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Modeling N transformation and removal in a duckweed pond: Model application

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  • Peng, Jian-feng
  • Wang, Bao-zhen
  • Song, Yong-hui
  • Yuan, Peng

Abstract

Based on the simulated results of a reconstructed N transformation model for duckweed ponds, the roles of different transformation pathways in N removal were elucidated, and the seasonal effects of water conditions on N transformations were analyzed. It showed that the nitrification–denitrification process was the most important pathway for N removal in the duckweed pond. In low temperature periods, nitrification–denitrification accounted for 10.2% of TN removal, but the total amounts of organic nitrogen precipitation and ammonia volatilization only accounted for 0.7%; in high temperature periods, the above two values were 38.8% and 2.1%, respectively, more clearly showing the importance of nitrification–denitrification. In the duckweed pond, different N forms possessed differently dominant transformation pathways of their own. Nitrification, denitrification, ammonification accounted for 113%, 91%, 74% of ammonia, NOx, organic nitrogen removals, respectively; remineralization reduced sedimentary nitrogen by 234% and organic nitrogen precipitation increased sedimentary nitrogen by 297%; ammonia amounted to 79% of the N uptake of the duckweed, and the algae mortality reduced 133% of the N contained in algae. Moreover, due to the light limitation by duckweed, the mortality rate of algae was greatly accelerated, thus lowering algae content in the final effluent of duckweed pond. The most important function of duckweed for TN removal was not their direct uptake, but their indirect acceleration to the nitrification and denitrification rate.

Suggested Citation

  • Peng, Jian-feng & Wang, Bao-zhen & Song, Yong-hui & Yuan, Peng, 2007. "Modeling N transformation and removal in a duckweed pond: Model application," Ecological Modelling, Elsevier, vol. 206(3), pages 294-300.
    • Handle: RePEc:eee:ecomod:v:206:y:2007:i:3:p:294-300
    DOI: 10.1016/j.ecolmodel.2007.03.037
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    1. Peng, Jian-Feng & Wang, Bao-Zhen & Song, Yong-Hui & Yuan, Peng, 2007. "Modeling N transformation and removal in a duckweed pond: Model development and calibration," Ecological Modelling, Elsevier, vol. 206(1), pages 147-152.
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    Cited by:

    1. Małgorzata Krzywonos & Zdzisława Romanowska-Duda & Przemysław Seruga & Beata Messyasz & Stanisław Mec, 2023. "The Use of Plants from the Lemnaceae Family for Biofuel Production—A Bibliometric and In-Depth Content Analysis," Energies, MDPI, vol. 16(4), pages 1-24, February.
    2. Sah, Leena & Rousseau, Diederik P.L. & Hooijmans, Christine M. & Lens, Piet N.L., 2011. "3D model for a secondary facultative pond," Ecological Modelling, Elsevier, vol. 222(9), pages 1592-1603.
    3. Liu, Yang & Chen, Xiaoyi & Wang, Xinhui & Fang, Yang & Zhang, Yin & Huang, Mengjun & Zhao, Hai, 2019. "The influence of different plant hormones on biomass and starch accumulation of duckweed: A renewable feedstock for bioethanol production," Renewable Energy, Elsevier, vol. 138(C), pages 659-665.

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