Microplastics(MPs)are one of the most concerning pollutants that affects the health and growth of aquatic organisms.We characterized the MPs dispersion in the milli-Q water and seawater,and evaluated the effects of MP...Microplastics(MPs)are one of the most concerning pollutants that affects the health and growth of aquatic organisms.We characterized the MPs dispersion in the milli-Q water and seawater,and evaluated the effects of MPs on the gut epithelial cells of brine shrimp using three sizes of polystyrene(PS)microbeads(0.05,0.5,and 5μm,respectively).Results show that microbeads evenly dispersed in milli-Q water,but exhibited aggregation tendency in seawater associating with the particle size.Apart from a reduced survival rate,we observed the structure changes in the gut epithelium that the smaller size of PS microbeads resulted in an increased reactive oxygen species(ROS)and higher apoptosis-related genes expression.Moreover,exposure to all size of PS microbeads led to increased green fluorescence of J-monomer,indicating the declined mitochondrial membrane potential.Therefore,exposure to PS microbeads led to significantly size-dependent toxicity on brine shrimp.Especially,0.05-μm PS microbeads were more toxic,leading to severe oxidative stress and activation of the p53-Bax-Bcl2 pathway,ultimately resulting in cellular apoptosis and gut damage.These findings are important to understand the mechanism of MPs toxicity and its potential ecological risks to marine aquatic animals.展开更多
Biofl oc technology(BFT)improves water quality,and productivity of the farmed species through converting ammonium nitrogen to microbial protein,stabilizing microbial community,and reducing the production cost.In this ...Biofl oc technology(BFT)improves water quality,and productivity of the farmed species through converting ammonium nitrogen to microbial protein,stabilizing microbial community,and reducing the production cost.In this study,a small-scale biofl oc development unit was designed in combination of recirculation system(RAS)for Artemia culture.Artemia growth,water quality,and microbial composition of biofl ocs in RAS were studied in comparison with in-situ batch culture(Glu).Glucose was added in RAS and Glu at C/N ratio of 10.The cultures without glucose addition,but with 50%daily water renewal(WRe)and without water renewal(NWRe)were considered as the controls.Arte mia were cultured at 25℃ and salinity 30 for 24 days and fed formulated feed.The results showed that compared to the controls,Glu signifi cantly improved the Artemia biomass,increased the biofl oc volume,and reduced the content of total ammonia nitrogen(TAN),nitrite nitrogen(NO_(2)-N)and nitrate nitrogen(NO_(3)-N)in water column(P<0.05).In addition,RAS had similar results with Glu.High throughput sequencing analysis on biofl oc microbial composition demonstrated that glucose supplement shaped the microbial community structure,and increased proportion of potential probiotic bacteria and suppressed pathogenic bacteria growth.Furthermore,we analyzed the relationship between the microbial composition of biofl oc and environmental factors.Canonical correspondence analysis(CCA)indicated that inorganic nitrogen in culture water had great impact on biofl oc microbial composition in NWRe and WRe,whilst the dissolved organic carbon(DOC)modifi ed the microbial community in Glu and RAS.This study shows the advantages of BFT in Artemia culture and provides practical information for applying BFT-RAS in indoor Artemia culture.展开更多
Antarctic krill is the key species of ecological system in the Amundsen Sea.At present,the suitable distribution is unobtainable by scientifi c surveys or data from the fi shery.In this paper,the maximum entropy algor...Antarctic krill is the key species of ecological system in the Amundsen Sea.At present,the suitable distribution is unobtainable by scientifi c surveys or data from the fi shery.In this paper,the maximum entropy algorithm(Maxent)was used to obtain the potential distribution of adult Antarctic krill in order to provide useful information and reasonable reference for the policy on protecting potential krill habitats around the Amundsen Sea.Occurrence points and 17 environmental variables were used to simulate the distributions.Results show that the high and moderate suitable habitats lie between 65°S and 72°S in the Amundsen Sea.The high suitable habitat accounts for 8.1%of the total area of the Amundsen Sea.The sea ice persistence(ICE),total phytoplankton(PHYC),and the minimum value of dissolved iron(Fe_min)are the three dominant contributors to the model.Results from the response curves show that Antarctic krill preferred habitats with ICE of 0.42-0.93,PHYC of 2.48-2.77 mmol/m^(3) and Fe_min of(7.10×10^(-5))-(9.45×10^(-5))mmol/m 3.Positive trends existed in the PHYC of the high and moderate suitable habitat,and a positive trend existed in the Fe_min of moderate suitable habitat.However,the probability of presence of Antarctic krill will decrease if the increase of the PHYC and Fe_min continues.展开更多
