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《Water Biology and Security》

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Freshwater snail and shrimp differentially affect water turbidity and benthic primary producers
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作者 Yulun Guo Peiyu Zhang +1 位作者 Jianlin Chen Jun Xu 《Water Biology and Security》 2022年第1期34-40,共7页
Benthic macroinvertebrates play key roles in shallow aquatic ecosystems and can contribute substantially to aquatic food webs.However,how macroinvertebrates with different behaviors(for example,pertaining to locomotio... Benthic macroinvertebrates play key roles in shallow aquatic ecosystems and can contribute substantially to aquatic food webs.However,how macroinvertebrates with different behaviors(for example,pertaining to locomotion,foraging and burrowing)impact water quality and primary producers has not been fully explored.Here,we performed two consecutive microcosm experiments to test the effects of(1)macroinvertebrates with different behaviors(a low mobility scraper aquatic snail Bellamya aeruginosa and a high mobility shredder freshwater shrimp Macrobrachium nipponense)and(2)different shrimp biomasses on water clarity and the composition of benthic primary producers.The results showed that presence of snails significantly increased the biomass of filamentous green algae and decreased the biomass of periphyton.In contrast,presence of shrimp significantly decreased the biomass of filamentous green algae and increased the biomass of periphyton,and these effects were biomass dependent.Filamentous green algae disappeared when shrimp biomass reached 9.8 g m^(-2).No interactive effects of snail and shrimp presence were found.This could be attributed to different food preferences by the two consumers,with snails preferring periphyton(mainly diatoms)and shrimp preferring filamentous green algae.The presence of snails decreased water turbidity,while shrimp increased water turbidity,which showed a hump-shaped response to shrimp biomass with a peak at 24.2 g m^(-2).These results are likely because the snail is a low mobility grazer and can filter suspended particles,while the shrimp is a high mobility shredder with burrows,which can strongly disturb sediment.The decrease in water disturbance at high shrimp biomass might be due to food limitation,thus reducing burrowing and foraging activities.Neither snail nor shrimp affected the biomass of H.verticillata,while the biomass of V.spinulosa increased with shrimp biomass.The reason for this could be that shrimp increased nutrient availability and decreased the growth of filamentous green algae that compete with macrophytes.Our study demonstrated that different macroinvertebrates have complementary functions in benthic habitats;thus,maintaining macroinvertebrate diversity is important for shallow aquatic ecosystems.Furthermore,the freshwater shrimp M.nipponense could be a potential consumer to control filamentous green algal blooms in its native range,but their biomass should be taken into consideration. 展开更多
关键词 Aquatic plant ZOOBENTHOS Filamentous algae MACROINVERTEBRATE MACROPHYTE PERIPHYTON Trophic interaction Water turbidity
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Interactive effects of warming and eutrophication on zooplankton could reverse the stoichiometric mismatch with phytoplankton
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作者 Konghao Zhu Huan Zhang +7 位作者 Peiyu Zhang Panpan Wang Hailu Li Mingjun Feng Huan Wang Hongxia Wang Min Zhang Jun Xu 《Water Biology and Security》 2023年第4期45-52,共8页
The core ecosystem functioning(e.g.trophic transfer efficiency)is at risk of being disrupted by the growing mismatch between nutrient content of primary producers and nutrient demand of grazing consumers.Ecological st... The core ecosystem functioning(e.g.trophic transfer efficiency)is at risk of being disrupted by the growing mismatch between nutrient content of primary producers and nutrient demand of grazing consumers.Ecological stoichiometry provides a conceptual framework that explains this trophic interaction using C,N and P elemental composition across trophic levels.In light of ongoing climate change and eutrophication,previous studies have raised concerns regarding the growing stoichiometric mismatch between phytoplankton and zooplankton,given the stoichiometric plasticity of phytoplankton.However,there is currently little conclusive evidence on the stoichiometric mismatch from a dual perspective of phytoplankton and zooplankton.To address this,we conducted a mesocosm experiment to investigate the separate and combined effects of climate warming(a constant increase of t3.5C plus heat waves)and eutrophication(nutrient addition)on stoichiometric mismatch between phytoplankton and zooplankton by examining stoichiometric changes in both communities.We observed a growing trend in stoichiometric mismatches when warming or nutrient addition acted individually,which was mediated by the increase in nutrient demand(N,P elements)of zooplankton growth.However,when these stressors acted jointly,the mismatches were reversed.This could be because climate warming and eutrophication combined would lead to changes in species composition,which accordingly reshaped the stoichiometric composition at the community level.These results illustrate the need of stoichiometric mismatches for understanding the implication of global change on trophic interactions and ecosystem functioning,requiring consideration not only of cross-trophic levels but also of compositional changes within communities. 展开更多
