生物固体在大麦生产中的应用

Journal of Residuals Science & Technology Pub Date : 2016-01-01 DOI:10.12783/ISSN.1544-8053/13/2/9

A. Tamimi, B. Athamneh, C. Gerba, W. Suleiman

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引用次数: 1

摘要

在旱作大麦土壤中施用不同负荷率的生物固体，研究施用生物固体对土壤和大麦秸秆及籽粒产量的影响。采用随机完全区组试验设计，共5个处理。这包括一个对照和四个重复来检验零假设，零假设表明，在作物和土壤参数的处理方式与研究假设之间没有显著差异，研究假设表明，在种植雨养大麦的土地上施用生物固体会影响土壤和作物参数。生物固体负荷率分别为0、2、4、6和8公吨/公顷。试验场地土壤的底土粘土含量较高，地表粘土含量相对较低，可能是风蚀所致。土壤微钙化，石灰含量随深度增加而增加，呈微碱性。土壤有机质和磷含量较低，颜色从红棕色到黄褐色不等。在收获期，不同生物固体负荷速率对籽粒产量无显著影响，p值为0.52。在生物固体负荷量为0、2、4、6和8吨/公顷时，平均粮食产量分别为2.86、3.37、3.4、3.57和3.20吨/公顷。在推荐的无机肥料用量为磷酸二铵和尿素的情况下，平均产量为3.00，传统上分别施用90公斤/公顷和20公斤/公顷，产量高于0生物固体负荷率。然而，它比所有其他生物固体的装载率都要低。结果表明，在雨养大麦土壤中施用生物固形物可显著提高秸秆产量和秸秆蛋白质含量。籽粒产量和籽粒蛋白质含量没有显著增加。还确定，随着生物固体加载率的增加，千粒重出现统计学上显著的下降，p值< 0.000001。这对大麦的籽粒品质有负面影响。在生物固体处理的地块中，作物或土壤中的重金属没有显著增加。土壤有机碳、总凯氏定氮和总盐浓度随生物固体负荷率的增加而增加。本研究检验的原假设表明，与不施用生物固体和施用无机肥料相比，在雨养大麦的土壤中施用生物固体对作物有积极影响，对土壤没有影响。

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Biosolids Application for Barley Production

Biosolids with different loading rates were applied to soil planted with rainfedbarley to study the effects of applying biosolids on soil and on barley’s straws andgrains yield. Randomized Complete Block experimental design was employed with 5treatments. This included a control and four replicates to test the null hypothesis whichstates that there is no significant difference between treatment means on crop and soilparameters vs. the research hypothesis which states applying biosolids to land plantedwith rain-fed barley affects both soil and crop parameters. Biosolids loading rates were0 as a control, 2, 4, 6, and 8 metric tons/ha. Soil at the testing site had a high clay content in the sub-soil and relatively lower claycontent on the surface, probably due to wind erosion. The soil was slightly calcareouswith lime content increasing with depth and with a slight alkalinity. Organic matter andphosphorus contents of soil were low with colors that varied from reddish brown to yellowishbrown. At harvesting time, there was no significant differences in grain yields at different biosolidsloading rates with a p-value of 0.52. Average grain yields of 2.86, 3.37, 3.4, 3.57,and 3.20 tons/ha were measured at biosolids loading rates of 0, 2, 4, 6, and 8 tons/ha,respectively. Average grain yield of 3.00 for a recommended inorganic fertilizer rate of diammoniumphosphate and Urea traditionally applied at rates of 90 kg/ha and 20 kg/ha,respectively, showed a yield higher than the 0 biosolids loading rate. However, it waslower than all other biosolids loading rates. It was determined that applying biosolids to soils planted with rain-fed barley significantlyincreased straw yield and straw protein content. No significant increase in grainyield or in grain protein content was measured. It was also determined that a statisticalsignificant decrease in the thousand grain weight occurs as biosolids loading rates increasedwith a p-value < 0.000001. This has negative effects on barley’s grain quality.No significant increase in heavy metals in the crop or the soil was observed in thebiosolids treated plots. However, increases in soil organic carbon, total Kjeldahl nitrogenand salt concentrations were increased with increasing biosolids loading rates. The null hypothesis tested in this study showed that applying biosolids to soils plantedwith rain-fed barley had positive effects on the crop with no effects on the soil in comparisonwith no application of biosolids and the application of inorganic fertilizer.

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来源期刊

Journal of Residuals Science & Technology 环境科学-工程：环境

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： The international Journal of Residuals Science & Technology (JRST) is a blind-refereed quarterly devoted to conscientious analysis and commentary regarding significant environmental sciences-oriented research and technical management of residuals in the environment. The journal provides a forum for scientific investigations addressing contamination within environmental media of air, water, soil, and biota and also offers studies exploring source, fate, transport, and ecological effects of environmental contamination.