The prokaryotic cell storage compound ploy-β-hydroxybutyrate(PHB)has been considered as prebiotics that can be applied in aquaculture.In this paper,the dietary effect of a PHB-accumulating Halomonas strain(HM·PH...The prokaryotic cell storage compound ploy-β-hydroxybutyrate(PHB)has been considered as prebiotics that can be applied in aquaculture.In this paper,the dietary effect of a PHB-accumulating Halomonas strain(HM·PHB)identified from our previous work were studied in Artemia under gnotobiotic and xenic culture conditions,in comparison of Halomonas without PHB accumulation(HM)and microalgae Isochrysis(ISO)feeding.Under gnotobiotic condition,both HM·PHB and HM served as sole food supporting Artemia survival.Although both HM·PHB and HM feeding had no significant difference on Artemia survival percentage(P>0.05),HM·PHB significantly improved their resistance against Vibrio anguillarum challenge(P<0.05).Mass Artemia culture were further performed in xenic condition.Compared to ISO,HM·PHB feeding protected Artemia against V.anguillarum challenge(P<0.05),and HM·PHB and HM feeding resulted in increased T-AOC,pepsin,T-SOD and CAT activities(P<0.05).High throughput sequencing analysis showed that HM·PHB and HM feeding resulted in a lower Artemia gut microbial diversity(P<0.05),and modified the gut microbial community by remarkably reducing the Vibrio proportion.The outcome of the paper confirmed the beneficial effect of Halomonas-PHB in Artemia culture,which supports the use of Halomonas-PHB in the production of bio-secured live feed Artemia.展开更多
Saline lakes are widespread on all continents.Since 1979,an informal international association of salt lake researchers from a variety of disciplines has sponsored a series of triennial conferences to foster scientifi...Saline lakes are widespread on all continents.Since 1979,an informal international association of salt lake researchers from a variety of disciplines has sponsored a series of triennial conferences to foster scientific exchange and our understanding of saline lakes.International Society for Salt Lake Research(ISSLR,www.isslr.org)was founded in 1994 to establish effective liaison between persons interested in any aspect of inland saline waters,to encourage these interests,and to educate the public in the scientific use,management,and conservation of salt lakes.ISSLR conferences are held triennially.The conferences are usually hosted by a local University or research institution and provide an excellent opportunity for networking among globally dispe rsed researchers.展开更多
Deltamethrin(DEL),a commonly used pyrethroid pesticide,results in higher reactive oxygen species(ROS)levels in aquatic animals,which consequently unbalance the redox state.Phlorizin(PHL)is a flavonoid and a natural pr...Deltamethrin(DEL),a commonly used pyrethroid pesticide,results in higher reactive oxygen species(ROS)levels in aquatic animals,which consequently unbalance the redox state.Phlorizin(PHL)is a flavonoid and a natural product promising to prevent or reduce pesticide-induced oxidative stress.Artemia is a micro-crustacean widely used in marine hatcheries and an experimental aquatic organism for environmental toxicology research.This research aimed to evaluate the toxicity of DEL on Artemia and the antioxidative effect of PHL against the toxicity.Results show that 0.08-mg/mL PHL exerted its antioxidative effects on hatching percentage of the cysts in 24-h incubation and on body length and survival rate of Artemia in 12-d culture.After 12-d culture,12-,24-,and 36-h DEL exposure showed significant drops in SOD,CAT,and GSH-Px enzyme activities,and significant increases in ROS and malondialdehyde(MDA)levels in Artemia(P<0.05).On the contrary,0.08-mg/mL PHL application improved the enzyme activities and decreased the ROS and MDA levels(P<0.05).Moreover,0.08-mg/mL PHL significantly increased mRNA expression levels of Cu/Zn SOD,CAT,GST,HO-1,NQO1,and Nrf2,and decreased mRNA expression level of Keap1 in the DEL-exposed Artemia(P<0.05).Therefore,DEL is toxic to Artemia,while PHL alleviates DEL-induced oxidative damage by possibly regulating the Nrf2signaling pathway.This study provided a theoretical basis for PHL to reduce pesticide-induced toxicity in aquatic animals.展开更多
基金Supported by the Program of Sustainable Development and Protection of Artemia Resources in Yuncheng Salt Lake of China(No.YHYJ-2023005)。