关键词 Climate warming Ecological stoichiometry EUTROPHICATION Stoichiometric mismatch Trophic interaction
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Corrigendum
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《Water Biology and Security》 2024年第1期87-87,共1页
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Fish diversity reduction and assemblage structure homogenization in lakes:A case study on unselective fishing in China
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作者 Han Liu Yushun Chen +7 位作者 Rodolphe E.Gozlan Xiao Qu Wentong Xia Fei Cheng Lizhu Wang Craig P.Paukert Julian D.Olden Songguang Xie 《Water Biology and Security》 2022年第3期43-50,共8页
Unselective fishing involves activities that target the entire assemblage rather than specific fish species,size classes,or trophic levels.This common fishing approach has been in practice for decades in inland waters... Unselective fishing involves activities that target the entire assemblage rather than specific fish species,size classes,or trophic levels.This common fishing approach has been in practice for decades in inland waters in China but its implications for biodiversity remain unclear.We addressed this issue by studying fish assemblages in freshwater lakes(five fishing lakes,one reference lake,and a total of 51 sampling sites)between pre-and postfishing time-periods in Eastern China during 2017–2019.The effects of lake,fishing period,and their interactions on fish abundance,biomass,and diversity indices were assessed.Multivariate analysis was conducted to test for differences in fish assemblages among lakes and between fishing periods.After the implementation of fishing activities,significant reductions in fish species richness,abundance,biomass,and all three life-history strategies(opportunistic,equilibrium,and periodic)were observed in fishing lakes,whereas opposite trends were observed in the reference lake.Compositional similarity of fish assemblages among fishing lakes increased over the threeyear monitoring period.Our results suggest that unselective fishing reduces fish diversity and homogenizes fish assemblage structure in lakes.These findings have important implications for protecting both biodiversity and fisheries in inland waters in China and are applicable to other countries or regions that rely on fish as a major food source. 展开更多
关键词 Biodiversity conservation Human stressors Inland fisheries Over exploitation SUSTAINABILITY Beta diversity
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Mine tailings storage dams modify upstream headwater fish assemblages
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作者 Gilberto N.Salvador Robert M.Hughes +2 位作者 Fabio Vieira Raphael Ligeiro Luciano F.A.Montag 《Water Biology and Security》 2023年第2期32-42,共11页
Riverscape connectivity is a critically important component determining the ecological condition of lotic ecosystems.We evaluated changes in fish assemblages caused by the loss of connectivity by mine tailings storage... Riverscape connectivity is a critically important component determining the ecological condition of lotic ecosystems.We evaluated changes in fish assemblages caused by the loss of connectivity by mine tailings storage dams(TSDs),hypothesizing that headwater fish assemblages are restructured by TSDs located downstream,even though the upstream habitats are not altered.We used standard methods to collect fish in 24 first to third order sites,with half draining to TSDs(dammed)and the other half free from this impact(undammed).To identify differences between treatments,we used PERMANOVA to test both environmental variables and ichthyofauna composition(Bray-Curtis similarity index)and evaluated the biological metrics that most influenced assemblage composition change.As expected,we observed no difference between treatments for environmental variables,but we did observe differences in fish assemblage composition.We also observed five metrics with lower values in dammed streams(richness and abundance of intolerant species,siluriform richness,and abundance of Pareiorhaphis cf.proskynita and Trichomycterus brasiliensis)and two metrics with higher values in dammed streams(perciform richness and abundance of Oligosarcus argenteus).We believe these changes resulted from of stream fragmentation by TSDs,in addition to source-sink mechanisms and conclude that mine TSDs located downstream change headwater fish assemblages,an impact often neglected in biomonitoring and bioassessment studies. 展开更多
关键词 Habitat fragmentation Source-sink dynamics Iron ore mining Rio Doce basin
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Identification of two pIgR-like molecules in teleost fish with opposite roles in mucosal immunity against bacterial infection
