坦桑尼亚选定水稻灌溉计划中受盐分影响土壤的评估:了解盐分类型以优化管理方法

IF 2.1 Q3 SOIL SCIENCE
Moh’d M. Omar, Boniface J. Massawe, M. Shitindi, Ole Pedersen, J. Meliyo, K. Fue
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引用次数: 0

摘要

受盐分影响的土壤会严重影响农业用地的质量和生产力,导致可用于粮食生产的净耕地面积减少。这一问题已成为近年来全球面临的首要挑战之一,对粮食安全和环境可持续性都产生了影响。本研究侧重于在三个灌溉计划中进行土壤特性分析,以了解受盐影响土壤的类型、分布和性质。在这项研究中,土壤单位划分的基本方法是螺旋钻观测。对深度超过 160 厘米的 12 个代表性土壤坑进行了描述,并收集了未扰动和扰动样本,对其物理和化学特性进行了分析。这些方案的特点是可利用磷、有机碳和总氮含量较低,可交换碱也有变化。此外,37.5% 的分析地层突出显示了受盐影响土壤的存在。钠是最主要的阳离子,其次是镁、钾和钙。同样,HCO3- 是最主要的阴离子,其次是 Cl- 和 SO42-。研究结果表明,受盐分影响的土壤有两种类型。乌图罗灌溉计划的土壤为钠盐土壤,而恩敦古灌溉计划的土壤为盐碱钠土壤。此外,在马瓦拉(Mawala)灌溉计划中也发现了钠化土壤和盐碱化土壤。造成这一挑战的根本原因是固有的土壤条件,而排水基础设施的不足又加剧了这一问题。因此,建议采取以下措施来减轻盐胁迫和提高土壤肥力:先施用石膏,然后进行盐浸出;通过加入有机物改善土壤排水;改善排水基础设施;以及使用耐水稻品种。当务之急是建立一个强有力的框架,对土壤健康状况进行持续监测和定期评估,以便为可持续农业管理提供及时干预和知情决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of salt-affected soil in selected rice irrigation schemes in Tanzania: understanding salt types for optimizing management approaches
Salt-affected soils have serious implications for agricultural land quality and productivity, leading to a reduction in the net cultivable area available for food production. This issue has emerged as one of the foremost global challenges in recent years, impacting both food security and environmental sustainability. This research focuses on soil characterizations conducted in three irrigation schemes to understand the types, distribution, and nature of salt-affected soils. Auger observations served as the basic methodology for soil unit delineation in this study. Twelve representative soil pits with a depth of more than 160 cm were described, and undisturbed and disturbed samples were collected and analyzed for physical and chemical properties. The schemes were characterized by low levels of available phosphorus, organic carbon, and total nitrogen, as well as variations in exchangeable bases. Furthermore, 37.5% of the analyzed horizons highlighted the presence of salt-affected soils. Sodium was the predominant cation, followed by magnesium, potassium, and calcium. Likewise, HCO3− was the dominant anion, followed by Cl− and SO42−. The results of this study reveal the existence of two types of salt-affected soil. Uturo irrigation scheme had sodic soils, while the Ndungu irrigation scheme had saline-sodic soils. Additionally, both sodic and saline-sodic soils have been discovered in the Mawala irrigation scheme. The root cause of this challenge is inherent soil conditions, exacerbated by inadequate drainage infrastructure. Therefore, measures such as the application of gypsum followed by salt leaching, improving soil drainage by incorporating organic matter, improving drainage infrastructure, and using rice-tolerant varieties are recommended to mitigate salt stress and improve soil fertility. It is imperative to establish a robust framework for continuous monitoring and regular assessment of soil health to enable timely interventions and informed decisions for sustainable agricultural management.
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