文摘Microplastics(MPs)are one of the most concerning pollutants that affects the health and growth of aquatic organisms.We characterized the MPs dispersion in the milli-Q water and seawater,and evaluated the effects of MPs on the gut epithelial cells of brine shrimp using three sizes of polystyrene(PS)microbeads(0.05,0.5,and 5μm,respectively).Results show that microbeads evenly dispersed in milli-Q water,but exhibited aggregation tendency in seawater associating with the particle size.Apart from a reduced survival rate,we observed the structure changes in the gut epithelium that the smaller size of PS microbeads resulted in an increased reactive oxygen species(ROS)and higher apoptosis-related genes expression.Moreover,exposure to all size of PS microbeads led to increased green fluorescence of J-monomer,indicating the declined mitochondrial membrane potential.Therefore,exposure to PS microbeads led to significantly size-dependent toxicity on brine shrimp.Especially,0.05-μm PS microbeads were more toxic,leading to severe oxidative stress and activation of the p53-Bax-Bcl2 pathway,ultimately resulting in cellular apoptosis and gut damage.These findings are important to understand the mechanism of MPs toxicity and its potential ecological risks to marine aquatic animals.
基金Supported by the Yangtze Scholars and Innovative Research Team in University of Ministry of Education of China(No.IRT_17R81)the Project of Agricultural intelligence introduction of Tibet(No.2020WZ006)。
文摘Biofl oc technology(BFT)improves water quality,and productivity of the farmed species through converting ammonium nitrogen to microbial protein,stabilizing microbial community,and reducing the production cost.In this study,a small-scale biofl oc development unit was designed in combination of recirculation system(RAS)for Artemia culture.Artemia growth,water quality,and microbial composition of biofl ocs in RAS were studied in comparison with in-situ batch culture(Glu).Glucose was added in RAS and Glu at C/N ratio of 10.The cultures without glucose addition,but with 50%daily water renewal(WRe)and without water renewal(NWRe)were considered as the controls.Arte mia were cultured at 25℃ and salinity 30 for 24 days and fed formulated feed.The results showed that compared to the controls,Glu signifi cantly improved the Artemia biomass,increased the biofl oc volume,and reduced the content of total ammonia nitrogen(TAN),nitrite nitrogen(NO_(2)-N)and nitrate nitrogen(NO_(3)-N)in water column(P<0.05).In addition,RAS had similar results with Glu.High throughput sequencing analysis on biofl oc microbial composition demonstrated that glucose supplement shaped the microbial community structure,and increased proportion of potential probiotic bacteria and suppressed pathogenic bacteria growth.Furthermore,we analyzed the relationship between the microbial composition of biofl oc and environmental factors.Canonical correspondence analysis(CCA)indicated that inorganic nitrogen in culture water had great impact on biofl oc microbial composition in NWRe and WRe,whilst the dissolved organic carbon(DOC)modifi ed the microbial community in Glu and RAS.This study shows the advantages of BFT in Artemia culture and provides practical information for applying BFT-RAS in indoor Artemia culture.
基金Supported by the Impact and Response of Antarctic Seas to Climate Change from Polar Research Institute of China(No.RFSOCC2020-2022-No.18)the National Science Foundation of Tianjin(No.19JCZDJC40600)the National Natural Science Foundation of China(No.42176198)。
文摘Antarctic krill is the key species of ecological system in the Amundsen Sea.At present,the suitable distribution is unobtainable by scientifi c surveys or data from the fi shery.In this paper,the maximum entropy algorithm(Maxent)was used to obtain the potential distribution of adult Antarctic krill in order to provide useful information and reasonable reference for the policy on protecting potential krill habitats around the Amundsen Sea.Occurrence points and 17 environmental variables were used to simulate the distributions.Results show that the high and moderate suitable habitats lie between 65°S and 72°S in the Amundsen Sea.The high suitable habitat accounts for 8.1%of the total area of the Amundsen Sea.The sea ice persistence(ICE),total phytoplankton(PHYC),and the minimum value of dissolved iron(Fe_min)are the three dominant contributors to the model.Results from the response curves show that Antarctic krill preferred habitats with ICE of 0.42-0.93,PHYC of 2.48-2.77 mmol/m^(3) and Fe_min of(7.10×10^(-5))-(9.45×10^(-5))mmol/m 3.Positive trends existed in the PHYC of the high and moderate suitable habitat,and a positive trend existed in the Fe_min of moderate suitable habitat.However,the probability of presence of Antarctic krill will decrease if the increase of the PHYC and Fe_min continues.
