Mapping potential areas for finfish mariculture,particularly high-yield regions,is crucial for the proper utilization of marine space and global food security.Physiological models(growth performance models)that consid...Mapping potential areas for finfish mariculture,particularly high-yield regions,is crucial for the proper utilization of marine space and global food security.Physiological models(growth performance models)that consider the spatiotemporal heterogeneity of the marine environment are a potentially effective approach to achieving this goal.In the present study,we developed an integrated model that combines the thermal performance curve and spatiotemporal heterogeneity of the marine environment to map the global high-yield potential mariculture areas for 27 commercial finfish species.Our results showed that the current sizes of the potentially suitable areas(achieving 50% of the maximum growth rate for at least six months annually)and high-yield areas(achieving 75% of the maximum growth rate throughout a year)are(8.00±0.30)×10^(6) and(5.96±0.13)×10^(6) km^(2),respectively.Currently,the sizes of suitable and high-yield areas for warm-water mariculture fish are larger than those for other species.The growth potential of suitable mariculture areas is higher at mid and low latitudes than at high latitudes.Under the two shared socioeconomic pathway scenarios(SSP1-2.6 and SSP5-8.5),the sizes of both suitable and high-yield areas will increase by 2050.However,there is the potential for finfish mariculture to respond differently to climate change among species and regions,and cold-water fish may benefit from global warming.Overall,the global potential for suitable high-yield mariculture areas continues to increase,making finfish mariculture an important contributor to global food security.展开更多
As the production of fish and shellfish is increasing,and the price of fishmeal is high cheaper suitable alternatives must be evaluated.Spirulina(Arthrospira),a filamentous blue-green microalgae,reported worldwide in ...As the production of fish and shellfish is increasing,and the price of fishmeal is high cheaper suitable alternatives must be evaluated.Spirulina(Arthrospira),a filamentous blue-green microalgae,reported worldwide in fresh and marine waters,could be an alternative protein-and vitamins source.According to the Web of Science using the key words Spirulina and aquaculture 640 studies have been published on the topic since the first study was published by Stanley and Jones in 1976.Some microalgae including Spirulina contain several bioactive phytochemicals that exhibit anti-inflammatory,antioxidant,and immunomodulatory properties.Based on this,numerous studies have revealed that the supplementation of Spirulina to several fish and shellfish species improve growth performance,enhance cellular and humoral immunities,modulate the gut microbiota composition and improve disease resistance towards pathogenic infection(Vibrio alginolyticus,Vibrio harveyi,Aeromonas hydrophila and Aeromonas sobria).This review article evaluates the supplementation of Spirulina as a functional feed additive in sustainable fish and shellfish aquaculture.展开更多
Understanding the potential areas suitable for offshore mariculture is crucial to global seafood security.Here,we map the potential global offshore mariculture areas for 23 principal commercial finfish using an ensemb...Understanding the potential areas suitable for offshore mariculture is crucial to global seafood security.Here,we map the potential global offshore mariculture areas for 23 principal commercial finfish using an ensemble model.The model involves the temporal-spatial heterogeneity of environments and constraints of temperature-dependent hypoxia and cold edges of cultured finfish by metabolic index and lower thermal safety margin,respectively.Our results show that currently,there is 9.16±1.22 million km^(2) of potentially suitable area for offshore finfish mariculture.Under climate change,the potential suitable area will be reduced to between 86.7% and 91.7% of the current size by 2050.Compared to the decline in tropical regions,the expanded potential areas in temperate and polar regions will become more important for global seafood security.The potential offshore finfish mariculture area responds differently to global change among species,and cold-water finfish may benefit from global warming.Overall,despite changes in the distribution of global offshore mariculture areas and replacements of local potential mariculture species,offshore finfish mariculture still holds immense potential in the future.展开更多
Nutrients available in wastewater are supportive for the growth of phototrophic bacteria. Phototrophic bacterium, Afifella marina strain ME was grown in a characterized finfish hatchery wastewater. The effects of thre...Nutrients available in wastewater are supportive for the growth of phototrophic bacteria. Phototrophic bacterium, Afifella marina strain ME was grown in a characterized finfish hatchery wastewater. The effects of three light intensities (2000 lux, 2500 lux and 3000 lux) with 30% (v/v) inoculum on the growth, in terms of dry cell weight (g/L) and production of total carotenoids (mg/g dry cell weight) were observed in this study. Total nitrogen (mg/L) and phosphorus (mg/L) are the two major nutrients identified in wastewater. The highest bacterial cell weight of 0.37 g/L was obtained after 72 hours of