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识别和评估热带沿海地区的耐盐盐生植物:生长响应和脱盐潜力

Identifying and Evaluating Salt-Tolerant Halophytes Along a Tropical Coastal Zone: Growth Response and Desalination Potential.

作者信息

Sanleri Kwabena A, Kumi Francis, Amoah Kwadwo K, Amamu Solomon, Luketina Igor, Adu Michael O

机构信息

Department of Crop Science School of Agriculture, College of Agriculture and Natural Sciences, University of Cape Coast Cape Coast Ghana.

Department of Agricultural Engineering School of Sustainable Engineering, College of Agriculture and Natural Sciences, University of Cape Coast Cape Coast Ghana.

出版信息

Plant Environ Interact. 2025 Jul 15;6(4):e70072. doi: 10.1002/pei3.70072. eCollection 2025 Aug.

DOI:10.1002/pei3.70072
PMID:40672803
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12264084/
Abstract

Littoral soils along Ghana's coastal zones, hosting diverse halophytes with multiple potential applications, contain significant salt content due to seawater influence. This study identified and explored the nutritional, ecological, and medicinal significance of these halophytes, focusing on their salt tolerance and desalination abilities. Deep learning image recognition was employed to identify plant species, followed by a greenhouse experiment on five selected halophytes ( and ) to assess their response to varying salt concentrations (0, 25, and 50 dS/m) and soil types (sea sand and arable soil). High salt concentrations (50 dS/m) generally reduced plant growth rates and biomass accumulation while increasing soil electrical conductivity (EC), total dissolved solids (TDS), and pH. Arable soil improved halophyte Relative Growth Rate (RGR) and performance index (PI) by 5% and 52%, respectively, compared to sea sand. exhibited enhanced PI at elevated salinity and demonstrated superior salt ion accumulation in roots and leaves at 50 dS/m. Both and maintained the highest shoot and root dry weights under increased salinity, whereas significantly reduced soil EC, pH, Na, and Cl ion contents compared to other species. reduced several soil salinity indicators significantly compared to other species, highlighting its potential for addressing soil and water salinity issues in affected environments. This study shows the potential of Ghana's halophytes in addressing soil salinity-related challenges.

摘要

加纳沿海地区的滨海土壤受海水影响盐分含量高,生长着多种具有多种潜在用途的盐生植物。本研究确定并探讨了这些盐生植物的营养、生态和药用价值,重点关注它们的耐盐性和脱盐能力。利用深度学习图像识别技术识别植物物种,随后对五种选定的盐生植物(和)进行温室试验,以评估它们对不同盐浓度(0、25和50 dS/m)和土壤类型(海沙和耕地土壤)的反应。高盐浓度(50 dS/m)通常会降低植物生长速率和生物量积累,同时增加土壤电导率(EC)、总溶解固体(TDS)和pH值。与海沙相比,耕地土壤使盐生植物的相对生长速率(RGR)和性能指数(PI)分别提高了5%和52%。在盐度升高时表现出增强的PI,并在50 dS/m时在根和叶中表现出更高的盐离子积累。在盐度增加的情况下,和都保持了最高的地上部和根部干重,而与其他物种相比,显著降低了土壤EC、pH值、Na和Cl离子含量。与其他物种相比,显著降低了几个土壤盐度指标,突出了其在解决受影响环境中的土壤和水盐度问题方面的潜力。这项研究显示了加纳盐生植物在应对与土壤盐度相关挑战方面的潜力。

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