生物炭与化肥互施对土豆泥土壤养分(NPK)、土壤保水和生物固氮的影响

Sangar Khan, R. Hayat, M. Farooq, Q. Hussain, Noshen Arab Ali
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引用次数: 1

摘要

土壤肥力丧失、土壤生产力下降和水资源短缺是巴基斯坦雨养地区的主要限制因素。在低肥力和退化土壤上施用生物炭可提高土壤肥力、养分吸收和保水能力,从而提高土壤生产力。通过田间试验研究了生物炭对土豆泥(Vigna mungo)生物固氮的影响。L)、土壤养分有效性和土壤保水能力。生物炭按0、0.25和0.5 t hm -1施用,同时施用和不施用化肥(20、50、50 kg hm -1 NPK),共4个重复。作物成熟后收获,各试验田在播种前和收获后采集土壤样品,分析土壤ECe、pH、全氮、全磷、全钾、土壤入渗速率、土壤团聚体稳定性、土壤保水力和阳离子交换容量(CEC)。采用木质部液法测定生物固氮作用,在荚果灌浆阶段提取木质部液。生物炭@ 0.5 t hm -1+化肥(NPK分别为20、50、50 kg hm -1)处理的土壤pH值最高(7.78),土壤电导率最高(0.67 ds m-1)。在土壤中施用生物炭和化肥(0.5 t hm -1+NPK 20、50、50 kg hm -1),总氮从3.9 mg kg-1增加到18 mg kg-1,磷从4 mg kg-1增加到18.5 mg kg-1,钾从98 mg kg-1增加到143 mg kg-1,土壤CEC从6.6 Cmolc kg-1增加到11.2 Cmolc kg-1。0.5 t hm -1的生物炭稳定了土壤团聚体(34%),提高了土壤入渗速率(164 mm h-1),而不影响任何显著的土壤保水效果。生物炭与化肥(NPK分别为20、50、50 kg ha-1)配施0.5 t ha-1,最大限度地提高了BNF (24 kg N -1)、生物量产量(2.7 t ha-1)和籽粒产量(1.8 t ha-1)。研究表明,生物炭(0.5 t hm -1)与化肥配合施用可提高氮磷钾(NPK)、土壤pH和ECe的有效性,而单独施用生物炭(0.5 t hm -1)可促进土壤团聚和入渗速率。土豆泥的生物量、籽粒产量和生物量均显著增加(分别为40%、77%和64%)。建议生物炭与化肥配合施用可提高土豆泥土壤生产力和生物固氮。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interactive Use of Biochar and Chemical Fertilizer on Soil Nutrients (NPK), Soil Water Retention and Biological Nitrogen Fixation by Mash Bean
Loss of soil fertility, reduction in soil productivity and water scarcity is the major limitation of rain fed area of Pakistan. Applications of biochar on low fertile and degraded soil enhance soil fertility, nutrients uptake and water retention thus improves soil productivity. Field study was conducted to examine the effect of biochar on biological nitrogen fixation (BNF) by mash bean (Vigna mungo. L), soil nutrients availability and soil water retention. Biochar was applied at 0, 0.25 and 0.5 t ha-1 along with and without chemical fertilizer (20, 50, 50 kg ha-1 NPK) with four replications. Crop was harvested at maturity and soil samples were collected from each experimental plot before sowing and after harvesting and was analyzed for soil ECe, soil pH, total nitrogen, phosphorus, potassium, soil infiltration rate, soil aggregate stability, soil water retention and cation exchange capacity (CEC). Biological nitrogen fixation was determined by xylem-sap method and xylem sap was extracted at pod filling stage. Soil treated with biochar @ 0.5 t ha-1+chemical fertilizer (NPK 20, 50, 50 kg ha-1 respectively) showed maximum pH (7.78) and soil electrical conductivity (0.67 ds m-1). Application of biochar and chemical fertilizer to soil (0.5 t ha-1+NPK 20,50,50 kg ha-1) increases total N from 3.9 mg kg-1 to 18 mg kg-1, Phosphorus from 4 mg kg-1 to 18.5 mg kg-1, potassium from 98 mg kg-1 to 143 mg kg-1 and soil CEC from 6.6 Cmolc kg-1 to 11.2 Cmolc kg-1. Biochar @ 0.5 t ha-1 stabilized soil aggregates (34%) and improves soil infiltration rates (164 mm h-1) without impacting any significant effect on soil water retention. Biochar applied @ 0.5 t ha-1 along with chemical fertilizer (NPK 20, 50, 50 kg ha-1 respectively) showed maximum increase in BNF (24 kg N ha-1), biomass yield (2.7 t ha-1) and grain yield (1.8 t ha-1). The study concluded that biochar application (0.5 t ha-1) along with chemical fertilizer increase availability of nutrients (NPK), soil pH and ECe where as sole application of biochar (0.5 t ha-1) promoted aggregation and infiltration rate. The significant increase was observed in case of BNF (40%), grain yield (77%) and biomass yield (64%) of mash bean. It is recommended that biochar application to soil along with chemical fertilizer improve soil productivity and BNF by mash bean.
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