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作者 Haoyue Xu Zixuan Wang +4 位作者 Zhenyu Huang Xiaoyun Chen Ruiqi Lin Yongyao Yu Zhen Xu 《Water Biology and Security》 2023年第4期101-115,共15页
Polymeric immunoglobulin(Ig)receptor-like(pIgRL)molecules have been identified in teleost fish.However,compared to functional studies of their related genes(e.g.,mammalian CD300 family)in eliminating pathogen invasion... Polymeric immunoglobulin(Ig)receptor-like(pIgRL)molecules have been identified in teleost fish.However,compared to functional studies of their related genes(e.g.,mammalian CD300 family)in eliminating pathogen invasion while preserving homeostasis,the roles of pIgRL in teleost fish remain unclear.In this study,we demonstrated that a pair of pIgRL molecules in zebrafish,pIgRL3.5 and pIgRL4.2,were highly expressed in the intestine and immune cells.Moreover,we constructed an Edwardsiella piscicida infection model,which induced strong inflammatory responses in the zebrafish intestine.Interestingly,pIgRL3.5 and pIgRL4.2 exhibited opposite inducible expression patterns in response to bacterial infection,suggesting that they perform different roles.More importantly,by conducting overexpression and knockdown experiments,our findings demonstrated that zebrafish pIgRL3.5 played a protective role in host defense against E.piscicida infection by inhibiting excessive inflammatory responses.In contrast,pIgRL4.2 facilitated pathogen growth and dissemination in zebrafish intestine.Collectively,our findings are the first to demonstrate that a pair of pIgRL molecules in teleost fish play opposite roles in mucosal immune response to bacterial infection.Therefore,our results provide crucial insights into the conserved role of pIgRL molecules in immune regulatory functions throughout vertebrate evolution. 展开更多
关键词 pIgR-like Mucosal immunity Edwardsiella piscicida Inflammatory response ZEBRAFISH
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Effects of environmentally relevant concentrations of micro(nano)plastics on aquatic microorganisms:Changes in potential function but not in overall composition
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作者 Zhenlu Wang Xianghong Dong +3 位作者 Muzi Zhang Lei Gan Jian Shao Weiling Sun 《Water Biology and Security》 2024年第1期37-45,共9页
Micro(nano)plastics(MNPs)are a growing problem as persistent environmental pollutants.Here,we investigated the impact of MNPs on microorganisms in aquatic microbial floc exposed to NPs(80 nm)and MPs(8μm)for 35 days.W... Micro(nano)plastics(MNPs)are a growing problem as persistent environmental pollutants.Here,we investigated the impact of MNPs on microorganisms in aquatic microbial floc exposed to NPs(80 nm)and MPs(8μm)for 35 days.Water quality indicators were tested weekly and microbiological analyses were conducted on Day 7 and 28 after exposure.The results showed that there were significant differences in the levels of total ammonia nitrogen or nitrite between the MNPs groups and the control group,spanning from Day 7 to Day 28.For the microbial response,microbial community richness in the NPs and MPs groups were significantly increased at Day 7.Functional prediction showed that the relative abundances of bacteria associated with the“Forms Biofilms”,“Potentially Pathogenic”,“Plastic Degradation”and nitrogen cycle processes were significantly different after MNPs exposure.The results suggest that MNPs had no significant effect on the microbial diversity of mature microbial flocs.Findings suggest MPs could cause an increase in the relative abundance of potentially pathogenic bacteria,while NPs do not.In addition,stress associated with MNPs affected the nitrogen cycle of microorganisms,and NPs exerted greater impacts than MPs.Findings from this study further our understanding of the impact of MNPs at environmentally relevant concentrations on microorganisms in aquatic ecosystems. 展开更多
关键词 NANO-PLASTICS Micro-plastics Aquatic microorganism Pathogenic bacteria Nitrogen cycle
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Water transfer determines the regional spread dynamics of non-native fish species
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作者 Jiao Qin Bjorn Victor Schmidt +2 位作者 Lei Zhang Fei Cheng Songguang Xie 《Water Biology and Security》 2023年第2期73-79,共7页
Interbasin water transfer projects(IBWT's)have emerged as dispersal corridors for aquatic species.However,little is known about how water transfer affects regional spread dynamics,or shapes the genetic diversity p... Interbasin water transfer projects(IBWT's)have emerged as dispersal corridors for aquatic species.However,little is known about how water transfer affects regional spread dynamics,or shapes the genetic diversity patterns of non-native populations.Shimofuri Goby Tridentiger bifasciatus is a globally introduced fish species with many wellestablished populations in IBWT's.Here,we used nuclear microsatellites to assess the genetic diversity and population structure of the Shimofuri Goby in its native and introduced sites belonging to two IBWT's in China.Our objectives were to(1)reveal the genetic diversity patterns of