culture at 2500 lux light intensity, whilst the highest total carotenoid production of 0.06 mg/g dry cell weight was determined in 24 hours of culture at same light intensity. Different light intensities affected the production of bacterial cell weight and total carotenoid production. However, statistical analysis indicated that there were no significant differences between bacterial dry cell weight and total carotenoid production due to the differing light intensities (p > 0.05). Poor growth (dry cell weight) and carotenoids production with low SGR, but efficient use of substrate. The 30% (v/v) inoculum level observed was not very supportive on the growth characteristics of bacterium. In addition, other opportunities for bacteria that remained in wastewater might suppressed the growth of Afifella marina strain ME, which need further investigation. Further, several other factors like, strain type, temperature of the culture substrate, nutrients and types of inoculum media, aerobic and anaerobic culture condition and agitation speed can alter and change the growth profile of bacterium, which need to be optimized. However, phototrophic bacterium Afifella marina strains ME is capable to grow in finfish in all these three light intensities but not at 30% (v/v) inoculum level.展开更多
A three year study was conducted in two floodplain lakes to evaluate changes between seasonal variation of water quality parameter and finfish diversity indices. Samples of water and fish specimens were collected ever...A three year study was conducted in two floodplain lakes to evaluate changes between seasonal variation of water quality parameter and finfish diversity indices. Samples of water and fish specimens were collected every month from three different stations of each lake to determine physico-chemical parameters of water and the finfish diversity indices. Split-plot and MANOVA designs, Multiplicative decomposition method and quadratic regression analysis were used to analyze the effects of the rate of changes between the parameters and sustainability of the lakes. The obtained results suggested that the impact of environmental change (e.g depth, conductivity, salinity of water etc.) on diversity indices was significant and should be taken into consideration when designing policies to increase the long-term sustainability of fishing activities in the lakes.展开更多
The finfish and shellfish resources were assessed quantitatively and qualitatively in regard to their abundance in creek waters at three sites within a period of two years, fi'om January 1999 to December 2000, in the...The finfish and shellfish resources were assessed quantitatively and qualitatively in regard to their abundance in creek waters at three sites within a period of two years, fi'om January 1999 to December 2000, in the western mangrove areas of Kachchh. The catch rate varied from 0.69 to 6.99kg·h^-1. It was low during monsoon (July to October), which could be due to the freshwater-flow-induced salinity reduction in all the sites. Among 38 species recorded, 5 were shellfish and 33 were finfish. The spawning period of fishes was found to be during summer and early monsoon period (May to August). Surface water temperatures varied from 17℃ to 37 ℃. Salinity values varied from 34 to 44 and the pH ranged between 7 and 8.9. Variation in dissolved oxygen content was from 3.42 to 5.85 mL L^-1. The high fishery densities in these semi arid mangrove creek areas were recorded during monsoon and early winter season.展开更多
The use of chemotherapeutants, antibiotics, and pesticides in aqua farms and non-adherence to scientific management practices have resulted in adverse impact on aquacultural production, serious outbreaks of diseases, ...The use of chemotherapeutants, antibiotics, and pesticides in aqua farms and non-adherence to scientific management practices have resulted in adverse impact on aquacultural production, serious outbreaks of diseases, development of drug resistance in microbes, and accumulation of antibiotics and pesticide residues in finfish and shellfish and environmental pollution. As a result, a need has been felt by the aquaculturists as well as aquatic animal health management professionals to find a suitable alternative therapy in place of antibiotics and chemotherapy. Phytotherapy has come to be recognized as a handy and viable alternative to chemotherapy, as it is economical, effective, non-resistance forming, renewable, eco-friendly and farmer-friendly. Although the use of medicinal plants is known to humanity since the dawn of human civilization for the treatment and control of human and animal diseases but its importance in combating finfish and shellfish diseases has been realized only recently. The phytotherapy of aquacultural diseases is in its infancy in most part of the world except in China to some extent. However, many important contributions in this field by different workers during the last quarter of the 20th century and early 21st century have shown encouraging results and opened new vistas in phytotherapy of aquatic animals. The present review crtically evaluates the present status of knowledge of phytotherapy in the world combating various aquacultural diseases, identifying the bottlenecks and suggests remedial measures.展开更多
基金supported by the National Natural Science Founda-tion of China(42025604)the Fundamental Research Funds for the Central Universities of the Ocean University of China.
