This review highlights the therapeutic qualities of crustaceans such as crabs,shrimps,lobsters,and similar species that have historically been utilized for promoting human health.This study is particularly valuable as...This review highlights the therapeutic qualities of crustaceans such as crabs,shrimps,lobsters,and similar species that have historically been utilized for promoting human health.This study is particularly valuable as our reliance on synthetic medications and chemicals for maintaining good health increases,often leading to numerous side effects.Thus,there is a pressing need to explore alternative and natural solutions that can enhance general well-being and avert illnesses.Crustaceans were found to have numerous compounds that possess qualities such as fighting microbial pathogens(antimicrobial),diminishing inflammation(anti-inflammatory),exhibiting antioxidant properties,and regulating the immune system(immuno-modulatory),making them helpful in addressing various health issues.This review highlights 25 species of crustaceans for having multiple exceptional benefits to human health.A crucial aspect of this study relied on ancient Vedic medical manuscripts,from which data was gathered regarding the types of crustaceans and their applications for preserving health.We collected data that was determined to uphold these conventional theories.The key findings of the study also include the versatile applications of multiple compounds that can be extracted from crustacean byproducts like their shell wastes.The major compounds are Chitin and Chitosan being greatly utilized in fields like agriculture,cosmetology,in medical sciences for tissue regeneration and drug delivery,paper and textile industry.Compounds like Astaxanthin were observed with positive cardiovascular effect and antioxidant properties while Glucosamine,Chondroitin and Taurine were found to be essential components of bio-metabolic pathways and various bio-synthesizing processes inside human body.Therefore,the research highlights the important contribution of crustaceans in multiple sectors and also points out their economic value.This systematic literature review seeks to serve as a resource for researchers,healthcare providers,and pharmaceutical professionals who utilize insights regarding crustaceans and their beneficial byproducts for sustainable applications in their respective areas.展开更多
The large-scale green tide(YSGT)has been persisting in the Yellow Sea over a decade,while its impacts on various trophic organisms remained inconclusive.Field surveys were conducted to investigate the dynamic of plank...The large-scale green tide(YSGT)has been persisting in the Yellow Sea over a decade,while its impacts on various trophic organisms remained inconclusive.Field surveys were conducted to investigate the dynamic of planktonic crustacean community in response to the massive blooming of Ulva biomass in the Subei Shoal and the adjacent water.A rapid change of the planktonic crustacean populations during the development process of YSGT was revealed by this study.Copepods,mysids and euphausiids,and amphipods were three major groups of the planktonic crustacean community in the survey region.Copepods were the dominant group,accounting for 82.16%±3.41%of the total biomass.The total biomass of planktonic crustaceans decreased from 70.98 mg/m3to 7.36 mg/m3with the bloom of Ulva algae.Copepods,mysids and euphausiids were the two groups contributing for the rapid decline.At the same time,amphipods showed evident species succession.The planktonic Themisto gaudichaudii absolutely dominated before the green tide,while the epizootic Sunamphitoe tea and Apohyale sp.succeeded during the bloom.Based on this study,the massive YSGTs seriously destructed the planktonic crustacean community and reduced the secondary productivity,which likely impaired the fishery resources and benthos through trophic chains.展开更多
Autotomy of appendages is a self-protection mechanism in crustaceans,which is defined as the reflexive loss of a limb in response to predation,competition,or other environmental factors.Single-limb injuries were the m...Autotomy of appendages is a self-protection mechanism in crustaceans,which is defined as the reflexive loss of a limb in response to predation,competition,or other environmental factors.Single-limb injuries were the most common among the species surveyed in the present study,and the chelicerae were the most frequently lost appendages.After autotomy,hormones and signaling pathways are altered.Loss of limbs can affect foraging efficiency,although cheliped loss may be compensated by shifting to alternative prey or using both motor and oral appendages.In heterogeneous species,the loss of the major chelae may affect the selectivity of feeding.Autotomy can affect crustacean growth by reducing size increases at molting and altering the timing of ecdysis.In commercial production,removing chelicerae is an effective strategy to reduce cannibalism,and production of soft-shell crabs can be increased via autotomy.After autotomy,a new limb will regrow through regeneration and molting.This process involves the regulation of hormones,regrowth of nerves,and a number of signaling pathways that include the Wnt/β-catenin signaling pathway and transforming growth factorβsignaling pathway.Crustaceans are somewhat different from vertebrates in terms of regeneration.This review provides theoretical guidance about autotomy and regeneration applied in artificial aquaculture,and we offer several suggestions for future research on autotomy and regeneration in crustaceans.展开更多