the Shimofuri Goby during regional spread,and(2)identify its mode of spreading in water transfer systems.We observed(1)a high level of genetic diversity in non-native populations without evidence of bottleneck effects,(2)that non-native populations with a longer water transfer times had a higher private allele richness,and(3)that non-native populations showed a highly mixed genetic structure,low level of genetic differentiation,and no significant relationship between geographical and genetic distances.Our results indicate that the genetic patterns of diversity of non-native populations are mainly shaped by a linear cascade spread processes due to long-distance movement of larvae,and are probably related to propagule pressure caused by the construction of water transfer.To manage the non-native populations of T.bifasciatus,preventive actions and physical removal should be implemented in IBWT's. 展开更多
关键词 Biological invasions Water diversion Propagule pressure Dispersal South-to-North water transfer Tridentiger bifasciatus
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Improved genome assembly of Chinese sucker(Myxocyprinus asiaticus)provides insights into the identification and characterization of pharyngeal teeth related maker genes in Cyprinoidei
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作者 Xin Liu Honghui Zeng +4 位作者 Cheng Wang Jing Bo Xiaoni Gan Chengchi Fang Shunping He 《Water Biology and Security》 2022年第3期18-27,共10页
The Chinese sucker,Myxocyprinus asiaticus(M.asiaticus,Catostomidae,Cypriniformes),is the only living species of Catostomidae in Asia.There are more than 75 species of this family in North America.The fossil record of ... The Chinese sucker,Myxocyprinus asiaticus(M.asiaticus,Catostomidae,Cypriniformes),is the only living species of Catostomidae in Asia.There are more than 75 species of this family in North America.The fossil record of this group dates back to the early Eocene.As the Chinese sucker is located at the base of the Cyprinoidei phylogeny,this species is also important in clarifying the evolutionary relationships within Cyprinoidei.Here,we assembled a high-quality genome of the Chinese sucker,contig N50(40.26 Mb),which is nearly ten times longer than the previous version(4.19 Mb).Phylogenetic analysis identified that Chinese sucker together with Cyprinidae groups are paraphyletic with respect to Cobitoidea.The specific whole genome duplication event of the Chinese sucker was estimated to have occurred~25.9 million years ago.Analysis of population historical changes indicated a trend of reduction for the Chinese sucker and T.tibetana.Since Dlx genes play a key role in Cypriniformes pharyngeal teeth development,we conducted a genome-wide identification of Dlx genes,and found that these genes were doubled in whole genome duplication events,followed by the loss of specific copies.Transcriptome results showed that the expression levels of these paralogous genes were similar.This genomic resource provides useful information for the protection of Chinese sucker and functional study of Dlx genes. 展开更多
关键词 Chinese sucker Catostomidae Genome assembly Genome duplication Dlx gene
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Diet variability of snappers(Teleostei:Lutjanidae)in a bay-to-reef ecosystem of the Mexican Caribbean
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作者 Leon Felipe Martínez-Juarez Juan J.Schmitter-Soto +1 位作者 Nancy Cabanillas-Teran Norman Mercado-Silva 《Water Biology and Security》 2024年第1期53-59,共7页
Fishes use environmental resources differently.Snapper ontogenic movements among coastal habitats lead to diverse diets.We investigated the diets of seven snapper species(Lutjanus apodus,L.analis,L.griseus,L.jocu,L.ma... Fishes use environmental resources differently.Snapper ontogenic movements among coastal habitats lead to diverse diets.We investigated the diets of seven snapper species(Lutjanus apodus,L.analis,L.griseus,L.jocu,L.mahogoni,L.synagris,and Ocyurus chrysurus)in three interconnected coastal environments in the western Caribbean:Río Huach channel,Chetumal/Corozal bay,and the adjacent Xcalak reef lagoon.These three encompass all habitats used by the seven species in the study area.Snapper diets were mostly composed of fish and crustaceans,but dominance of either group varied among the studied habitats;for example,fish were the main prey for L.apodus from the reef lagoon zone,but second in the bay.Snappers are piscivorous-invertivorous mesopredators;the species that relied the most on fishes were L.griseus and L.jocu,whereas O.chrysurus preferred crustaceans.Stomach content results revealed a high degree of dietary overlap among species.Our findings suggested a tradeoff in relative weight between fish and crustaceans as the main food source of snappers at these connected areas,supporting the hypothesis of niche segregation.Our results can be used as a baseline to further our understanding of the ecology and differences in resource use by snapper species in an area undergoing important anthropogenic changes. 展开更多
关键词 Resource partitioning Chetumal/Corozal bay Quintana Roo Trophic ecology