文摘Mapping potential areas for finfish mariculture,particularly high-yield regions,is crucial for the proper utilization of marine space and global food security.Physiological models(growth performance models)that consider the spatiotemporal heterogeneity of the marine environment are a potentially effective approach to achieving this goal.In the present study,we developed an integrated model that combines the thermal performance curve and spatiotemporal heterogeneity of the marine environment to map the global high-yield potential mariculture areas for 27 commercial finfish species.Our results showed that the current sizes of the potentially suitable areas(achieving 50% of the maximum growth rate for at least six months annually)and high-yield areas(achieving 75% of the maximum growth rate throughout a year)are(8.00±0.30)×10^(6) and(5.96±0.13)×10^(6) km^(2),respectively.Currently,the sizes of suitable and high-yield areas for warm-water mariculture fish are larger than those for other species.The growth potential of suitable mariculture areas is higher at mid and low latitudes than at high latitudes.Under the two shared socioeconomic pathway scenarios(SSP1-2.6 and SSP5-8.5),the sizes of both suitable and high-yield areas will increase by 2050.However,there is the potential for finfish mariculture to respond differently to climate change among species and regions,and cold-water fish may benefit from global warming.Overall,the global potential for suitable high-yield mariculture areas continues to increase,making finfish mariculture an important contributor to global food security.
基金funded by a grant from the publication fund of UiT The Arctic University of Norway.
文摘As the production of fish and shellfish is increasing,and the price of fishmeal is high cheaper suitable alternatives must be evaluated.Spirulina(Arthrospira),a filamentous blue-green microalgae,reported worldwide in fresh and marine waters,could be an alternative protein-and vitamins source.According to the Web of Science using the key words Spirulina and aquaculture 640 studies have been published on the topic since the first study was published by Stanley and Jones in 1976.Some microalgae including Spirulina contain several bioactive phytochemicals that exhibit anti-inflammatory,antioxidant,and immunomodulatory properties.Based on this,numerous studies have revealed that the supplementation of Spirulina to several fish and shellfish species improve growth performance,enhance cellular and humoral immunities,modulate the gut microbiota composition and improve disease resistance towards pathogenic infection(Vibrio alginolyticus,Vibrio harveyi,Aeromonas hydrophila and Aeromonas sobria).This review article evaluates the supplementation of Spirulina as a functional feed additive in sustainable fish and shellfish aquaculture.
基金supported by the National Natural Science Foundation of China(NSFC,42025604 and U1906206)the Fundamental Research Funds for the Central Universities of the Ocean University of China.Analysis was conducted on the supercomputer platform of Center for High Performance Computing and System Simulation,Qingdao Marine Science and Technology Center.
文摘Understanding the potential areas suitable for offshore mariculture is crucial to global seafood security.Here,we map the potential global offshore mariculture areas for 23 principal commercial finfish using an ensemble model.The model involves the temporal-spatial heterogeneity of environments and constraints of temperature-dependent hypoxia and cold edges of cultured finfish by metabolic index and lower thermal safety margin,respectively.Our results show that currently,there is 9.16±1.22 million km^(2) of potentially suitable area for offshore finfish mariculture.Under climate change,the potential suitable area will be reduced to between 86.7% and 91.7% of the current size by 2050.Compared to the decline in tropical regions,the expanded potential areas in temperate and polar regions will become more important for global seafood security.The potential offshore finfish mariculture area responds differently to global change among species,and cold-water finfish may benefit from global warming.Overall,despite changes in the distribution of global offshore mariculture areas and replacements of local potential mariculture species,offshore finfish mariculture still holds immense potential in the future.
