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Hauptverfasser: Yang, Jia, Wu, Yunchao, Shang, Bowen, Li, Jinglong, Li, Pengju, Zhang, Ling, Jiang, Zhijian, Liu, Songlin, Huang, Xiaoping, He, Ding
Format: Artículo científico
Sprache:en
Veröffentlicht: Journal of environmental management 2025
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Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/40398278/
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author Yang, Jia
Wu, Yunchao
Shang, Bowen
Li, Jinglong
Li, Pengju
Zhang, Ling
Jiang, Zhijian
Liu, Songlin
Huang, Xiaoping
He, Ding
author_facet Yang, Jia
Wu, Yunchao
Shang, Bowen
Li, Jinglong
Li, Pengju
Zhang, Ling
Jiang, Zhijian
Liu, Songlin
Huang, Xiaoping
He, Ding
Yang, Jia
Wu, Yunchao
Shang, Bowen
Li, Jinglong
Li, Pengju
Zhang, Ling
Jiang, Zhijian
Liu, Songlin
Huang, Xiaoping
He, Ding
collection PubMed - marine biology
contents Intensified human activities shape the dynamics of sediment organic matter in a highly-disturbed estuary. Yang, Jia Wu, Yunchao Shang, Bowen Li, Jinglong Li, Pengju Zhang, Ling Jiang, Zhijian Liu, Songlin Huang, Xiaoping He, Ding Estuaries Geologic Sediments Humans Nitrogen Human Activities Carbon Rivers Environmental Monitoring Seawater Human activities have significantly altered organic matter dynamics in marine sediments. However, the long-term consequences of these alterations on organic matter within estuarine environments remain ambiguous. This study examines the sustained sediment organic matter (SeOM) dynamics in the anthropogenically disturbed Pearl River Estuary (PRE) spanning terrestrial (T), fresh-seawater mixing (M), and marine (S) zones, with an emphasis on the effects of human activities. Sediment cores (Pb) were utilized to analyze physicochemical parameters, including total organic carbon (TOC), total nitrogen (TN), isotopic compositions (δC and δN), and fluorescence signatures of sediment dissolved organic matter, which includes humic-like components (C1, C2, and C3) and protein-like components (C4, C5, and C6). The results reveal that within the T zone, total organic carbon (TOC: 0.79∼1.22 %), total nitrogen (TN: 0.081∼0.123 %), and δN values (4.03∼6.60 ‰) exhibited an increasing trend, while δC values (-24.89 ∼ -24.57 ‰), C1 content (28.97∼32.64 %), and humification index (HIX: 0.60∼0.83) displayed a decreasing trend. These patterns collectively indicate a decline in terrestrial organic matter inputs and a concurrent rise in contributions from anthropogenic sources, such as domestic wastewater discharge. In the M zone, TOC content (0.67∼1.14 %) and TN content (0.07∼0.10 %) exhibited a decrease trend; however, the gradual reduction in the C/N ratio (9.94∼12.38) implies a slower decline in TN relative to organic carbon. Furthermore, C1 content (20.43∼28.69 %), C6 content (0.42∼30.35 %), and HIX value (0.51∼0.78 %) diminished after 1980, indicating a decrease in terrestrial sources and a substantial increase in anthropogenic influence. In the S zone, the C/N ratio (7.71∼8.77) remained relatively stable prior to 1980; however, a significant decline in terrestrial inputs was noted after 1980, particularly following 2000. Human-induced terrestrial alterations and domestic discharge have a substantial impact on the preservation of SeOM within the PRE, particularly in the T and M zones. The increase in Fe (III) within the T zone significantly enhances the content of SeOM; however, intensified anthropogenic activities compromise its preservation capacity. This study offers critical insights into the dynamics of SeOM within a significantly disturbed estuary over the past four decades, underscoring the potential effects of intensified human activities on the preservation of SeOM in estuarine ecosystems.
format Artículo científico
id pubmed_40398278
institution PubMed
language en
publishDate 2025
publisher Journal of environmental management
record_format pubmed
spellingShingle Intensified human activities shape the dynamics of sediment organic matter in a highly-disturbed estuary.
Yang, Jia
Wu, Yunchao
Shang, Bowen
Li, Jinglong
Li, Pengju
Zhang, Ling
Jiang, Zhijian
Liu, Songlin
Huang, Xiaoping
He, Ding
Estuaries
Geologic Sediments
Humans
Nitrogen
Human Activities
Carbon
Rivers
Environmental Monitoring
Seawater
Intensified human activities shape the dynamics of sediment organic matter in a highly-disturbed estuary. Yang, Jia Wu, Yunchao Shang, Bowen Li, Jinglong Li, Pengju Zhang, Ling Jiang, Zhijian Liu, Songlin Huang, Xiaoping He, Ding Estuaries Geologic Sediments Humans Nitrogen Human Activities Carbon Rivers Environmental Monitoring Seawater Human activities have significantly altered organic matter dynamics in marine sediments. However, the long-term consequences of these alterations on organic matter within estuarine environments remain ambiguous. This study examines the sustained sediment organic matter (SeOM) dynamics in the anthropogenically disturbed Pearl River Estuary (PRE) spanning terrestrial (T), fresh-seawater mixing (M), and marine (S) zones, with an emphasis on the effects of human activities. Sediment cores (Pb) were utilized to analyze physicochemical parameters, including total organic carbon (TOC), total nitrogen (TN), isotopic compositions (δC and δN), and fluorescence signatures of sediment dissolved organic matter, which includes humic-like components (C1, C2, and C3) and protein-like components (C4, C5, and C6). The results reveal that within the T zone, total organic carbon (TOC: 0.79∼1.22 %), total nitrogen (TN: 0.081∼0.123 %), and δN values (4.03∼6.60 ‰) exhibited an increasing trend, while δC values (-24.89 ∼ -24.57 ‰), C1 content (28.97∼32.64 %), and humification index (HIX: 0.60∼0.83) displayed a decreasing trend. These patterns collectively indicate a decline in terrestrial organic matter inputs and a concurrent rise in contributions from anthropogenic sources, such as domestic wastewater discharge. In the M zone, TOC content (0.67∼1.14 %) and TN content (0.07∼0.10 %) exhibited a decrease trend; however, the gradual reduction in the C/N ratio (9.94∼12.38) implies a slower decline in TN relative to organic carbon. Furthermore, C1 content (20.43∼28.69 %), C6 content (0.42∼30.35 %), and HIX value (0.51∼0.78 %) diminished after 1980, indicating a decrease in terrestrial sources and a substantial increase in anthropogenic influence. In the S zone, the C/N ratio (7.71∼8.77) remained relatively stable prior to 1980; however, a significant decline in terrestrial inputs was noted after 1980, particularly following 2000. Human-induced terrestrial alterations and domestic discharge have a substantial impact on the preservation of SeOM within the PRE, particularly in the T and M zones. The increase in Fe (III) within the T zone significantly enhances the content of SeOM; however, intensified anthropogenic activities compromise its preservation capacity. This study offers critical insights into the dynamics of SeOM within a significantly disturbed estuary over the past four decades, underscoring the potential effects of intensified human activities on the preservation of SeOM in estuarine ecosystems.
title Intensified human activities shape the dynamics of sediment organic matter in a highly-disturbed estuary.
topic Estuaries
Geologic Sediments
Humans
Nitrogen
Human Activities
Carbon
Rivers
Environmental Monitoring
Seawater
url https://pubmed.ncbi.nlm.nih.gov/40398278/