Estimation of water quality dynamics under long-term anoxic state in organically polluted reservoir by field observations and improved ecosystem model

Autor:	Toshinori Tabata, Tran Tuan Thach, Masayoshi Harada, Kazuaki Hiramatsu
Rok vydání:	2018
Předmět:	chemistry.chemical_classification Pollution Environmental Engineering Sulfide media_common.quotation_subject Phosphorus 0208 environmental biotechnology Environmental engineering chemistry.chemical_element Sediment 02 engineering and technology Anoxic waters 020801 environmental engineering Denitrifying bacteria chemistry Water environment Environmental science Water quality Agronomy and Crop Science Water Science and Technology media_common
Zdroj:	Paddy and Water Environment. 16:665-686
ISSN:	1611-2504 1611-2490
DOI:	10.1007/s10333-018-0659-6
Popis:	In closed water bodies with significant organic pollution, anoxification due to thermal stratification leads to the elution of nitrogen and phosphorus from the bottom sediment and the generation of sulfide, resulting in further degradation of the water environment. This study focuses on the water quality dynamics in an organically polluted reservoir exhibiting long-term anoxification using two approaches: (1) field observations of seasonal changes in vertical profiles of dissolved oxygen, nitrogen, phosphorus, and sulfide and (2) construction of a water quality prediction model based on an ecosystem model incorporated with anaerobic biochemical processes. Iron and sulfate reduction occurred simultaneously because nitrate–nitrogen was reduced by denitrifying bacteria after the anoxification, and iron reduction became the main factor of the increase in ammonium–nitrogen and phosphate–phosphorus. The redox state of the bottom sediment surface, when anoxification began to occur, greatly affected the water quality dynamics caused by gradual reductive reactions under anaerobic conditions. Furthermore, the calculation accuracy of ammonium–nitrogen, phosphate–phosphorus, and sulfide was highly improved by modifying the conventional model based on the field observations. The characteristics of water quality under anaerobic conditions were sufficiently reflected in the upgraded ecosystem model. The proposed water quality prediction model could be used to quantitatively estimate the water environment dynamics in organically polluted water bodies. The model could be developed further in the future to solve the problems caused by long-term anoxification.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::01f8744a38646bd61644ba9ea02bf24a https://doi.org/10.1007/s10333-018-0659-6 Zobrazit plný text záznamu Full text from SpringerLink