Tillage intensity by organic fertilization interaction on sunflower performance and some soil properties

Q3 Agricultural and Biological Sciences
Helia Pub Date : 2023-06-12 DOI:10.1515/helia-2023-0005
M. Janmohammadi, N. Sabaghnia
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引用次数: 0

Abstract

Abstract A field trail was performed to study the impacts of soil tillage system and some organic and inorganic fertilizers treatments on sunflower performance and soil characteristics in the semi-arid region across 2015–2016 growing season. The tillage systems were (T1) conventional tillage, and (T2) reduced tillage while the fertilizer treatments were (F1) control, (F2) 20 t ha−1 farmyard manure, (F3) 40 t ha−1 farmyard manure, (F4) 20 t ha−1 farmyard manure plus 50:25:25 kg ha−1 NPK, (F5) 100:50:50 kg ha−1 NPK. The two-way entry (treatment) by tester (trait) biplot tool, described 84 % of the observed variability (68 % and 16 % by the first two principal components, respectively). The which-wins-where pattern, showed six vertex treatment (tillage system × fertilizer type) as: T1-F1 which had the highest values for bulk density; T1-F3 which had the highest values for days to maturity, organic matter and root depth; T1-F5 which had the highest values for soil phosphorus and harvest index; T2-F1 which had the highest values for mean emergence time; T2-F3 which had the highest values for soil potassium and achene yield; and T2-F4 which had the highest values for soil nitrogen. The ideal treatment pattern indicated that T2-F4 was the best treatment combination. We found that the best performance for sunflower achene yield was obtained with using reduced tillage system plus F3 or F4 fertilizer treatments. Finally, application no fertilizer or using only chemical fertilizers could not improve sunflower performance in both tillage systems.
耕作强度与有机肥互作对向日葵生产性能及部分土壤性质的影响
摘要通过田间试验,研究了2015-2016年半干旱地区土壤耕作制度和一些有机和无机肥料处理对向日葵生长性能和土壤特性的影响。耕作制度为(T1)常规耕作和(T2)减少耕作,而肥料处理为(F1)对照,(F2)20 t ha−1农家肥,(F3)40 t ha−1农家肥,(F4)20 t ha−1农家肥加50:25:25 公斤 ha−1 NPK,(F5)100:50:50 公斤 ha−1 NPK。测试人员(特征)双批次工具的双向进入(处理),描述84 % 观察到的变异性(68 % 和16 % 分别通过前两个主要分量)。在哪种模式下获胜,表现为六顶点处理(耕作制度×肥料类型)为:体积密度值最高的T1-F1;T1-F3的成熟天数、有机质和根深值最高;土壤磷和收获指数最高的T1-F5;T2-F1具有最高的平均出现时间值;土壤钾和瘦果产量最高的是T2-F3;土壤氮含量最高的是T2-F4。理想的治疗模式表明T2-F4是最佳的治疗组合。研究发现,采用少耕制度加F3或F4肥料处理的向日葵瘦果产量表现最好。最后,在两种耕作系统中,不施肥或只使用化肥都不能提高向日葵的性能。
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来源期刊
Helia
Helia Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.00
自引率
0.00%
发文量
9
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