Aquaculture,as the fastest-growing food production sector in the world,is becoming an increasingly nonnegligible source of greenhouse gas emissions.Despite this,there has been limited research on nitrous oxide(N_(2)O)...Aquaculture,as the fastest-growing food production sector in the world,is becoming an increasingly nonnegligible source of greenhouse gas emissions.Despite this,there has been limited research on nitrous oxide(N_(2)O)emission from marine aquaculture in China,where more marine aquaculture occurs than anywhere else,globally.We estimated N_(2)O emissions(E)from marine mariculture of 10 fish and 6 crustacean species in China from 2003 to 2022 using production data from the China Fishery Statistical Yearbook(2004–2023),and data for feed conversion rates and types from the literature.From 2003,marine aquaculture production,the annual N_(2)O emissions(E_(A)),and the annual N_(2)O emissions per unit of aquaculture area(EI_(A))trend upward.The E_(A)of fish culture was lower than that of crustaceans,but the EI_(A)of fish culture was generally higher.Sea bass(0.308 Tg/a,in terms of N)and white shrimp(0.945 Tg/a,in terms of N)had the highest average E_(A)among fish and crustacean cultures,respectively.The highest average E_(A)from fish and crustacean were both Guangdong Province(fish:0.248 Tg,crustacean:0.547 Tg),and the highest sea area were both the South China Sea(fish:0.316 Tg,crustacean:1.082 Tg);the highest average EI_(A)for fish and crustacean were Tianjin City[35.40 t/(hm^(2)·a)]and Guangxi Zhuang Autonomous Region[19.83 t/(hm^(2)·a)],respectively,and the highest sea areas were both the South China Sea(fish:0.316 Tg,crustacean:1.082 Tg).These analyses provide baseline data for a greenhouse gas emissions inventory for China,based on an interpretation of them,we provide recommendations for reducing N_(2)O emissions in marine fish and crustacean culture.展开更多
Crustaceans,widely consumed and ecologically significant marine organisms,are increasingly affected by microplastic(MP)pollution,one of the most pressing environmental challenges of the 21st century.These benthic and ...Crustaceans,widely consumed and ecologically significant marine organisms,are increasingly affected by microplastic(MP)pollution,one of the most pressing environmental challenges of the 21st century.These benthic and pelagic species,including shrimp,crabs,and lobsters,play essential roles in nutrient cycling,food web dynamics,and global seafood supply.The proliferation of plastic waste has led to widespread MP contamination in marine environments,threatening both ecological stability and human health.This review provides an in-depth overview of MP pollution,its ingestion and accumulation in crustaceans,and the resulting biological and toxicological effects.Data were compiled from leading academic databases,including Scopus,Web of Science,PubMed,ScienceDirect,and Google Scholar,with 54 peer-reviewed articles selected for synthesis.Fibers,fragments,films,and beads were the most frequently reported MP types,predominantly found in the digestive tracts,gills,and hepatopancreas of decapod crustaceans.These particles can cause oxidative stress,inflammation,reproductive disruption,and immune system impairment in crustaceans,while also acting as vectors for hazardous chemicals such as heavy metals and endocrine-disrupting compounds.The consumption of contaminated crustaceans poses potential health risks to humans,including gastrointestinal disorders,hormonal imbalances,and carcinogenic effects.Despite rapid progress in this field,major gaps remain in understanding the long-term ecological and human health impacts,particularly in less-studied regions and species.Further global investigations,long-term ecological assessments,and public awareness initiatives are essential.Effective mitigation will require interdisciplinary collaboration,technological innovation,and sustainable waste management to ensure a healthier marine ecosystem and safer seafood consumption.展开更多
Sex determination(SD)involves mechanisms that determine whether an individual will develop into a male,female,or in rare cases,hermaphrodite.Crustaceans harbor extremely diverse SD systems,including hermaphroditism,en...Sex determination(SD)involves mechanisms that determine whether an individual will develop into a male,female,or in rare cases,hermaphrodite.Crustaceans harbor extremely diverse SD systems,including hermaphroditism,environmental sex determination(ESD),genetic sex determination(GSD),and cytoplasmic sex determination(e.g.,Wolbachia controlled SD systems).Such diversity lays the groundwork for researching the evolution of SD in crustaceans,i.e.,transitions among different SD systems.However,most previous research has focused on understanding the mechanism of SD within a sin-gle lineage or species,overlooking the transition across different SD systems.To help bridge this gap,we summarize the understanding of SD in various clades of crustaceans,and discuss how different SD systems might evolve from one another.Furthermore,we review the genetic basis for transitions between different SD systems(i.e.,Dmrt genes)and propose the microcrustacean Daphnia(clade Branchiopoda)as a model to study the transition from ESD to GSD.展开更多
