Effect of nano-silicon foliar application on safflower growth under organic and inorganic fertilizer regimes

Botanica Lithuanica Pub Date : 2016-06-01 DOI:10.1515/botlit-2016-0005

M. Janmohammadi, Tahere Amanzadeh, N. Sabaghnia, V. Ion

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引用次数: 67

Abstract

Abstract Silicon nanoparticles have distinctive physicochemical characteristics and are able to enter into plants and impact the metabolism of plants as well as improve plant growth and yield under unfavourable environmental conditions. Besides, low soil organic matter content, imbalanced nutrient and inadequate water supply may adversely affect crop productivity in semiarid areas. To understand the effects of foliar spray of silicon dioxide nanoparticles (nSiO2) with application of farmyard manure (FYM) or inorganic fertilizer on morpho-physiological traits and yield of safflower, a field experiment was carried out in a highland semiarid region of Maragheh, northwest Iran. The experiment consisted of two levels of nSiO2 (0 and 20 mM) and four fertilizer regimes (control, 15 t ha−1 FYM, 30 t ha−1 FYM, 90 kg ha−1 N-P-K chemical fertilizer). Safflower plants were treated with nSiO2 suspension at leaf development, branching and capitulum emergence stages. Although the nSiO2 significantly improved some growth parameters such as canopy spread, stem diameter, plant height, ground cover and the number of achenes in capitulum, it did not affect achene yield and harvest index. However, fertilizer treatments considerably affected most of morpho-physiological traits, achene yield and yield components. The result showed that the best growth and the highest achene yield were achieved by application of 30 t ha−1 FYM before sowing. Application of high FYM increased the achene yield by 48% compared to the control, however, application of N-P-K chemical fertilizer or of 15 t ha−1 FYM improved achene yield only up to 17% over the no fertilizer condition. Moreover, this work revealed some positive effects of exogenous application of nSiO2 on safflower growth. This finding suggests that application of organic fertilizers with foliar spray of nSiO2 can improve safflower production and is an advisable agronomic option.

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有机和无机施肥条件下叶面施用纳米硅对红花生长的影响

摘要纳米硅具有独特的物理化学特性，在不利的环境条件下能够进入植物体内，影响植物的代谢，提高植物的生长和产量。此外，半干旱区土壤有机质含量低、养分不平衡和水分供应不足可能对作物生产力产生不利影响。为了了解二氧化硅纳米颗粒(nSiO2)叶面喷施农家肥(FYM)或无机肥对红花形态生理性状和产量的影响，在伊朗西北部马拉赫(Maragheh)高原半干旱地区进行了田间试验。试验包括2个水平的nSiO2(0和20 mM)和4个施肥方案(对照、15 t ha - 1 FYM、30 t ha - 1 FYM、90 kg ha - 1 N-P-K化肥)。在红花叶片发育、分枝和头状花序出苗期，用nSiO2悬浮液处理红花植株。虽然nSiO2显著改善了冠层铺展、茎粗、株高、地被盖度和头状花序瘦果数等生长参数，但对瘦果产量和收获指数没有影响。然而，施肥处理显著影响了大部分形态生理性状、瘦果产量和产量组成。结果表明，播前施用30 tha - 1 FYM可获得最佳生长和最高瘦果产量。施用高FYM使瘦果产量比对照提高48%，而施用N-P-K化肥或15 t / h - 1 FYM仅使瘦果产量比不施肥提高17%。此外，本研究还揭示了外源施用nSiO2对红花生长的积极影响。由此可见，施用有机肥的同时叶面喷施nSiO2可提高红花产量，是一种较为理想的农艺选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Botanica Lithuanica

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