深度的根长密度分别增加了 37∼52 % 和 28∼58 %。在两个生长季中,无论滴管深度如何,P0 的产量最低。研究发现,P1D30 和 P2D15 是获得较高谷物产量、PFPN 和 PUE 的最佳组合,因为它们能够实现土壤可利用氮和奥尔森-磷以及根系分布之间的高度协调。结论在地下滴灌系统下优化养分和根系空间分布的推荐方法包括使用多钾肥(APP)与浅滴管深度相结合,以及使用正钾肥(MAP)与深滴管深度相结合,这为涉及氮肥和钾肥的共同灌溉实践提供了有价值的指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of phosphorus fertilizer type and dripline depth on root and soil nutrient distribution, nutrient uptake, and maize yield under subsurface drip fertigation

Context

Subsurface drip irrigation can potentially increase nutrient uptake by altering the spatial distribution of nutrients and roots, but the efficiency enhancement potential of different phosphorus (P) sources combined with varying dripline depths still requires further evaluation.

Methods

We established a 2-year field experiment with spring maize in 2021 and 2022 to determine the regulatory effects of three P sources [P1, monoammonium phosphate (MAP); P2, ammonium polyphosphate (APP); and P0, no P] and three dripline depths (D0, surface drip irrigation, 0 cm; D15, subsurface at 15 cm depth; and D30, subsurface at 30 cm depth) on the soil NO3-N, NH4-N and Olsen-P distribution, root distribution, nitrogen (N) fertilizer partial factor productivity (PFPN) and P use efficiency (PUE), and grain yield.

Results

We found a significant coupling effect between the P source and dripline depth, both of which significantly impacted soil nutrients and root distribution, grain yield, PFPN, and PUE. In P1D15 and P2D15, the highest soil NO3-N and Olsen-P contents were observed at soil depths of 0–30 and 10–20 cm and at 0–30 and 10–30 cm, respectively. Similarly, in P1D30 and P2D30, which were 20–40 and 20–40 cm, and 20–40 and 30–60 cm, respectively. Compared to the other treatments, P2D15 and P1D30 exhibited considerable increases in root length density at the 30–60 cm soil depth of 37∼52 % and 28∼58 %, respectively. Regardless of the dripline depth, P0 resulted in the lowest yield during both growing seasons. P1D30 and P2D15 were found to be the optimal combinations for achieving higher grain yield, PFPN, and PUE, as they were able to achieve a high degree of coordination between soil available N and Olsen-P, as well as root distribution.

Conclusions

The recommended approach for optimizing nutrient and root spatial distributions under subsurface drip irrigation systems involves the use of poly-P fertilizer (APP) in conjunction with shallow dripline depth and ortho-P fertilizer (MAP) paired with deep dripline depth, which provides valuable guidance for co-fertigation practices involving N and P fertilizers.

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来源期刊
Field Crops Research
Field Crops Research 农林科学-农艺学
CiteScore
9.60
自引率
12.10%
发文量
307
审稿时长
46 days
期刊介绍: Field Crops Research is an international journal publishing scientific articles on: √ experimental and modelling research at field, farm and landscape levels on temperate and tropical crops and cropping systems, with a focus on crop ecology and physiology, agronomy, and plant genetics and breeding.
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