The spatial variability of physicochemical parameters of mangrove soil and mangrove species in Negombo Lagoon, Sri Lanka

Q1 Environmental Science
W.S.B. Wickramasingha, V.P.A. Weerasinghe
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引用次数: 0

Abstract

Mangrove forests are unique and invaluable ecosystems due to their role in biodiversity, coastal protection, and carbon sequestration. This study examined spatial variability of selected physicochemical parameters of mangrove soil and species distribution at the Negombo lagoon. Eighteen sampling sites were selected based on judgmental sampling techniques. A 10 m x 10 m area was selected within the 1 km x 1 km grid to get the replicate soil samples from 0 − 15, 15–30 and 30–45 cm depths from the surface. Further, a vegetation survey was conducted to identify mangrove species in the same 10 m x 10 m area. Soil temperature, pH, salinity, and soil organic matter (OM) were analyzed using standard laboratory methods. Results show that temperature varied spatially from 25.2 °C to 30.0 °C, with the highest temperature recorded in the topsoil layer. Soil pH and salinity spatially varied from 5.39 to 8.31 and 0.56 % to 8.83 %, respectively. Soil organic matter spatially varied from 2.56 % to 15.7 % and increased with the increasing depth. Soils with high salinity tend to reduce OM by accelerating the mineralization of OM. Correlation analysis showed a positive relationship between salinity and OM (r = 0.57; P < 0.05). Rhizophora apiculata, Rhizophora mucronate and Avicennia marina were associated more in soils with high salinity (3.72 % − 7.15 %) and neutral to weakly alkaline pH. Bruguiera gymnorrhiza was more prevalent in soils with higher salinity (7.69 % − 8.83 %) and lower pH, while Lumnitzera racemosa was found in acidic to slightly alkaline pH but with low salinity (1.35 % − 1.92 %) soils. Sonneratia caseolaris was recorded in soils with the lowest salinity (0.83 % − 1.04 %). The findings offer valuable insights for decision-making processes for conserving and restoring mangrove forests, providing effective and sustainable environmental management strategies.

Abstract Image

斯里兰卡尼甘布泻湖红树林土壤和红树林物种理化参数的空间变异性
红树林因其在生物多样性、海岸保护和碳封存方面的作用而成为独特而宝贵的生态系统。本研究考察了尼甘布泻湖红树林土壤的部分理化参数的空间变异性和物种分布情况。根据判断取样技术选择了 18 个取样点。在 1 千米 x 1 千米的网格内选择了 10 米 x 10 米的区域,分别从距离地表 0 - 15 厘米、15-30 厘米和 30-45 厘米的深度采集重复的土壤样本。此外,还进行了植被调查,以确定同一 10 米 x 10 米区域内的红树林物种。采用标准实验室方法分析了土壤温度、pH 值、盐度和土壤有机质 (OM)。结果表明,温度在 25.2 °C 至 30.0 °C 的空间范围内变化,表土层温度最高。土壤 pH 值和盐度的空间变化范围分别为 5.39 至 8.31 和 0.56 % 至 8.83 %。土壤有机质在空间上从 2.56 % 到 15.7 % 不等,并随着深度的增加而增加。高盐度土壤往往会通过加速 OM 矿化来减少 OM。相关分析表明,盐度与 OM 呈正相关(r = 0.57;P < 0.05)。在盐度较高(3.72 % - 7.15 %)、pH 值为中性至弱碱性的土壤中,Rhizophora apiculata、Rhizophora mucronate 和 Avicennia marina 的相关性较高。Bruguiera gymnorrhiza 在盐度较高(7.69 % - 8.83 %)和 pH 值较低的土壤中更为常见,而 Lumnitzera racemosa 则出现在 pH 值为酸性至微碱性但盐度较低(1.35 % - 1.92 %)的土壤中。在盐度最低(0.83 % - 1.04 %)的土壤中记录到 Sonneratia caseolaris。这些发现为保护和恢复红树林的决策过程提供了宝贵的见解,提供了有效和可持续的环境管理策略。
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来源期刊
Environmental Nanotechnology, Monitoring and Management
Environmental Nanotechnology, Monitoring and Management Environmental Science-Water Science and Technology
CiteScore
13.00
自引率
0.00%
发文量
132
审稿时长
48 days
期刊介绍: Environmental Nanotechnology, Monitoring and Management is a journal devoted to the publication of peer reviewed original research on environmental nanotechnologies, monitoring studies and management for water, soil , waste and human health samples. Critical review articles, short communications and scientific policy briefs are also welcome. The journal will include all environmental matrices except air. Nanomaterials were suggested as efficient cost-effective and environmental friendly alternative to existing treatment materials, from the standpoints of both resource conservation and environmental remediation. The journal aims to receive papers in the field of nanotechnology covering; Developments of new nanosorbents for: •Groundwater, drinking water and wastewater treatment •Remediation of contaminated sites •Assessment of novel nanotechnologies including sustainability and life cycle implications Monitoring and Management papers should cover the fields of: •Novel analytical methods applied to environmental and health samples •Fate and transport of pollutants in the environment •Case studies covering environmental monitoring and public health •Water and soil prevention and legislation •Industrial and hazardous waste- legislation, characterisation, management practices, minimization, treatment and disposal •Environmental management and remediation
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