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Behavioral responses to spatial heterogeneity in endangered Ganges River dolphins(Platanista gangetica gangetica)
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作者 Shambhu Paudel John L.Koprowski +2 位作者 Usha Thakuri Yukiko Sasaki-Yamamoto Shiro Kohshima 《Water Biology and Security》 2022年第3期67-76,共10页
Globally,the threat of endangerment and extinction of small cetaceans was highlighted after the recent extinction of the Chinese River dolphin or Baiji(Lipotes vexillifer).Species with a small population size and a li... Globally,the threat of endangerment and extinction of small cetaceans was highlighted after the recent extinction of the Chinese River dolphin or Baiji(Lipotes vexillifer).Species with a small population size and a limited geographic range,such as Ganges River dolphins(GRD),are more vulnerable to extinction.The social and behavioral needs of cetaceans have been identified as potential factors increasing their vulnerability to human disturbance.However,little is known about how GRD adapt their behaviors and diel activity patterns to spatiotemporal variation.In this paper,we examined the underwater behavior of GRDs in Nepal by collecting echolocation clicks from three spatially stratified habitats in the Sapta Koshi River system over a six-month period.Our research found that GRDs behave differently in response to spatial heterogeneity,indicating diverse environmental requirements for GRD persistence.Behavioral activity and duration varied across habitats but not across time of day,suggesting that GRD behaviors are likely to be regulated by habitat structure regardless of the time of day.However,GRD consistently exhibited nocturnal activity peaks even when diurnal activity varied substantially.This indicates that river dolphins may favor nocturnal refuges as a reaction to human disturbance in highly regulated rivers.Managing human disturbances in conjunction with habitat heterogeneity can improve the persistence of riverine cetaceans.Here,we document behavioral and ecological information pertaining to GRD,which is essential to the formation of river dolphin recovery plans that link ecological perspectives to planning and management. 展开更多
关键词 Ganges river dolphin BEHAVIOR ACOUSTIC ECOLOGY Nepal
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Transcriptional profiles in zebrafish atp7a mutants and responses of atp7a mutants to Cu stress
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作者 You Wu Wenye Liu +2 位作者 Lingya Li Zhipeng Tai Jing-Xia Liu 《Water Biology and Security》 2023年第3期87-97,共11页
As a copper(Cu)transport ATPase,ATP7A plays an important role in maintaining Cu homeostasis in the body,but the developmental and physiological roles of atp7a in zebrafish embryogenesis are rarely studied.In this stud... As a copper(Cu)transport ATPase,ATP7A plays an important role in maintaining Cu homeostasis in the body,but the developmental and physiological roles of atp7a in zebrafish embryogenesis are rarely studied.In this study,normal morphological phenotypes of atp7a^(−/−)homozygous zebrafish were observed at both embryonic and adult stages,however,atp7a^(−/−)larvae exhibited delayed touch response and obvious transcriptome changes.Compared with the WT(wild type),differentially expressed genes(DEGs)in atp7a^(−/−)larvae showed the enrichment in gene ontology(GO)terms related to several processes including ATPase activity,oxidoreductase activity,active transmembrane transporter activity,ion binding,and the citrate cycle.Furthermore,decreases in both ATP content and Na+/K+-ATPase activity in atp7a^(−/−)embryos and larvae were unveiled.57 overlapping DEGs were found both in WT stressed with Cu and in WT mutated with atp7a,and GO term analysis indicated the enrichment in the genes related to neurexin family protein binding and neuronal cell-cell adhesion.Moreover,42 overlapping DEGs in Cu stressed WT and Cu stressed atp7a^(−/−)were identified.GO term analysis showed an enrichment in the genes related to heme binding,implying that Cu was independent of the integral function of atp7a to affect heme binding.In addition,genes involved in the negative regulation of angiogenesis were down-regulated in atp7a^(−/−)mutants with and without Cu stress,which failed to occur in WT,implying that the integral function of atp7a is required for maintaining the normal expression of angiogenesis genes.The integrative data in this study demonstrated that atp7a is required for ion transport and angiogenesis,and for Cu-induced neurexin family protein binding defects,rather than for Cu-induced heme binding defects,during zebrafish embryogenesis.These findings provide possible clues for human diseases with ATP7A dysfunction and imbalanced Cu homeostasis. 展开更多
关键词 ANGIOGENESIS ATP7A Cu stress Heme binding Ion transport Neurexin family protein binding
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A review of potential conservation and fisheries benefits of breaching four dams in the Lower Snake River(Washington,USA)