文摘Nutrients available in wastewater are supportive for the growth of phototrophic bacteria. Phototrophic bacterium, Afifella marina strain ME was grown in a characterized finfish hatchery wastewater. The effects of three light intensities (2000 lux, 2500 lux and 3000 lux) with 30% (v/v) inoculum on the growth, in terms of dry cell weight (g/L) and production of total carotenoids (mg/g dry cell weight) were observed in this study. Total nitrogen (mg/L) and phosphorus (mg/L) are the two major nutrients identified in wastewater. The highest bacterial cell weight of 0.37 g/L was obtained after 72 hours of culture at 2500 lux light intensity, whilst the highest total carotenoid production of 0.06 mg/g dry cell weight was determined in 24 hours of culture at same light intensity. Different light intensities affected the production of bacterial cell weight and total carotenoid production. However, statistical analysis indicated that there were no significant differences between bacterial dry cell weight and total carotenoid production due to the differing light intensities (p > 0.05). Poor growth (dry cell weight) and carotenoids production with low SGR, but efficient use of substrate. The 30% (v/v) inoculum level observed was not very supportive on the growth characteristics of bacterium. In addition, other opportunities for bacteria that remained in wastewater might suppressed the growth of Afifella marina strain ME, which need further investigation. Further, several other factors like, strain type, temperature of the culture substrate, nutrients and types of inoculum media, aerobic and anaerobic culture condition and agitation speed can alter and change the growth profile of bacterium, which need to be optimized. However, phototrophic bacterium Afifella marina strains ME is capable to grow in finfish in all these three light intensities but not at 30% (v/v) inoculum level.
文摘A three year study was conducted in two floodplain lakes to evaluate changes between seasonal variation of water quality parameter and finfish diversity indices. Samples of water and fish specimens were collected every month from three different stations of each lake to determine physico-chemical parameters of water and the finfish diversity indices. Split-plot and MANOVA designs, Multiplicative decomposition method and quadratic regression analysis were used to analyze the effects of the rate of changes between the parameters and sustainability of the lakes. The obtained results suggested that the impact of environmental change (e.g depth, conductivity, salinity of water etc.) on diversity indices was significant and should be taken into consideration when designing policies to increase the long-term sustainability of fishing activities in the lakes.
文摘The finfish and shellfish resources were assessed quantitatively and qualitatively in regard to their abundance in creek waters at three sites within a period of two years, fi'om January 1999 to December 2000, in the western mangrove areas of Kachchh. The catch rate varied from 0.69 to 6.99kg·h^-1. It was low during monsoon (July to October), which could be due to the freshwater-flow-induced salinity reduction in all the sites. Among 38 species recorded, 5 were shellfish and 33 were finfish. The spawning period of fishes was found to be during summer and early monsoon period (May to August). Surface water temperatures varied from 17℃ to 37 ℃. Salinity values varied from 34 to 44 and the pH ranged between 7 and 8.9. Variation in dissolved oxygen content was from 3.42 to 5.85 mL L^-1. The high fishery densities in these semi arid mangrove creek areas were recorded during monsoon and early winter season.
文摘The use of chemotherapeutants, antibiotics, and pesticides in aqua farms and non-adherence to scientific management practices have resulted in adverse impact on aquacultural production, serious outbreaks of diseases, development of drug resistance in microbes, and accumulation of antibiotics and pesticide residues in finfish and shellfish and environmental pollution. As a result, a need has been felt by the aquaculturists as well as aquatic animal health management professionals to find a suitable alternative therapy in place of antibiotics and chemotherapy. Phytotherapy has come to be recognized as a handy and viable alternative to chemotherapy, as it is economical, effective, non-resistance forming, renewable, eco-friendly and farmer-friendly. Although the use of medicinal plants is known to humanity since the dawn of human civilization for the treatment and control of human and animal diseases but its importance in combating finfish and shellfish diseases has been realized only recently. The phytotherapy of aquacultural diseases is in its infancy in most part of the world except in China to some extent. However, many important contributions in this field by different workers during the last quarter of the 20th century and early 21st century have shown encouraging results and opened new vistas in phytotherapy of aquatic animals. The present review crtically evaluates the present status of knowledge of phytotherapy in the world combating various aquacultural diseases, identifying the bottlenecks and suggests remedial measures.