To evaluate the spatio-temporal variations in the community structure and biodiversity of commercially important crustaceans in the Yellow Sea and the northern East China Sea(NECS),the seasonal and regional changes in...To evaluate the spatio-temporal variations in the community structure and biodiversity of commercially important crustaceans in the Yellow Sea and the northern East China Sea(NECS),the seasonal and regional changes in species composition,biomass structure,biodiversity and distribution of commercially important species were analyzed using bottom trawl survey data during 2014-2015.The results showed that the latitudinal gradient was obvious in species richness,dominant species and biodiversity.The indices of biodiversity increased with the decreasing latitude.When the sampling sites shifted south by one latitudinal degree,Margalefs richness index(D),Pielou's evenness index(J')and Shannon-Wiener diversity index(H')increased by 0.10.0.03 and 0.09,respectively.The biomass proportion of the cold-temperate species represented by Crangon affinis declined with the decreasing latitude,and the warm-temperate species represented by Ovalipes punctatus and Portunus trituberculatus in creased.Because of the growth regulatio n of crustaceans and the fishing moratorium,the biomass of commercially important crustaceans in the Yellow Sea and NECS was highest in October and August,respectively.Salinity had a more significant influence on H'of commercially important crustaceans than other environmental factors(including zooplankton density,sea bottom temperature and water depth).Overall,the results of this study contribute to a better understanding of community dynamics of crustaceans in the Yellow Sea and NECS,and provide evidence to verify the latitudinal gradient theory in biodiversity.展开更多
Zooplanktons are important food organisms of fishes,and their spatial and temporal distribution pattern has an important influence on the growth and reproduction of fishes in local habitats.The Yangtze River Estuary o...Zooplanktons are important food organisms of fishes,and their spatial and temporal distribution pattern has an important influence on the growth and reproduction of fishes in local habitats.The Yangtze River Estuary of China is rich in fishery resources,but the knowledge on the distribution pattern of zooplankton in this area is still very limited.The diel vertical migration(DVM)patterns and seasonal variations of the crustacean community,and their relationship with environmental factors were investigated in the south branch of the Yangtze Estuary,from June 2017 to May 2018.The results showed that the dispersion patterns of dominant crustacean taxa in the Yangtze Estuary were mostly aggregated.Migration amplitudes of crustacean were greater in spring and summer than in autumn and winter,and different migratory patterns occurred in different seasons.Sinocalanus dorrii,Schmackeria inopinus,Mesmackeria leuckarti,Bosmina longirostris,and B.fatalis,unlike S.forbesi,showed a significant DVM.The DVM patterns of crustaceans was possibly influenced by light dentisy,temperature,and total dissolved solids in the water column,and the fish predation effect;whereas,the nutrient concentration and pH were not supposed to be key factors.展开更多
The present investigation aims at unveiling the main causes of the recorded disparate phylogeographic patterning among the two highly dispersive coastal crab species Carcinus aestuarii and Pachygrapsus marmoratus in t...The present investigation aims at unveiling the main causes of the recorded disparate phylogeographic patterning among the two highly dispersive coastal crab species Carcinus aestuarii and Pachygrapsus marmoratus in the Mediterranean Sea.For this purpose,available mitochondrial and nuclear data for both species were re-analyzed and investigated for genetic polymorphism and differentiation patterns across three defined geographic scales in their distribution ranges,but also across the same locations in the Mediterranean Sea.The temporal frame of genetic diversification was also determined for both species in order to check whether observed differences in phylogeographic patterns among these coastal decapods could be attributed to different evolutionary histories.The obtained results revealed a more variable and diversified gene pool in the green crab C.aestuarii than the one recorded in the marbled crab P.marmoratus.Lack of significant correlation between pairwise genetic dissimilarities observed among C.aestuarii populations and those detected for P.marmoratus was notably discerned across the same defined Mediterranean locations.This finding indicates