Javed Anjum, Mustajab A. Khan, J. Babar, F. Ahmed, Meraj Domar, Muhammad Ejaz, T. Ziad, Rehan Fareed, Hidayatullah Kakar
{"title":"通过有机添加剂和化学肥料的协同作用改善石灰性土壤中豌豆的生长和养分效率","authors":"Javed Anjum, Mustajab A. Khan, J. Babar, F. Ahmed, Meraj Domar, Muhammad Ejaz, T. Ziad, Rehan Fareed, Hidayatullah Kakar","doi":"10.46568/bios.v5i1.165","DOIUrl":null,"url":null,"abstract":"Introduction Soil fertility in Pakistan is hindered by insufficient and unstable organic matter, leading to stagnation and a decline in overall agricultural productivity. Methodology A pot study was conducted in 2018-19 comprised of four treatments including T1 = Recommended NPK fertilizer, T2 = NPK+FYM, T3 = NPK + Poultry manure, and T4 = NPK + Plant residue based on Complete Randomized Design (CRD) and was replicated thrice. Result The results exhibited significant differences in peas’ growth, yield, and nutrient use efficiency across the organic amendments. Among them, the higher plant height (70.63 cm), pod length (9.37 cm), and pod yield (158.63 g pot-1) was observed in T3 followed by T2. Regarding nutrient concentration and uptake, both T2 and T3 treatments elevated leaf tissue levels of N (4.76% and 5.03%), P (1.01% and 0.98%), and K (2.27% and 2.31%). These values were statistically comparable, accompanied by higher but non-significant P uptake (0.61 and 0.67 g pot-1) and K uptake (1.13 and 1.21 g pot-1) for the respective treatments. Further, higher nitrogen, phosphorus, and potassium use efficiency (49.4, 5.20, and 42.0%) were recorded in T3 followed by T2. Together with that significantly positive correlation between soil properties and pod yield was found which reflects the nutrient-supplying power of soil under organic amendments. Conclusion Consequently, it is suggested that the joint utilization of organic additives of any source and chemical fertilizer is necessary for increasing yield and nutrient use efficiency over sole chemical fertilizer application in calcareous soils.","PeriodicalId":516564,"journal":{"name":"BioSight","volume":"46 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-01-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Improving Pea Growth and Nutrient Efficiency in Calcareous Soils through the Synergy of Organic Amendments and Chemical Fertilizers\",\"authors\":\"Javed Anjum, Mustajab A. Khan, J. Babar, F. Ahmed, Meraj Domar, Muhammad Ejaz, T. Ziad, Rehan Fareed, Hidayatullah Kakar\",\"doi\":\"10.46568/bios.v5i1.165\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Introduction Soil fertility in Pakistan is hindered by insufficient and unstable organic matter, leading to stagnation and a decline in overall agricultural productivity. Methodology A pot study was conducted in 2018-19 comprised of four treatments including T1 = Recommended NPK fertilizer, T2 = NPK+FYM, T3 = NPK + Poultry manure, and T4 = NPK + Plant residue based on Complete Randomized Design (CRD) and was replicated thrice. Result The results exhibited significant differences in peas’ growth, yield, and nutrient use efficiency across the organic amendments. Among them, the higher plant height (70.63 cm), pod length (9.37 cm), and pod yield (158.63 g pot-1) was observed in T3 followed by T2. Regarding nutrient concentration and uptake, both T2 and T3 treatments elevated leaf tissue levels of N (4.76% and 5.03%), P (1.01% and 0.98%), and K (2.27% and 2.31%). These values were statistically comparable, accompanied by higher but non-significant P uptake (0.61 and 0.67 g pot-1) and K uptake (1.13 and 1.21 g pot-1) for the respective treatments. Further, higher nitrogen, phosphorus, and potassium use efficiency (49.4, 5.20, and 42.0%) were recorded in T3 followed by T2. Together with that significantly positive correlation between soil properties and pod yield was found which reflects the nutrient-supplying power of soil under organic amendments. 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引用次数: 0
摘要
引言 巴基斯坦的土壤肥力因有机质不足和不稳定而受到阻碍,导致停滞不前,整体农业生产力下降。方法 在完全随机设计(CRD)的基础上,于 2018-19 年进行了一项盆栽研究,包括四个处理,包括 T1 = 推荐氮磷钾肥料、T2 = 氮磷钾+FYM、T3 = 氮磷钾+家禽粪便和 T4 = 氮磷钾+植物残渣,并重复三次。结果 结果表明,不同有机添加剂对豌豆的生长、产量和养分利用效率有显著差异。其中,T3 的株高(70.63 厘米)、豆荚长度(9.37 厘米)和豆荚产量(158.63 克/盆-1)均高于 T2。在养分浓度和吸收方面,T2 和 T3 处理都提高了叶片组织中氮(4.76% 和 5.03%)、磷(1.01% 和 0.98%)和钾(2.27% 和 2.31%)的含量。这些数值在统计学上具有可比性,同时,各处理对 P 的吸收量(0.61 和 0.67 g pot-1)和 K 的吸收量(1.13 和 1.21 g pot-1)较高,但不显著。此外,T3 的氮、磷、钾利用率较高(49.4%、5.20% 和 42.0%),其次是 T2。此外,土壤特性与豆荚产量之间存在明显的正相关,这反映了有机添加剂下土壤的养分供应能力。结论 因此,有必要在石灰性土壤中联合使用任何来源的有机添加剂和化肥,以提高产量和养分利用效率,而不是只施用化肥。
Improving Pea Growth and Nutrient Efficiency in Calcareous Soils through the Synergy of Organic Amendments and Chemical Fertilizers
Introduction Soil fertility in Pakistan is hindered by insufficient and unstable organic matter, leading to stagnation and a decline in overall agricultural productivity. Methodology A pot study was conducted in 2018-19 comprised of four treatments including T1 = Recommended NPK fertilizer, T2 = NPK+FYM, T3 = NPK + Poultry manure, and T4 = NPK + Plant residue based on Complete Randomized Design (CRD) and was replicated thrice. Result The results exhibited significant differences in peas’ growth, yield, and nutrient use efficiency across the organic amendments. Among them, the higher plant height (70.63 cm), pod length (9.37 cm), and pod yield (158.63 g pot-1) was observed in T3 followed by T2. Regarding nutrient concentration and uptake, both T2 and T3 treatments elevated leaf tissue levels of N (4.76% and 5.03%), P (1.01% and 0.98%), and K (2.27% and 2.31%). These values were statistically comparable, accompanied by higher but non-significant P uptake (0.61 and 0.67 g pot-1) and K uptake (1.13 and 1.21 g pot-1) for the respective treatments. Further, higher nitrogen, phosphorus, and potassium use efficiency (49.4, 5.20, and 42.0%) were recorded in T3 followed by T2. Together with that significantly positive correlation between soil properties and pod yield was found which reflects the nutrient-supplying power of soil under organic amendments. Conclusion Consequently, it is suggested that the joint utilization of organic additives of any source and chemical fertilizer is necessary for increasing yield and nutrient use efficiency over sole chemical fertilizer application in calcareous soils.