Processes governing nutrient dynamics in tropical urban-agriculture rivers, NE Thailand

Eutrophication induced water quality deterioration is typically found in urban–agricultural environments, especially in tropical cities. This study aims to understand processes governing nutrient dynamics in surface running waters at three cities in NE Thailand. Sampling was performed in both dry an...

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Veröffentlicht in:	Sustainable water resources management 2022-10, Vol.8 (5), Article 156
Hauptverfasser:	Bridhikitti, Arika, Pumkaew, Monchai, Prabamroong, Thayukorn, Yu, Guo-An, Liu, Gaohuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Agriculture Algae Algal growth Ammonia Ammonium nitrogen Biological activity Cyanobacteria Development Economics Dilution Dynamics Earth and Environmental Science Earth Sciences Eutrophic environments Eutrophic waters Eutrophication Hydrogeology Hydrology/Water Resources Moisture content Morphology Nutrient dynamics Nutrients Original Article Physical characteristics Rainy season Regression analysis Regression models Resuspension River beds Riverbeds Rivers Running waters Sampling Soil conservation Soil water Soil water storage Stormwater Surface water Sustainable Development Upstream Urban agriculture Urban areas Wastewater Wastewater discharges Water conservation Water Policy/Water Governance/Water Management Water quality Water shortages Wet season
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creator	Bridhikitti, Arika Pumkaew, Monchai Prabamroong, Thayukorn Yu, Guo-An Liu, Gaohuan
description	Eutrophication induced water quality deterioration is typically found in urban–agricultural environments, especially in tropical cities. This study aims to understand processes governing nutrient dynamics in surface running waters at three cities in NE Thailand. Sampling was performed in both dry and wet seasons. The sampling sites exhibited different hydro-morphological characteristics. The results showed high NH 3 concentration, exceeding the national standard, and high PO 4 3− , classified as eutrophic water. The N:P ratio, however, was typically below the Redfield ratio for optimal algal growth. Stepwise linear regression models describe the processes governing loss and supply of TKN, NH 3 , NO 3 − , and PO 4 3− in the urban river waters. The processes include upstream dilution, sorption/desorption, resuspension, urban wastewater discharge, and biological processes. The findings suggested that urban nutrient management should focus on minimizing NH 3 and PO 4 3− , preferably by proper wastewater and stormwater collection, upstream soil–water conservation, and river bed maintenance.
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Water Resour. Manag</addtitle><description>Eutrophication induced water quality deterioration is typically found in urban–agricultural environments, especially in tropical cities. This study aims to understand processes governing nutrient dynamics in surface running waters at three cities in NE Thailand. Sampling was performed in both dry and wet seasons. The sampling sites exhibited different hydro-morphological characteristics. The results showed high NH 3 concentration, exceeding the national standard, and high PO 4 3− , classified as eutrophic water. The N:P ratio, however, was typically below the Redfield ratio for optimal algal growth. Stepwise linear regression models describe the processes governing loss and supply of TKN, NH 3 , NO 3 − , and PO 4 3− in the urban river waters. The processes include upstream dilution, sorption/desorption, resuspension, urban wastewater discharge, and biological processes. 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The processes include upstream dilution, sorption/desorption, resuspension, urban wastewater discharge, and biological processes. The findings suggested that urban nutrient management should focus on minimizing NH 3 and PO 4 3− , preferably by proper wastewater and stormwater collection, upstream soil–water conservation, and river bed maintenance.</abstract><cop>Cham</cop><pub>Springer International Publishing</pub><doi>10.1007/s40899-022-00750-w</doi></addata></record>
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subjects	Agriculture Algae Algal growth Ammonia Ammonium nitrogen Biological activity Cyanobacteria Development Economics Dilution Dynamics Earth and Environmental Science Earth Sciences Eutrophic environments Eutrophic waters Eutrophication Hydrogeology Hydrology/Water Resources Moisture content Morphology Nutrient dynamics Nutrients Original Article Physical characteristics Rainy season Regression analysis Regression models Resuspension River beds Riverbeds Rivers Running waters Sampling Soil conservation Soil water Soil water storage Stormwater Surface water Sustainable Development Upstream Urban agriculture Urban areas Wastewater Wastewater discharges Water conservation Water Policy/Water Governance/Water Management Water quality Water shortages Wet season
title	Processes governing nutrient dynamics in tropical urban-agriculture rivers, NE Thailand
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