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根区孔施肥的自适应间距可提高油菜的产量和肥料利用率。

An adaptive spacing of root-zone hole fertilization to improve production and fertilizer utilization of rapeseed.

机构信息

School of Energy and Power Engineering, Xihua University, Chengdu, China.

State Key Laboratory of Eco-hydraulics in Northwest Arid Region, Xi'an University of Technology, Xi'an, China.

出版信息

J Sci Food Agric. 2024 Aug 15;104(10):6276-6288. doi: 10.1002/jsfa.13457. Epub 2024 Mar 25.

DOI:10.1002/jsfa.13457
PMID:38477353
Abstract

BACKGROUND

Root-zone hole fertilization has a positive impact on enhancing crop production and fertilization efficiency. However, a suitable spacing for hole fertilization in rapeseed cultivation is unclear. To explore an adaptive hole spacing for improving rapeseed yield and fertilization efficiency, field experiments were conducted. Four spacings of hole fertilization were designed: 10 (FD10), 20 (FD20), 30 (FD30) and 40 cm (FD40), using no fertilization (F0) and deep-banded placement of fertilizer (DBP) as controls. The burial depth was 10 cm for FD and DBP treatments.

RESULTS

Compared to DBP, hole fertilization impacted soil microenvironment, crop growth and yield components, resulting in a significant increase of 28.4% in seed yield and 25.6% in oil yield. Seed yield in FD20 (4345.43 kg ha) increased by 4.3%, 9.4% and 15.1% compared to FD10, FD30 and FD40, respectively. Fertilizer partial factor productivity under FD20 was 4.2%, 8.6% and 13.9% greater than FD10, FD30 and FD40, respectively; whereas the increase for agronomic efficiency was 6.0%, 12.7% and 21.0%, and the increase for N recovery efficiency was 39.5%, 52.5% and 62.9%, respectively.

CONCLUSION

Fertilization with a hole spacing of 17 cm is a promising practice to maintain high production and fertilization efficiency when cultivating rapeseed. These results provide a theoretical foundation and scientific basis for improving rapeseed productivity and fertilizer utilization. © 2024 Society of Chemical Industry.

摘要

背景

根区施肥对提高作物产量和施肥效率有积极影响。然而,油菜种植中适宜的施肥孔间距尚不清楚。为了探索提高油菜产量和施肥效率的适应性施肥孔间距,进行了田间试验。设计了 4 种施肥孔间距:10(FD10)、20(FD20)、30(FD30)和 40cm(FD40),以不施肥(F0)和深施条施(DBP)为对照。FD 和 DBP 处理的埋深为 10cm。

结果

与 DBP 相比,孔施肥影响了土壤微环境、作物生长和产量构成,使种子产量显著增加 28.4%,含油量增加 25.6%。与 FD10、FD30 和 FD40 相比,FD20 的种子产量分别增加了 4.3%、9.4%和 15.1%。FD20 下肥料偏生产力比 FD10、FD30 和 FD40 分别增加了 4.2%、8.6%和 13.9%;农学效率分别提高了 6.0%、12.7%和 21.0%,氮回收率分别提高了 39.5%、52.5%和 62.9%。

结论

当种植油菜时,采用 17cm 的施肥孔间距施肥是一种保持高产和高施肥效率的有前途的做法。这些结果为提高油菜生产力和肥料利用率提供了理论基础和科学依据。© 2024 化学工业协会。

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