that the pattern of pairwise genetic differentiation does not vary in the same way in both examined crab species.Significant outputs of population genetic differentiation,retrieved within both species,were shown to be differently associated with the potential effects of various kinds of isolation processes(related to geography,environment and biogeographic boundary).Evolutionary history reconstruction showed older genetic diversification event in C.aestuarii than the one recorded in P.marmoratus.These recorded temporal frames suggest different modes of genetic diversification in both crab species(glacial vicariance for C.aestuarii and interglacial dispersal for P.marmoratus).They may also provide an explanation for the recorded differences in variation of patterns of population genetic diversity and structure,when integrated with species ecological requirements and life-history traits.展开更多
In this paper,different kinds of enzymes,immune factors and regulatory factors of the immune system of crustaceans are summarized and then combed systematically and thoroughly. According to the mutual influence and ef...In this paper,different kinds of enzymes,immune factors and regulatory factors of the immune system of crustaceans are summarized and then combed systematically and thoroughly. According to the mutual influence and effects of these factors,different symbolic forms are introduced to express the effects,and ultimately the whole node graph of the system is obtained. The graph theory can be used for further researches on the immune system of crustacean.展开更多
Chitin was first discovered by its name from the Greek word“chiton”,which means“mail coat”.It is indeed a polysaccharide made up of naturally occurring acetyl-D-glucosamine monomers.Hatchett was the first research...Chitin was first discovered by its name from the Greek word“chiton”,which means“mail coat”.It is indeed a polysaccharide made up of naturally occurring acetyl-D-glucosamine monomers.Hatchett was the first researcher who extracted chitin from the shells of mollusks(crabs and lobsters),prawns,and crayfish in 1799.Later in 1811,Henri Braconnot discovered chitin in the cell walls of mushrooms and called it“fungine”.Chitin and chitosan are abundant in the biosphere as essential components of many organisms’exoskeletons and as by-products of the global seafood industry.The biopolymer must be deacetylated before chitosan can be produced.It can also be extracted using microbes in a biological extraction procedure.The development of products that take advantage of the bioactivities of the existing primary commercial source of chitin(crustacean)has lagged expectations.Also,the disadvantages of the present commercial source such as seasonality and competition for other uses among others has been one of the driving forces towards seeking alternative sources of chitin and chitosan in nature.This review highlights some of the efforts made by environmental scholars to locate possible commercial sources of chitin and chitosan in nature over time.展开更多
While the fauna of Australian salt lakes is now well-known, seasonal phenological patterns of invertebrates are not. Two studies on saline lakes in southern Australia suggest the lakes fill in early winter and remain ...While the fauna of Australian salt lakes is now well-known, seasonal phenological patterns of invertebrates are not. Two studies on saline lakes in southern Australia suggest the lakes fill in early winter and remain at salinities characteristic for each lake during winter-spring before elevating and drying in summer. The fauna is dominated by crustaceans with few insects and all component species are present most of the time and randomly fluctuating in numbers. Lakes in the southern inland(mainly Lake Eyre) fill in summer, change little in salinity until near drying, and are dominated by crustaceans but have some insects. By contrast temporary salinas in the central inland fill episodically mainly in summer and then their salinity increases steadily as they dry without further rain. Their fauna is also dominated by crustaceans, but with a significant insect component and composition varies though the hydrological cycle. This study reports on an unusual winter fill in two central Paroo lakes and two pools, in which the crustacean fauna is similar to that in summer but insects are delayed till late spring and are not as common as in summer fills. It seems therefore that while insects are more restricted by medium and high salinities than crustaceans, they are also more restricted by cooler temperatures than crustaceans.展开更多
The mechanisms of sex determination and the influence of exogenous factors on sex differentiation in crustacean were reviewed in the paper.Most of crustecea have not obviously sex chromosome.Androgenic gland was repor...The mechanisms of sex determination and the influence of exogenous factors on sex differentiation in crustacean were reviewed in the paper.Most of crustecea have not obviously sex chromosome.Androgenic gland was reported as the most important sex differentiation factors,implanting or cuting AG can change the sexal characterization of larval in crustacean.Although sex differentiation of crustacean is determined by gene,it is affected by exogenous factors such as parasite,photoperiod,temperature or hormone.Most cultured species have different body weight and length between male and female,this can be used in aquaculture to produce all male or female crusteceans to improve the production.展开更多