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作者 Adam J.Storch Howard A.Schaller +9 位作者 Charles E.Petrosky Robert L.Vadas Jr. Benjamin J.Clemens Gary Sprague Norman Mercado-Silva Brett Roper Michael J.Parsley Edward Bowles Robert M.Hughes Jay A.Hesse 《Water Biology and Security》 2022年第2期10-22,共13页
Abundances of important and imperiled fishes of the Snake River Basin continue to decline.We assessed the rationale for breaching the four lower Snake River Basin dams to prevent complete loss of these fishes,and to m... Abundances of important and imperiled fishes of the Snake River Basin continue to decline.We assessed the rationale for breaching the four lower Snake River Basin dams to prevent complete loss of these fishes,and to maximize their likelihood of recovery.We summarize the science surrounding Sockeye Salmon(Oncorhynchus nerka),Chinook Salmon(O.tshawytscha),steelhead(O.mykiss),Bull Trout(Salvelinus confluentus),White Sturgeon(Acipenser transmontanus),and Pacific Lamprey(Entosphenus tridentatus).From this,we drew ten conclusions:(1)development of the Columbia River System(including the Snake River Basin)has converted mainstem rivers into reservoirs,altering fish behavior and survival;(2)most populations currently record their lowest abundance;(3)the Columbia River System dams reduce productivity of diadromous fishes in the highest-quality spawning grounds that could buffer against future climate dynamics;(4)past actions have done little to reduce impacts or precipitate recovery;(5)the Columbia River System constrains survival and productivity of salmon,steelhead and Bull Trout;(6)Snake River Basin salmon and steelhead remain at high extinction risk;(7)eliminating migration impediments and improving mainstem habitats are essential for maintaining genetic diversity and improving Bull Trout persistence;(8)the lower Snake River Basin dams preclude passage of adult White Sturgeon,constraining gene flow and recruitment;(9)the lower Snake River Basin dams impede dramatically passage of adult and juvenile Pacific Lamprey,and(10)Snake River Basin Pacific Lamprey is at high risk of extirpation.Breaching the four lower Snake River Basin dams is an action likely to prevent extirpation and extinction of these fishes.Lessons from the Columbia River System can inform conservation in other impounded rivers. 展开更多
关键词 Bull trout IMPOUNDMENT Pacific lamprey SALMON STEELHEAD White sturgeon
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Successful transplantation of cryopreserved spermatogonia in Sebastes schlegelii:A simple and suitable alternative approach for conservation of viviparous fish
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作者 Li Zhou Xueying Wang +5 位作者 Shuran Du Shihong Xu Yanfeng Wang Zongcheng Song Qinghua Liu Jun Li 《Water Biology and Security》 2023年第3期75-86,共12页
Black rockfish(Sebastes schlegelii)is one of the most important marine economic viviparous fishes.Recently,germplasm degradation and genetic diversity reduction have occurred due to overfishing and long-term artificia... Black rockfish(Sebastes schlegelii)is one of the most important marine economic viviparous fishes.Recently,germplasm degradation and genetic diversity reduction have occurred due to overfishing and long-term artificial breeding.Germ cell transplantation combined with cryopreservation may be an alternative way to protect genetic resources.However,in viviparous fish that undertake fertilization and embryo development in vivo,transplantation is more difficult than in oviparous fish,including selection of transplantation stage,isolation of germ stem cells,and preparation of sterile recipients.This seriously restricts the development of viviparous transplantation.Therefore,in this study,we aimed to explore a transplantation method suitable for these species.Donor cells were isolated from cryopreserved whole testes of 300–400​g male Sebastes schlegelii in May,labeled by PKH26,and intra-peritoneally transplanted into allogeneic larvae at 5–10 days post-birth.Subsequently,the development of donor-derived cells in recipients were continuously detected by fluorescence labeling,histology,microsatellite markers,and fecundity tests.The results showed that donors were rich in spermatogonia(75%)and recipients maintained a high survival rate after transplantation,with a rate of>20%at sexual maturity.Further,donor-derived cells successfully migrated(100%),colonized,and incorporated into the developing recipient gonad(93.33%).Finally,transplanted recipients could normally develop and differentiate into male and female individuals,with donor-derived gametes found in 65.38%of mature recipients.In the present study,we first establish a simple and suitable transplantation method for Sebastes schlegelii using immature males and specific larvae,which will serve as a promising tool in the protection of germplasm resources for this transplantation-restricted marine viviparous species. 展开更多
关键词 Allogeneic transplantation SPERMATOGONIA Sebastes schlegelii Germ cells GERMPLASM
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Physical habitat condition as a key tool to maintain freshwater biodiversity in neotropical artificial ponds
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作者 Marden S.Linares Livia B.dos Santos +1 位作者 Marcos Callisto Jean C.Santos 《Water Biology and Security》 2023年第3期30-35,共6页
