Chemical Composition of Lignitic Humic Acid and Evaluating its Positive impacts on Nutrient Uptake, Growth and Yield of Maize

Pakistan Journal of Chemistry Pub Date : 2014-03-28 DOI:10.15228/2014.V04.I01.P04

M. Z. Khan, M. Akhtar, S. Ahmad, A. Khan, R. Khan

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引用次数: 9

Abstract

Lignite derived humic acid (HA), obtained from Thar coal mines were extracted by 0.5 N KOH; characterized and used to evaluate its impact on maize yield and soil health. Having highest HA recovery (20%) black coal derived HA were applied in different level [(@ no HA (HA0), 25 (HA1) and 50 (HA2) mg kg -1 soil)] in conjoint with different nitrogen (N) levels [no N application (N0) (150 (N1) and 300 (N2) mg kg -1 ]. Results showed that plant fresh biomass increased by 23% and 44% with application of HA at HA1 and HA2 respectively, about 23% increase was observed in dry plant biomass at both the HA levels. Cob weight and grain weight increased significantly (29% and 40%) with HA at 25 and 50 mg kg -1 respectively vis as vis control (no HA applied), with N at 150 and 300 mg kg -1 the increase was 51% and 103%. The grain weight increased by 12% and 41% with HA1 and HA2 whereas, 31 % and 43 % with N application (N1 and N2 over the control). The HA application increased plant N contents by 20% and 26 %, P by 14% and 20% and K by 15% and 10% in HA1 and in HA2, respectively. Nutrient uptake also enhanced with both N and HA application. From the results it can be concluded that HA application along with N help improved growth, yield and nutrient uptake by maize.

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木质素腐植酸的化学组成及其对玉米养分吸收、生长和产量的积极影响

以Thar煤矿为原料，用0.5 N KOH萃取褐煤衍生腐植酸(HA);鉴定并评价其对玉米产量和土壤健康的影响。在不同水平(无HA (HA0)、25 (HA1)和50 (HA2) mg kg -1土壤)下施用黑煤衍生HA，具有最高的HA回收率(20%)，同时施用不同水平的氮(N)[无N (N0) (150 (N1)和300 (N2) mg kg -1]。结果表明，在HA1和HA2水平下，施用HA可使植物鲜生物量分别增加23%和44%，在两种HA水平下，干生物量均增加约23%。施用25和50 mg kg -1的磷素显著提高了穗轴重和粒重(29%和40%)，施用150和300 mg kg -1的磷素显著提高了51%和103%。HA1和HA2处理的粒重分别比对照提高12%和41%，而N (N1和N2)处理的粒重分别比对照提高31%和43%。在HA1和HA2中，施用HA分别使植株氮含量提高20%和26%，磷含量提高14%和20%，钾含量提高15%和10%。施氮和施用HA均能提高养分吸收。综上所述，磷肥配施有助于提高玉米的生长、产量和养分吸收。

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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Pakistan Journal of Chemistry

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