This paper presents an environm centally friendly method of inhibiting biofouling especially acorn barnacles on surfaces under water by using nicotine and selenium in the form of Se(0), or such a substance which can...This paper presents an environm centally friendly method of inhibiting biofouling especially acorn barnacles on surfaces under water by using nicotine and selenium in the form of Se(0), or such a substance which can be converted into them. Both of the substances are necessary to oxygen dependent organisms and will be used after conversion, but are toxic in high doses. By adding the substances to paint or other surface treatment agent which marine surfaces are treated with, organisms which are trying to establish themselves on the surfaces will be exposed to so high doses, the reactions which the settling is based on are disturbed. When the substances leak out into the seas, they will act as environment protectors, as they promote the development of organisms. Nicotine is transformed to nicotine amid which is the reactive part in NADH and one of the most important substances for the transference of hydrogen. Selenite is reduced to Se(0), also involved in the transport chain of hydrogen to reducible oxygen. However, large quantities Se(0) may disturb the reactions of sulphur b'./binding to it and impairing the formation of S-S-bridges.展开更多
The biological characteristics of crustacean spermatozoa is important for the artificial reproduction and genetic breeding. With reference to the latest studies and related materials, this paper reviewed the research ...The biological characteristics of crustacean spermatozoa is important for the artificial reproduction and genetic breeding. With reference to the latest studies and related materials, this paper reviewed the research progress in the biological characteristics of crustacean spermatozoa, such as morphological structure of sperm, spermatogenesis, sperm viability, preservation in vitro and acrosome reaction et al. The prospects of the research field have also been anticipated.展开更多
The study was to find out the effect of cadmium and mercury on levels of hemolymph glucose, crustacean hyperglycemic hormone(CHH) and hepatopancreas glycogen in the blue swimmer crab Portunus pelagicus. The experime...The study was to find out the effect of cadmium and mercury on levels of hemolymph glucose, crustacean hyperglycemic hormone(CHH) and hepatopancreas glycogen in the blue swimmer crab Portunus pelagicus. The experiments were performed in both intact and eyestalk ablated crabs. Quantification of CHH was done by the indirect ELISA with the aid of primary anti-Carcinus maenas-CHH antibody. Higher glucose concentration was observed on exposure to 8×10^–6 of cadmium((825.6±5.42) μg/m L) and 6×10^–6 of mercury((90.5±6.25) μg/m L)after 48 h and 24 h respectively. Higher level of hemolymph glucose was observed in eyestalk intact crabs on exposure to cadmium and mercury than eyestalk ablated crabs. Decrease in the levels of CHH was observed in both eyestalk intact and ablated crabs on heavy metal exposure. Decline of the hepatopancreas glycogen level was also witnessed with the exposure to heavy metal, which validated its utilization in the production of glucose. Thus this study brings to light, the variations in hemolymph glucose, CHH and hepatopancreas glycogen on heavy metal stress. These carbohydrate metabolites can be used as biomarkers in assessing heavy metal contamination in water bodies.展开更多
Although the importance of mangroves is clearly recognized around the world, these ecosystems are being strongly altered by the logging of their forests for multiple purposes. The Colombian Pacific coast is not an exc...Although the importance of mangroves is clearly recognized around the world, these ecosystems are being strongly altered by the logging of their forests for multiple purposes. The Colombian Pacific coast is not an exception to this situation, and apart from the traditional logging of wood, the hunting of the Neotropical Cormorant or Pato-cuervo (Phalacrocorax brasilianus), an activity largely unknown but widespread in the region, is also causing the logging of great extensions of mangroves. The aim of this research was to determine if the assemblages of mollusks and crustaceans of these mangroves are being affected by the hunting of the cormorant. To answer this question, quantitative samplings were realized in four transects in logged and unlogged mangrove areas on the southwestern coast of the Colombian Pacific and diversity, equitability and dominance of macrofaunal assemblages of mangroves were calculated. The data show that although significant differences between diversity indices were not found, there were important differences in equitability (total J’: 0.55 in T1, 0.77 in T2, 0.46 in T3 and 0.65 in T4), specific dominance, and composition of species (T1: 11 species, T2: 13, T3: 9 and T4: 11) between logged and unlogged areas. Based on these results, although forest structure and interstitial salinity were different among transects, we conclude that the present practice of exploitation of the Neotropical Cormorant is affecting the epifaunal populations of mangroves, causing changes in the composition and dominance of species.展开更多