In areas highly affected by anthropogenic disturbances,artificial(human-made)freshwater ecosystems can provide habitat for maintaining and conserving regional freshwater biodiversity.We assessed how the physical habit... In areas highly affected by anthropogenic disturbances,artificial(human-made)freshwater ecosystems can provide habitat for maintaining and conserving regional freshwater biodiversity.We assessed how the physical habitat of artificial ponds affected the structure of benthic macroinvertebrate assemblages.To do so,we tested two hypotheses.(1)Physical habitat disturbances are not detrimental to the diversity of nearby artificial ponds,and(2)Physical habitat disturbances do not cause significant shifts in taxonomic composition.Our results rejected both null hypotheses,i.e.,macroinvertebrate diversity metrics correlated significantly and positively with Physical Habitat Integrity index scores,and only sites with high habitat condition scores were significantly associated with sensitive indicator taxa.Our results highlight the importance of maintaining physical habitat conditions for sustaining the ecological health of artificial ponds. 展开更多
关键词 BIOINDICATORS Ecosystem management Lentic ecosystems
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Bio-ecological remediation of freshwater aquaculture environments:A systematic review and bibliometric analysis
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作者 Qiaohong Zhou Kaixuan Wu +5 位作者 Lu Yao Ruonan Chen Shouzhuang Liu Hao Xing Linmei Nie Zhenbin Wu 《Water Biology and Security》 2024年第1期11-22,共12页
Freshwater aquaculture plays an important role in the global aquaculture industry.The success of freshwater aquaculture relies on the integration of bio-ecological remediation technologies to ensure its sustainable de... Freshwater aquaculture plays an important role in the global aquaculture industry.The success of freshwater aquaculture relies on the integration of bio-ecological remediation technologies to ensure its sustainable development.This paper systematically reviews the global literatures on bio-ecological remediation of freshwater aquaculture environments from 1990 to 2021,and discusses in detail the research progress and status quo in this field using both bibliometric analysis and content analysis.Our results indicate that the number of publications per year has increased year by year,with a particularly rapid increase after 2015.Institutions and researchers from China and the USA publish the greatest number of papers and contribute the most to this field.By analyzing the research progress in this field,we also find that the protection and restoration of freshwater aquaculture environments has received attention since as early as 1990,such as the application of constructed wetlands and recirculating aquaculture systems.Recently,researchers have increasingly focused on the use of microbial communities in remediation.Furthermore,vanRijn,J's papers are of great value to the research in this field.In content analysis,the application of primary technologies,including plant selection,aquatic animals,microorganisms,and biological filtration and purification equipment,as well as ecological engineering technologies with combinations of various types of organisms,is described to improve the effectiveness and efficiency of remediation.The performance,advantages,disadvantages,or limitations and prospects of these technology applications are analyzed in detail.By comparison,ecological engineering is shown to be the best remediation technology,being most comprehensive,and well-established.Taken together,this paper composes and summarizes existing work in this field,and provides guidance for future research on the improvement of existing technologies and the development of new technologies,with the aim of enhancing remediation capability,improving ecological sustainability and ensuring economic viability. 展开更多
关键词 Freshwater aquaculture environment Bio-ecological remediation technology Systematic review Bibliometric analysis Content analysis
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Plastic effects on marine and freshwater environments
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作者 Fabiula Danielli Bastos de Sousa 《Water Biology and Security》 2024年第1期23-27,共5页
In the 1930s,plastic items started to acquire popularity.Since then,they have overcome many barriers and are now important to many facets of society.Post-consumer plastic,however,is an environmental problem of increas... In the 1930s,plastic items started to acquire popularity.Since then,they have overcome many barriers and are now important to many facets of society.Post-consumer plastic,however,is an environmental problem of increasing concern.Marine and freshwater environments are being impaired by plastic pollution,which is mostly the result of improper post-use plastic disposal.Herein I review recent literature on plastic effects to marine and freshwater environments,based on a Scopus search.Authors'keywords were analyzed and mapped.Results depicted microplastics as a global concern for the environment,animals,and human health,and was identified as a primary research focus and emerging topic concerning plastic effects on marine and freshwater environments.The foremost research gap is the lack of clear connections between the effects of plastic on human health,animal health,and the environment.Water pollution and its consequences on marine and freshwater environments are attributed primarily to human activity. 展开更多
