孟加拉国努阿卡利偏远地区 Hatiya Upazila 的土壤盐分对土壤化学性质的影响

IF 1.7 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Journal of Coastal Conservation Pub Date : 2024-07-09 DOI:10.1007/s11852-024-01064-z
Sujit Kumar Roy, Trisna Das, Tanuja Barua, Md. Arif Chowdhury, Swapan Talukdar, Javed Mallick, Atiqur Rahman, Naif Mana Almakayeel
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引用次数: 0

摘要

土壤盐碱化影响了土壤质量和其他植物必需的养分,降低了诺阿卡利沿海地区 Hatiya 乡(乡是孟加拉国第二低级行政区)的生产力和土壤肥力,该地区是孟加拉国土壤盐碱化的易发区。本研究确定了 Hatiya 乡的土壤盐碱化水平、作物生产现状以及相关的土壤盐碱化水平。本研究旨在评估土壤盐分对土壤养分和其他土壤特性的影响。为了开展这项研究,我们从 26 个村庄随机采集了 78 个土壤样本,每个采样点重复采集 3 个样本,并对土壤样本的 9 项化学特征进行了评估。我们使用 ArcGIS 软件(10.8 版)环境中的反距离加权(IDW)插值技术绘制了土壤盐分和其他土壤特性图。此外,我们还使用了皮尔逊相关系数和线性回归模型来评估土壤盐分对土壤化学性质的影响。结果显示,38% 的研究区域存在轻度盐碱化,8% 的研究区域受到中度盐碱化的影响。此外,约 4% 的研究区域受到高盐度的影响。当土壤盐度高而磷、全氮、有机质和碳含量低时,则出现相反的关系。根据统计分析,土壤盐分(EC)与 Na 和 K 密切相关(r = 0.422)。土壤盐分(EC)对有机质、TN、P 和 OC 有负面影响。pH 值或硫含量(EC 值)对土壤盐分没有影响。在 OCs 中,OM 和 TN 之间的关系有利且密切。这些研究结果将有益于公共和私营部门的许多利益相关者以及地方领导采取适当行动,减少土壤盐分对农业生产的影响。
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The impact of soil salinity on the chemical properties of soil at Hatiya Upazila, a remote area of Noakhali, Bangladesh

Soil salinity influences soil quality and other essential plant nutrients, reducing productivity and soil fertility in the Hatiya Upazila (Upazila is the second lowest tier of regional administration in Bangladesh), a coastal district of Noakhali, which is the soil saline vulnerable region of Bangladesh. This study determined the area’s soil salinity level, current crop production condition, and related soil salinity level of Hatiya Upazila. This research aimed to evaluate the effect of soil salinity on soil nutrients and other soil characteristics. To conduct this study, we randomly collected 78 soil samples from the 26 villages with three replicable samples from each sampling location and nine chemical characteristics of the soil samples evaluated. We mapped the soil salinity and other soil properties using the inverse distance weighting (IDW) interpolation techniques in ArcGIS software (version 10.8) environment. Also, we used Pearson’s correlation coefficient and linear regression models to evaluate the impact of soil salinity on the chemical properties of the soil. Results show that 38% of the study area has mild salinity, while 8% of the study area is affected by moderate salinity. In addition, around 4% of the study area is affected by high salinity. The reverse relation occurs when soil salinity is high and phosphorus, total nitrogen, organic matter, and carbon levels are low. According to statistical analysis, soil salinity (EC) is closely related to Na and K (r = 0.422). Soil salinity (EC) negatively affects OM, TN, P, and OC. The pH or sulphur content (EC) had no effect on the salinity of the soil. Among OCs, OM and TN have a favourable and strong relationship among themselves. These findings will benefit many stakeholders from the public and private sectors and local leaders in taking appropriate action to decrease the impact of soil salinity on agricultural production.

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来源期刊
Journal of Coastal Conservation
Journal of Coastal Conservation ENVIRONMENTAL SCIENCES-MARINE & FRESHWATER BIOLOGY
CiteScore
3.60
自引率
4.80%
发文量
55
期刊介绍: The Journal of Coastal Conservation is a scientific journal for the dissemination of both theoretical and applied research on integrated and sustainable management of the terrestrial, coastal and marine environmental interface. A thorough understanding of both the physical and the human sciences is important to the study of the spatial patterns and processes observed in terrestrial, coastal and marine systems set in the context of past, present and future social and economic developments. This includes multidisciplinary and integrated knowledge and understanding of: physical geography, coastal geomorphology, sediment dynamics, hydrodynamics, soil science, hydrology, plant and animal ecology, vegetation science, biogeography, landscape ecology, recreation and tourism studies, urban and human ecology, coastal engineering and spatial planning, coastal zone management, and marine resource management.
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