COMPARATIVE EFFECT OF INTEGRATED FERTILIZATION APPROACHES ON SOIL HEALTH AND CROP PRODUCTIVITY OF WHEAT (TRITICUM AESTIVUM L.) UNDER DIFFERENT TILLAGE SYSTEMS

Journal of Agricultural Research Pub Date : 2023-03-07 DOI:10.58475/2023.61.1.1820

M. Nadeem, M. A. Haq, Irfan Iftikhar, M. Awais, Tasawar Ali, R. Ejaz, W. Umar, R. Ullah

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引用次数: 1

Abstract

The study was conducted at Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad, Pakistan to monitor the impact assessment of tillage systems on soil health indicators by integrating organic and inorganic resources to sustain wheat production in arid and semi-arid conditions i.e. high temperature and low rainfall. The field experiment was conducted in 2019-20 and carried out in alkaline soil (pH 8.2) with low organic matter (0.45%) to grow wheat after rice and treatments were arranged in randomized complete block design. Farmyard manure (FYM 20.5 Mg/ha), rice crop residues application (CRA 100%) and chemical fertilizers (CF) N-P-K 100-80-60 kg/ha, respectively were used under conventional and conservation tillage systems. During this research different growth and yield parameters were noted and evaluated the level of N, P, K and organic matter contents from soil and plant at the harvest. The results indicated that the combined application of FYM and CRA with CF improved the chlorophyll contents (20% in conventional tillage and 39% in conservation tillage) which helped in nutrient translocation (N, P, K) and increased growth, biological and grain yield by improving soil organic carbon (SOC) and organic matter contents in soil. Growth parameter i.e. germination percentage upto 64%, plant height 27% and spike length upto 35% were increased by T7 . The conservation tillage method was the best where we used T7 i.e. CF + 25% FYM + 50% CRA, and CF + 50% FYM + 25% CRA by conserving moisture and built OM (0.90%), soil organic carbon (0.49%) and mineral nutrition in soil as well as in wheat leaves. It is concluded that the integrated use of organic and inorganic resources are helpful for sustainable wheat production by enhancing fertilizer use efficiency (FUE) to improve soil health especially in arid to semi-arid climate conditions in alkaline soil.

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不同施肥方式对小麦土壤健康和作物生产力的影响比较在不同耕作制度下

这项研究是在巴基斯坦费萨拉巴德农业大学土壤与环境科学研究所进行的，目的是通过整合有机和无机资源，在干旱和半干旱条件下（即高温和低降雨量）维持小麦生产，监测耕作系统对土壤健康指标的影响评估。田间试验于2019-20年进行，在低有机质（0.45%）的碱性土壤（pH 8.2）中继稻后种植小麦，并采用随机完全区组设计进行处理。在常规和保护性耕作制度下，分别使用农家肥（FYM 20.5 Mg/ha）、水稻作物残留物施用（CRA 100%）和化肥（CF）N-P-K 100-80-60kg/ha。在这项研究中，记录了不同的生长和产量参数，并评估了收获时土壤和植物的N、P、K和有机质含量水平。结果表明，FYM和CRA与CF的联合施用提高了叶绿素含量（常规耕作为20%，保护性耕作为39%），通过提高土壤有机碳（SOC）和有机质含量，有助于养分迁移（N、P、K），并提高了生长、生物和粮食产量。T7提高了生长参数，即发芽率达64%，株高达27%，穗长达35%。保护性耕作方法是最好的，我们使用T7，即CF+25%FYM+50%CRA和CF+50%FYM+25%CRA，通过保持水分和在土壤和小麦叶片中建立OM（0.90%）、土壤有机碳（0.49%）和矿物质营养。结果表明，有机和无机资源的综合利用有助于提高肥料利用效率，改善土壤健康，特别是在干旱至半干旱的碱性土壤气候条件下，有助于小麦的可持续生产。

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Journal of Agricultural Research

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