关键词 Bibliometric analysis Bibliometric mapping Microplastics POLLUTION
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Acknowledgement of reviewers who reviewed for Water Biology and Security in 2022
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《Water Biology and Security》 2023年第2期104-105,共2页
On behalf of our Editors-in-Chief,Professor Jian-Fang Gui and Professor Robert M.Hughes and the editorial team,we warmly thank all the individuals who dedicated their considerable time and expertise to this journal by... On behalf of our Editors-in-Chief,Professor Jian-Fang Gui and Professor Robert M.Hughes and the editorial team,we warmly thank all the individuals who dedicated their considerable time and expertise to this journal by serving as reviewers in 2021 and 2022.Their generous contribution is deeply appreciated.Water Biology and Security cannot publish high quality papers rapidly without these contributors.Therefore,we will publicly acknowledge all reviewers annually. 展开更多
关键词 KNOWLEDGE INDIVIDUAL annually
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Tropical and subtropical streams:A synthesis
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作者 Robert M.Hughes Paulo Santos Pompeu +2 位作者 Marcos Callisto Kai Chen Leandro Juen 《Water Biology and Security》 2023年第3期102-104,共3页
Tropical and sub-tropical streams harbor great biodiversity and are responsible for crucial ecosystem services.Intending to contribute to the understanding of how anthropogenic stressors and pressures alter functional... Tropical and sub-tropical streams harbor great biodiversity and are responsible for crucial ecosystem services.Intending to contribute to the understanding of how anthropogenic stressors and pressures alter functional or taxonomic diversity in biotic assemblages or processes in these systems,Water Biology and Security published eight papers.The research originated from Cameroon(Central Africa),southeastern Brazil,eastern Amazonia,and eastern China,representing eight river basins:Huai,Sui and Yishusi from east Asia;São Francisco,Doce,Jequitinhonha,and Amazon from South America;and Congo from Africa.The last two are the most biodiverse on the planet.The studied biomes included tropical rainforest and savanna,neotropical savanna and rainforest,neotropical savanna mountains,and subtropical monsoon forest.The response variables included fish assemblages(3 papers),entire macroinvertebrate assemblages or sub-groups(4 papers),and stream physical habitat structure(1 paper). 展开更多
关键词 SUBTROPICAL EASTERN MOUNTAINS
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Methodology for fish biodiversity monitoring with environmental DNA metabarcoding:The primers,databases and bioinformatic pipelines 被引量:3
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作者 Fan Xiong Lu Shu +3 位作者 Honghui Zeng Xiaoni Gan Shunping He Zuogang Peng 《Water Biology and Security》 2022年第1期63-72,共10页
Environmental DNA(eDNA)originates from cellular material shed by organisms into aquatic or terrestrial environments and can be sampled and monitored using metabarcoding technology,which is revolutionizing fish biodive... Environmental DNA(eDNA)originates from cellular material shed by organisms into aquatic or terrestrial environments and can be sampled and monitored using metabarcoding technology,which is revolutionizing fish biodiversity monitoring.Several reviews concerning fish eDNA have focused on standard sampling methods and its applications,though a systematic review focused on marker genes,databases,and bioinformatic pipelines has not yet been published.Here,we present a comprehensive literature review of studies applying metabarcoding technology to fish eDNA for the purpose of fish biodiversity monitoring.We systematically provide the available universal primers used to amplify barcoding sequences from fish eDNA,and then discuss reference barcoding databases,relevant bioinformatic analyses,as well as developed pipelines.The performances of universal primers and their relevant reference databases are summarized.Combined use of multiple primer pairs targeted for more than one gene marker(e.g.,12S,16S,Cytb,COI),and use of both local and public databases are recommended as approaches to improve the sensitivity and reliability of fish eDNA analyses.We also compare the effectiveness of eDNA metabarcoding to traditional approaches for monitoring fish biodiversity and highlight challenges and future perspectives associated with this new tool.Ultimately,we advocate for greater incorporation of eDNA analysis into fish biodiversity assessments to assist environmental managers. 展开更多
关键词 Environmental DNA Fish biodiversity Metabarcoding METHODOLOGY
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