Soil microbial and enzymatic responses to various sources of potassium in fodder maize and sugargraze

Annals of Plant and Soil Research Pub Date : 2022-02-01 DOI:10.47815/apsr.2021.10144

Khadeejah Rana

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Abstract

The field experiment was conducted during Kharif season of 2018 at NDRI, Karnal to study the influence of various sources of potassium on soil microbial population, enzymatic activities and yield of fodder crops. The experiment was laid out in the split-plot design with 16 treatment combinations and replicated thrice. In the main plot treatment, two fodder crops, viz., maize (Zea mays) and sugargraze (Sorghum bicolor L. × Sweet sorghum × Sorghum sudanese L.), were included while potassium treatments were executed under subplot treatment. The results revealed that, application of K50 + KSB + 2% KNO3 had a significant influence on biomass production and 30.3 and 22.4% green and dry fodder yield, enhancement was recorded over control. Soil microbial biomass carbon (MBC) was not significantly affected by fodder maize and sugargraze crops at 30 DAS and harvest. However, potassium application had significant influence on soil MBC and a higher values (167 and 185 µg/g dry soil) were recorded with K25 + KSB + 2% KNO3 treatment at 30 DAS and harvest over control, respectively. The soil enzymatic activities dehydrogenase (17.4 and 21.9 µg TPF/g soil/day) and phosphatase (55.4 and 72.8 µg PNP/g soil/hr.) and microbial population counts viz., bacteria (17.12 × 106 and 27.45 × 106 CFU/g soil), actinomycetes (28.2 × 105 and 36.2 × 105 CFU/g soil) and fungi (12.8 × 105 and 18.3 × 105 CFU/g soil) were also remarkably influenced with potassium treatments and found significantly higher at 30 DAS and harvest respectively over control under application of K25 + KSB + 2%.

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饲用玉米和食糖牧草对不同钾源的土壤微生物和酶反应

为研究不同钾源对饲料作物土壤微生物数量、酶活性和产量的影响，于2018年秋冬季节在印度卡纳尔国家农业研究所进行了田间试验。试验采用裂区设计，16个处理组合，重复3次。在主小区处理中，采用玉米(Zea mays)和糖草(双色高粱×甜高粱×苏丹高粱)两种饲料作物，在分小区处理中进行钾处理。结果表明，施用K50 + KSB + 2% KNO3对青饲料产量和干饲料产量有显著影响，增产幅度分别为30.3%和22.4%。饲用玉米和食糖作物对土壤微生物生物量碳(MBC)的影响不显著。然而，施用钾对土壤MBC有显著影响，30 DAS时K25 + KSB + 2% KNO3处理的MBC值较高，分别为167和185µg/g干土。土壤脱氢酶酶活动(17.4和21.9µg锥度英尺/ g土壤/天)和磷酸酶(55.4和72.8µg / g的PNP晶体管土壤/ hr。)和微生物种群数量,即细菌(17.12×106和27.45×106 CFU / g土壤),放线菌(28.2×105和36.2×105 CFU / g土壤)和真菌(12.8×105和18.3×105 CFU / g土壤)也显著影响钾治疗和发现明显高于分别为30 DAS和收获的控制权在应用K25 + KSB + 2%。

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Annals of Plant and Soil Research

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