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Main Authors: Xie, Dandan, Hu, Jiehua, Lin, Liru, Huang, Xiaomei, Xie, Changsheng, He, Haibin
Format: Artículo científico
Language:en
Published: PeerJ 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40352280/
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author Xie, Dandan
Hu, Jiehua
Lin, Liru
Huang, Xiaomei
Xie, Changsheng
He, Haibin
author_facet Xie, Dandan
Hu, Jiehua
Lin, Liru
Huang, Xiaomei
Xie, Changsheng
He, Haibin
Xie, Dandan
Hu, Jiehua
Lin, Liru
Huang, Xiaomei
Xie, Changsheng
He, Haibin
collection PubMed - marine biology
contents Enhancing bullfrog farming sustainability: circular water management through effluent treatment. Xie, Dandan Hu, Jiehua Lin, Liru Huang, Xiaomei Xie, Changsheng He, Haibin Aquaculture Animals Phosphorus Water Purification Nitrogen Wastewater Biological Oxygen Demand Analysis Waste Disposal, Fluid Wetlands Ensuring effective wastewater treatment is crucial for promoting sustainable water use and reducing environmental pollution in intensive bullfrog aquaculture. This study presents the design and implementation of an integrated treatment system, composed of a flotation tank, a biochemical tank, and constructed wetlands, aimed at facilitating the reuse of treated effluent. The system, operated under optimal conditions-at a flow rate of 250 m/h, hydraulic retention time of 6 h, and aeration intensity of 2,000 m/h-demonstrated significant removal efficiencies. Specifically, the biochemical tank reduced chemical oxygen demand (CODCr), ammoniacal nitrogen, and total phosphorus by 70%, 43%, and 42%, respectively. After a month of continuous operation, the system achieved higher removal rates of 71.7% for CODCr, 83% for ammoniacal nitrogen, and 86.7% for reactive phosphorus, rendering the treated water suitable for reuse in bullfrog farming. However, total nitrogen removal remained relatively low, and reactive phosphorus slightly exceeded discharge standards, indicating areas for further optimization. Despite these limitations, this innovative system enhances water recycling, supports circular water management strategies, and provides a practical solution for reducing water consumption and minimizing aquaculture's environmental footprint.
format Artículo científico
id pubmed_40352280
institution PubMed
language en
publishDate 2025
publisher PeerJ
record_format pubmed
spellingShingle Enhancing bullfrog farming sustainability: circular water management through effluent treatment.
Xie, Dandan
Hu, Jiehua
Lin, Liru
Huang, Xiaomei
Xie, Changsheng
He, Haibin
Aquaculture
Animals
Phosphorus
Water Purification
Nitrogen
Wastewater
Biological Oxygen Demand Analysis
Waste Disposal, Fluid
Wetlands
Enhancing bullfrog farming sustainability: circular water management through effluent treatment. Xie, Dandan Hu, Jiehua Lin, Liru Huang, Xiaomei Xie, Changsheng He, Haibin Aquaculture Animals Phosphorus Water Purification Nitrogen Wastewater Biological Oxygen Demand Analysis Waste Disposal, Fluid Wetlands Ensuring effective wastewater treatment is crucial for promoting sustainable water use and reducing environmental pollution in intensive bullfrog aquaculture. This study presents the design and implementation of an integrated treatment system, composed of a flotation tank, a biochemical tank, and constructed wetlands, aimed at facilitating the reuse of treated effluent. The system, operated under optimal conditions-at a flow rate of 250 m/h, hydraulic retention time of 6 h, and aeration intensity of 2,000 m/h-demonstrated significant removal efficiencies. Specifically, the biochemical tank reduced chemical oxygen demand (CODCr), ammoniacal nitrogen, and total phosphorus by 70%, 43%, and 42%, respectively. After a month of continuous operation, the system achieved higher removal rates of 71.7% for CODCr, 83% for ammoniacal nitrogen, and 86.7% for reactive phosphorus, rendering the treated water suitable for reuse in bullfrog farming. However, total nitrogen removal remained relatively low, and reactive phosphorus slightly exceeded discharge standards, indicating areas for further optimization. Despite these limitations, this innovative system enhances water recycling, supports circular water management strategies, and provides a practical solution for reducing water consumption and minimizing aquaculture's environmental footprint.
title Enhancing bullfrog farming sustainability: circular water management through effluent treatment.
topic Aquaculture
Animals
Phosphorus
Water Purification
Nitrogen
Wastewater
Biological Oxygen Demand Analysis
Waste Disposal, Fluid
Wetlands
url https://pubmed.ncbi.nlm.nih.gov/40352280/