Major Processes Shaping Mangroves as Inorganic Nitrogen Sources or Sinks: Insights From a Multidisciplinary Study

Mangrove wetlands support numerous ecosystem services including nutrient cycling and carbon sequestration and storage (blue carbon). Mangrove sediments may serve as a nitrogen source or sink to the hydrosphere and atmosphere at both regional and global scales. However, major mechanisms controlling t...

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Bibliographic Details
Published in:Journal of geophysical research. Biogeosciences 2019-05, Vol.124 (5), p.1194-1208
Main Authors: Wang, Fenfang, Chen, Nengwang, Yan, Jing, Lin, Jingjie, Guo, Weidong, Cheng, Peng, Liu, Qian, Huang, Bangqin, Tian, Yun
Format: Article
Language:English
Subjects:
Ammonification
Ammonium
Ammonium compounds
Anoxic sediments
Aquatic ecosystems
Blue carbon
Carbon
Carbon cycle
Carbon sequestration
Coastal inlets
Coastal zone
Cycles
Denitrification
Ecosystem services
Estuaries
Estuarine dynamics
Estuarine environments
greenhouse gas
Hydrosphere
Incubation period
Isotopes
mangrove
Mangroves
Mineral nutrients
Mineralization
Multidisciplinary research
Nitrate removal
Nitrification
Nitrogen
Nitrogen cycle
nitrogen cycling
Nitrogen removal
Nitrogen sources
Nitrous oxide
Nutrient cycles
Nutrient removal
Nutrient status
Outgassing
Pore water
Seasonal variation
Seasonal variations
Sediment
Sediments
Storage
Tides
Uptake
Water depth
Wetlands
Zhangjiang Estuary
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Summary:Mangrove wetlands support numerous ecosystem services including nutrient cycling and carbon sequestration and storage (blue carbon). Mangrove sediments may serve as a nitrogen source or sink to the hydrosphere and atmosphere at both regional and global scales. However, major mechanisms controlling the connection between the mangrove and the adjacent tidal creek (nitrogen cycling in sediments and outfluxing) remain unclear. A multidisciplinary study based on intensive investigation, incorporating detailed sediment profiling, multi‐isotopes analysis, sediment incubation, and microbiological identification was conducted in the Yunxiao mangrove reserve and Zhangjiang Estuary in southeast China. Here we show that mineralization and denitrification are major processes shaping mangroves as an ammonium source and nitrate sink. Enrichment of ammonium in pore water (10–40 cm in depth) likely resulted from strong ammonification with limited nitrification in the anaerobic sediments. Denitrification played a key role in nitrate removal from pore waters while producing N2O and N2. Decreasing δ15N‐N2O and associated δ15N:δ18O ratio suggested that most of the outgassing N2O was derived from incomplete denitrification in sediment pore water. Overall, there was a net export of dissolved inorganic nitrogen from mangroves toward the estuary in winter and spring but a net import to mangroves in summer and fall, mainly driven by tidal pumping with seasonal variation of bio‐uptake. These findings highlight the role of mangrove wetlands in regulating nutrient status and carbon budget in coastal areas. Key Points Mangrove‐estuary exchange of nitrogen was mainly driven by tidal pumping Mangrove sediments mostly serve as ammonium source but nitrate sink Strong mineralization leads to accumulation of ammonium in pore water, while denitrification dominates nitrate removal and N2O production
ISSN:2169-8953
2169-8961
DOI:10.1029/2018JG004875