改良黏质土壤性状及提高小麦产量的动植物残体堆肥研究

IF 1.9 Q3 SOIL SCIENCE EGYPTIAN JOURNAL OF SOIL SCIENCE Pub Date : 2022-08-14 DOI:10.21608/ejss.2022.154465.1524
M. Hussein, Mohamed Ali, Mohamed Abbas, M. Bassouny
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引用次数: 3

摘要

在埃及,小麦是一种战略作物。其本地消费量也相应不断增加;埃及已成为世界上最大的小麦进口国。提高小麦产量的可持续方法可能是通过有机添加剂。为此,从实验农场收集动物、鸡和植物残体,以制备(1)植物残体堆肥(PRC),通过将风干和切碎的稻秆和大豆秸秆按1:1的比例混合堆肥;(2)动物残体堆肥(ARC)通过将鸡粪和牛粪按1:1的比例混合堆肥。本研究的主要目的是比较用动物和植物残留物改良粘土对改善土壤物理和化学特性的影响。此外,本研究还考虑了这些添加剂对土壤肥力的影响,以及它们对小麦生长和生产力的影响。为了实现这一目标,采用了分块设计进行了实地调查,其中将两种类型的堆肥绘制在主地块上,而将堆肥的施用量(每公顷15和25毫克)绘制在副地块上。还包括未修改的对照图进行数据比较。所有地块均于2018年冬季种植小麦种子,并施用推荐剂量的氮磷钾肥料,以比较两种类型的堆肥作为调理剂而不是肥料。试验期160 d,直至成熟。所有堆肥都显著改善了土壤的物理特性(土壤容重、总孔隙度、饱和水力传导率和渗透阻力)和化学特性(土壤有机质和CEC),特别是随着施用频率的增加。在这方面,两种堆肥的结果具有可比性。此外,这些添加剂还提高了籽粒和秸秆产量、产量成分(穗长、穗重、颖花数/穗、百粒重)。此外,它们还以有效形态丰富了土壤中的N、P、K、Fe、Mn、Zn和Cu;从而提高了它们在小麦茎部和籽粒中的含量,ARC比PRC具有优势。这些部位的营养状况与茎部和籽粒产量呈极显著正相关。因此,有机添加剂,特别是动物残留物,应列入未来可持续增加小麦产量的途径。
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Composting Animal and Plant Residues for Improving the Characteristics of a Clayey Soil and Enhancing the Productivity of Wheat Plant Grown Thereon
W heat is a strategic crop in Egypt . Its local consumption is increasing continuously accordingly; Egypt has become the largest wheat importer worldwide. The sustainable approach for increasing wheat productivity is probably through organic additives. For this reason, animal, chicken and plant residues were collected from an experimental farm for preparation of (1 ) plant residue compost (PRC) via composting a mixture of air-dried and chopped rice and soybean straw at a rate of 1:1 and (2) animal residue compost (ARC) via composting a mixture of chicken and cattle manure at a rate of 1:1. The main aim of this study is to compare between the implications of amending a clayey soil with animal versus plant residues for improving soil physical and chemical characteristics. Also, this study considers the changes in soil fertility owing to these additives, hence their outcomes on wheat growth and productivity. To achieve this goal, a field investigation was conducted following a split-split design in which the two types of composts were plotted in main plots while the rates of compost application (15 and 25 Mg per hectare) were plotted in subplots. Non-amended control plots were also included for data comparison. All plots were cultivated with wheat seeds in winter 2018 and received the recommended doses of NPK fertilizers to compare between the two types of composts as conditioners not as fertilizers. The experiment lasted for 160 days until maturity. All composts improved considerably soil physical (soil bulk density, total porosity, saturated hydraulic conductivity and penetration resistance) and chemical (soil organic matter and CEC) characterises, especially with increasing their rate of application. In this concern, the results of the two types of composts were comparable. Also, these additives boosted grain and straw yields, yield components (spike length, spike weight, number of spikelets/ spike, 100-grain weight). Moreover, theyenriched soils with N, P, K, Fe, Mn, Zn and Cu in available forms; hence raised their contents within wheat shoots and grains, with superiority for ARC versus PRC. There were significant positive correlations between shoot and grain yields in relation to the nutritional status of these plant parts. Accordingly, organic additives, especially animal residues, should be included in the coming sustainable approaches for increasing wheat production.
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