Effects of flow velocity on growth and physiology of juvenile largemouth bass (
            <i>Micropterus salmoides</i>
            ) in recirculating aquaculture systems

Chen, Zhenlei; Ye, Zhangying; Ji, Mingdong; Zhou, Fan; Ding, Xueyan; Zhu, Songming; Zhao, Jian

doi:10.1111/are.15153

Cited by 16 publications

(7 citation statements)

References 27 publications

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“…Shi et al 232 demonstrated that sustained swimming training have direct effects on filet texture of European seabass. Moreover, different flow velocities had significant effects on the growth, digestive enzyme activities, antioxidant capabilities, and immune capabilities of juvenile largemouth bass ( Micropterus salmoides ) in recirculating systems (RAS) 233 . A study on Nile tilapia showed that water flow can help the fish to cope better with stressful events, such as being introduced into novel environments 234 .…”

Section: Environmental Enrichment Strategiesmentioning

confidence: 99%

“…Moreover, different flow velocities had significant effects on the growth, digestive enzyme activities, antioxidant capabilities, and immune capabilities of juvenile largemouth bass (Micropterus salmoides) in recirculating systems (RAS). 233 A study on Nile tilapia showed that water flow can help the fish to cope better with stressful events, such as being introduced into novel environments. 234 In addition, optimal exercise may also have beneficial effects on reproduction control.…”

Section: Hydrodynamism: Flow Currents and Exercisementioning

confidence: 99%

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Environmental enrichment in fish aquaculture: A review of fundamental and practical aspects

Arechavala-López

Cabrera-Álvarez

Maia

et al. 2021

Reviews in Aquaculture

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Environmental enrichment (EE) can improve the welfare of captive fish. Its objective is to provide new sensorial and motor stimulation in order to help meet their behavioural, physiological, morphological and psychological needs, whilst reducing stress and frequency of abnormal behaviours. In fish farms, rearing environments are usually designed from a human perspective and based on economic requirements, mainly for practical reasons for the farmer, with little consideration for animal welfare. Throughout aquaculture production cycles, many farming operations can be stressful for fish, and EE may not only help them cope with these stressful events but also improve their overall welfare. In recent years, increasing interest on the effects of EE in captive fish has focussed mainly on structural enrichment. However, there are many other enrichment strategies that merit attention (e.g. sensorial, occupational, social and dietary enrichment) and which may be of interest for fish farming. Here, we review in depth the existing literature on EE and its effects on the welfare of a wide range of farmed fish species, discussing the feasibility and potential applications of different EE strategies to promote fish welfare at a commercial scale. We also present a practical framework to address the design, validation and implementation of EE by the aquaculture industry, taking in consideration the technical challenges of providing enrichment for farmed fish.

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Section: Environmental Enrichment Strategiesmentioning

confidence: 99%

Section: Hydrodynamism: Flow Currents and Exercisementioning

confidence: 99%

Environmental enrichment in fish aquaculture: A review of fundamental and practical aspects

Arechavala-López

Cabrera-Álvarez

Maia

et al. 2021

Reviews in Aquaculture

View full text Add to dashboard Cite

show abstract

“…In this experiment, the total volume of water in the RAS was 110 L and a 25 L reservoir was used instead of a biofilter. Theory predicted maximum ammonia concentration was about 3.6 mg/L, which was in the safe range [24] .…”

Section: Ammonia Excretion Pattern Experimentsmentioning

confidence: 94%

“…Kvamme et al [34] found that the ammonia discharge rate of Atlantic salmon decreased with an increasing flow rate in the range of 0.2-0.5 L/(kg•min). Chen et al [24] found that the digestive enzyme activity of juvenile largemouth bass was enhanced as the flow velocity increased, which may also lead to enhanced protein uptake and reduced ammonia nitrogen excretion. To date, there is no general consensus as to the effects of flow velocity on the swimming and metabolism of fish species.…”

Section: Table 3 Coefficients Of Ammonia Excretion Model At Different...mentioning

confidence: 99%

Effects of flow velocity on water quality and ammonia excretion in recirculating aquaculture system culturing juvenile largemouth bass (Micropterus salmoides)

Xiao

Wang²,

Chen

et al. 2022

International Journal of Agricultural and Biological Engineering

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Flow velocity plays an important role in recirculating aquaculture systems (RAS) and the growing practice of culturing juvenile largemouth bass (Micropterus salmoides). In this study, the effects of flow velocity on the water quality as well as the ammonia excretion were discussed from the perspective of actual production, and a polynomial model of ammonia nitrogen excretion was established, using the juvenile largemouth bass. Results showed that the range of ammonia nitrogen and nitrite nitrogen decreased with flow velocity increasing, while the number and volume share of large particles increased. According to the polynomial model, compared with the medium flow velocity (11 cm/s, 2.45 body length (bl)/s), the ammonia excretion of juvenile largemouth bass at high (18 cm/s, 4.00 bl/s), and low (4 cm/s, 0.90 bl/s) flow velocity changed faster with time, and the excretion rate peaked at the 6th hour after feeding, earlier than that under medium flow velocity. Therefore, it is suggested to increase the flow velocity at the 5th hour after feeding and then decreased it at the 10th hour, to ensure better water quality in RAS culturing juvenile largemouth bass.

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“…Furthermore, a higher water velocity can make more particles suspend in the water, which is conducive to the filtration and removal of suspended particles. So, increasing the water velocity in the peak of ammonia discharge can contribute to the ammonia degradation and water purification (Chen, 2021). Therefore, it is beneficial to provide an appropriate water flow rate for the species cultured.…”

Section: Water Velocity and Exchange Ratementioning

confidence: 99%

A review of influencing factors on a recirculating aquaculture system: Environmental conditions, feeding strategies, and disinfection methods

Cui

et al. 2023

J World Aquaculture Soc

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Recirculating aquaculture system (RAS), as a modern highly intensive aquaculture mode, demonstrates the advantages of environmental friendliness, high efficiency and sustainable development, and has been widely used worldwide; they are also expected to be more widely applied in industrial aquaculture in the future as our natural resources are decreasing. However, RAS imposes very high requirements on operating conditions, including temperature, salinity, dissolved oxygen, pH, stocking density, light, feed composition, feeding amount, feeding frequency, and disinfection methods. Each factor is critical to the stable operation of the system. Therefore, to ensure the efficient and stable operation of RAS, its influencing factors must be controlled to within appropriate ranges. Herein, the factors affecting the operation of RAS are reviewed, and the mechanisms of their influence on the reared organisms are revealed, and suggestions on the control of these factors in aquaculture are proposed. This review can provide a theoretical basis for the further development of RAS.

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Effects of flow velocity on growth and physiology of juvenile largemouth bass ( Micropterus salmoides ) in recirculating aquaculture systems

Cited by 16 publications

References 27 publications

Environmental enrichment in fish aquaculture: A review of fundamental and practical aspects

Environmental enrichment in fish aquaculture: A review of fundamental and practical aspects

Effects of flow velocity on water quality and ammonia excretion in recirculating aquaculture system culturing juvenile largemouth bass (Micropterus salmoides)

A review of influencing factors on a recirculating aquaculture system: Environmental conditions, feeding strategies, and disinfection methods

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