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Main Authors: Qi, Wenqian, Liu, Yijun, Jiang, Zhijian, Long, Xu, Fang, Yang, Egodauyana, Uditha Thejan, Wu, Yunchao, Liu, Songlin, Huang, Xiaoping
Format: Artículo científico
Language:en
Published: Journal of hazardous materials 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40132268/
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author Qi, Wenqian
Liu, Yijun
Jiang, Zhijian
Long, Xu
Fang, Yang
Egodauyana, Uditha Thejan
Wu, Yunchao
Liu, Songlin
Huang, Xiaoping
author_facet Qi, Wenqian
Liu, Yijun
Jiang, Zhijian
Long, Xu
Fang, Yang
Egodauyana, Uditha Thejan
Wu, Yunchao
Liu, Songlin
Huang, Xiaoping
Qi, Wenqian
Liu, Yijun
Jiang, Zhijian
Long, Xu
Fang, Yang
Egodauyana, Uditha Thejan
Wu, Yunchao
Liu, Songlin
Huang, Xiaoping
collection PubMed - marine biology
contents Sulfide intrusion of seagrass Thalassia hemprichii along a eutrophication gradient with carbonate and terrigenous sediments in tropical coastal sea. Qi, Wenqian Liu, Yijun Jiang, Zhijian Long, Xu Fang, Yang Egodauyana, Uditha Thejan Wu, Yunchao Liu, Songlin Huang, Xiaoping Geologic Sediments Hydrocharitaceae Eutrophication Sulfides Carbonates China Photosynthesis Water Pollutants, Chemical Oceans and Seas Seagrasses growing in different eutrophic states in carbonate and terrigenous sediments may exhibit contrasting sulfide intrusion and responses; however, limited information is available. In this study, sulfide intrusion in the tropical typical seagrass Thalassia hemprichii along a eutrophication gradient in carbonate and terrigenous sediments on Hainan Island, South China Sea, was investigated using combined elements, stable isotopes, and photobiology. The sediment porewater sulfide concentration increased with rising nutrient levels, with porewater sulfide as 223.92 ± 25.34 μmol/L when the dissolved inorganic nitrogen concentration was 10.83 ± 0.60 μmol/L and the dissolved inorganic phosphate concentration was 0.39 ± 0.01 μmol/L. The nutrient input significantly enhanced sulfide intrusion in seagrass, resulting in reduced δS values in roots from 12.78 ± 1.16 to 2.69 ± 0.46 ‰, with leaf δN as the greatest explanatory factor. In addition, sulfide intrusion inhibited photosynthesis more strongly in seagrass growing in carbonate sediments than in terrigenous sediments because of the low iron content in carbonate sediments (almost 50 % of the iron content in terrigenous sediments), reducing rETR and E by 43.08 % and 36.42 %, respectively. Therefore, the synergistic effects of nutrient input, sulfide concentration, sediment substrate, and iron content affected the sulfide intrusion in seagrass.
format Artículo científico
id pubmed_40132268
institution PubMed
language en
publishDate 2025
publisher Journal of hazardous materials
record_format pubmed
spellingShingle Sulfide intrusion of seagrass Thalassia hemprichii along a eutrophication gradient with carbonate and terrigenous sediments in tropical coastal sea.
Qi, Wenqian
Liu, Yijun
Jiang, Zhijian
Long, Xu
Fang, Yang
Egodauyana, Uditha Thejan
Wu, Yunchao
Liu, Songlin
Huang, Xiaoping
Geologic Sediments
Hydrocharitaceae
Eutrophication
Sulfides
Carbonates
China
Photosynthesis
Water Pollutants, Chemical
Oceans and Seas
Sulfide intrusion of seagrass Thalassia hemprichii along a eutrophication gradient with carbonate and terrigenous sediments in tropical coastal sea. Qi, Wenqian Liu, Yijun Jiang, Zhijian Long, Xu Fang, Yang Egodauyana, Uditha Thejan Wu, Yunchao Liu, Songlin Huang, Xiaoping Geologic Sediments Hydrocharitaceae Eutrophication Sulfides Carbonates China Photosynthesis Water Pollutants, Chemical Oceans and Seas Seagrasses growing in different eutrophic states in carbonate and terrigenous sediments may exhibit contrasting sulfide intrusion and responses; however, limited information is available. In this study, sulfide intrusion in the tropical typical seagrass Thalassia hemprichii along a eutrophication gradient in carbonate and terrigenous sediments on Hainan Island, South China Sea, was investigated using combined elements, stable isotopes, and photobiology. The sediment porewater sulfide concentration increased with rising nutrient levels, with porewater sulfide as 223.92 ± 25.34 μmol/L when the dissolved inorganic nitrogen concentration was 10.83 ± 0.60 μmol/L and the dissolved inorganic phosphate concentration was 0.39 ± 0.01 μmol/L. The nutrient input significantly enhanced sulfide intrusion in seagrass, resulting in reduced δS values in roots from 12.78 ± 1.16 to 2.69 ± 0.46 ‰, with leaf δN as the greatest explanatory factor. In addition, sulfide intrusion inhibited photosynthesis more strongly in seagrass growing in carbonate sediments than in terrigenous sediments because of the low iron content in carbonate sediments (almost 50 % of the iron content in terrigenous sediments), reducing rETR and E by 43.08 % and 36.42 %, respectively. Therefore, the synergistic effects of nutrient input, sulfide concentration, sediment substrate, and iron content affected the sulfide intrusion in seagrass.
title Sulfide intrusion of seagrass Thalassia hemprichii along a eutrophication gradient with carbonate and terrigenous sediments in tropical coastal sea.
topic Geologic Sediments
Hydrocharitaceae
Eutrophication
Sulfides
Carbonates
China
Photosynthesis
Water Pollutants, Chemical
Oceans and Seas
url https://pubmed.ncbi.nlm.nih.gov/40132268/