基金Supported by the Tianjin Innovation Research Project for Postgraduate Students(No.2021 YJSS 047)。
文摘The prokaryotic cell storage compound ploy-β-hydroxybutyrate(PHB)has been considered as prebiotics that can be applied in aquaculture.In this paper,the dietary effect of a PHB-accumulating Halomonas strain(HM·PHB)identified from our previous work were studied in Artemia under gnotobiotic and xenic culture conditions,in comparison of Halomonas without PHB accumulation(HM)and microalgae Isochrysis(ISO)feeding.Under gnotobiotic condition,both HM·PHB and HM served as sole food supporting Artemia survival.Although both HM·PHB and HM feeding had no significant difference on Artemia survival percentage(P>0.05),HM·PHB significantly improved their resistance against Vibrio anguillarum challenge(P<0.05).Mass Artemia culture were further performed in xenic condition.Compared to ISO,HM·PHB feeding protected Artemia against V.anguillarum challenge(P<0.05),and HM·PHB and HM feeding resulted in increased T-AOC,pepsin,T-SOD and CAT activities(P<0.05).High throughput sequencing analysis showed that HM·PHB and HM feeding resulted in a lower Artemia gut microbial diversity(P<0.05),and modified the gut microbial community by remarkably reducing the Vibrio proportion.The outcome of the paper confirmed the beneficial effect of Halomonas-PHB in Artemia culture,which supports the use of Halomonas-PHB in the production of bio-secured live feed Artemia.
基金supported by the State Assignment of the Ministry of Science and Higher Education of the Russian Federation(No.0287-2021-0019)。
文摘Saline lakes are widespread on all continents.Since 1979,an informal international association of salt lake researchers from a variety of disciplines has sponsored a series of triennial conferences to foster scientific exchange and our understanding of saline lakes.International Society for Salt Lake Research(ISSLR,www.isslr.org)was founded in 1994 to establish effective liaison between persons interested in any aspect of inland saline waters,to encourage these interests,and to educate the public in the scientific use,management,and conservation of salt lakes.ISSLR conferences are held triennially.The conferences are usually hosted by a local University or research institution and provide an excellent opportunity for networking among globally dispe rsed researchers.
基金the Key Laboratory of Marine Resource Chemistry and Food Technology(TUST)the Ministry of Education(No.EMTUST-21-08)the Guilin Science and Technology Project(No.20210225-4)。
文摘Deltamethrin(DEL),a commonly used pyrethroid pesticide,results in higher reactive oxygen species(ROS)levels in aquatic animals,which consequently unbalance the redox state.Phlorizin(PHL)is a flavonoid and a natural product promising to prevent or reduce pesticide-induced oxidative stress.Artemia is a micro-crustacean widely used in marine hatcheries and an experimental aquatic organism for environmental toxicology research.This research aimed to evaluate the toxicity of DEL on Artemia and the antioxidative effect of PHL against the toxicity.Results show that 0.08-mg/mL PHL exerted its antioxidative effects on hatching percentage of the cysts in 24-h incubation and on body length and survival rate of Artemia in 12-d culture.After 12-d culture,12-,24-,and 36-h DEL exposure showed significant drops in SOD,CAT,and GSH-Px enzyme activities,and significant increases in ROS and malondialdehyde(MDA)levels in Artemia(P<0.05).On the contrary,0.08-mg/mL PHL application improved the enzyme activities and decreased the ROS and MDA levels(P<0.05).Moreover,0.08-mg/mL PHL significantly increased mRNA expression levels of Cu/Zn SOD,CAT,GST,HO-1,NQO1,and Nrf2,and decreased mRNA expression level of Keap1 in the DEL-exposed Artemia(P<0.05).Therefore,DEL is toxic to Artemia,while PHL alleviates DEL-induced oxidative damage by possibly regulating the Nrf2signaling pathway.This study provided a theoretical basis for PHL to reduce pesticide-induced toxicity in aquatic animals.