Flavorful meat and great economic importance, crabs and swimming crabs are appreciated throughout the Brazilian coast, where its waste is discarded by fishermen and consumers. In order to verify the centesimal composi...Flavorful meat and great economic importance, crabs and swimming crabs are appreciated throughout the Brazilian coast, where its waste is discarded by fishermen and consumers. In order to verify the centesimal composition, these animals caught in Sepetiba Bay (Rio de Janeiro, Brazil), 20 samples of Ucides cordatus, Cardisoma guanhumi, Menippe nodifrons, Callinectes danae and C. exaperatus had their edible and waste parts (shells and hepatopancreas) analyzed in the Laboratory of Bromatology of the UFRRJ. The analysis revealed that the meat of crustaceans is protein (12.68% to 25.56%) and low in fat (0.37% to 0.67%), sticking to a more demanding consumer market for thin products; the waste has already presented a protein content ranging from 15.75% to 27.64% and fat from 0.75% to 3.27%, with values of calcium (17.96% to 25.23%) and phosphorus (0.93% to 1.55%), setting a precedent for use in animal feed through future studies in area.展开更多
During the last years many authors have char-acterized the produced formation waters (PFWs) with respect to chemical compounds and toxic-ity. Most of data are related to PFWs collected on offshore platform after treat...During the last years many authors have char-acterized the produced formation waters (PFWs) with respect to chemical compounds and toxic-ity. Most of data are related to PFWs collected on offshore platform after treatment process. The available results showed that the particulate phase had an influence on PFW toxicity. As-suming the toxicity of PFWs treated on platform, the aim of this paper is to study the toxicity of these PFWs after a further filtration treatment carried out in laboratory. For this purpose PFWs were sampled from three natural gas platforms located in the Adriatic Sea (Italy) below treat-ment system. The eco-toxicological bioassays have been conducted on test-organisms be-longing to different trophic levels such as bac-teria, algae, crustaceans and fishes. The PFWs resulted toxic according to an overall assess-ment obtained through the bioassays. Further-more, it has been possible to identify the spe-cies that were more sensitive to the tested PFWs, namely Tigriopus fulvus, Dicentrarchus labrax and Vibrio fischeri. Besides, a chemical char-acterization was reported related to the con-taminants present in the PFWs to go with eco-toxicological assessment. Barium, zinc and manganese showed the most concentrations among the metals and the lower molecular weight components were common among the organic compounds. Some differences among PFWs were observed both for toxicity and chemical composition. The highest toxicity was recorded in PFWs (PFW1 and PFW2) containing the highest concentrations of some metals (Ba, Mn and Zn) and/or BTEX.展开更多
The seasonal dynamics of a crustacean zooplankton community in Erhai Lake was investigated from May 2010 to April 2011. In total, 11 species were recorded, including six(6 genera) cladoceran and five(5 genera) copepod...The seasonal dynamics of a crustacean zooplankton community in Erhai Lake was investigated from May 2010 to April 2011. In total, 11 species were recorded, including six(6 genera) cladoceran and five(5 genera) copepod species. The crustacean zooplankton densities ranged from 24.3 to 155.4 ind./L. In winter and spring, the large-bodied cladoceran Daphnia galeata dominated the crustacean plankton community. In summer and autumn, when the colonial or filamentous algae dominated the phytoplankton communities, the small-bodied species(e.g. B osmina fatalis, Ceriodaphnia quadrangular, and Mesocyclops leuckarti) replaced the large-bodied ones. One-way ANOVA and redundancy analysis revealed that community structure was dependent upon total nitrogen, total phosphorus, water temperature, transparency, and the biomass of small algae. The variation in both phytoplankton structure and environmental variables were important factors in the seasonal succession of crustacean zooplankton structure in Erhai Lake.展开更多
文摘This review highlights the therapeutic qualities of crustaceans such as crabs,shrimps,lobsters,and similar species that have historically been utilized for promoting human health.This study is particularly valuable as our reliance on synthetic medications and chemicals for maintaining good health increases,often leading to numerous side effects.Thus,there is a pressing need to explore alternative and natural solutions that can enhance general well-being and avert illnesses.Crustaceans were found to have numerous compounds that possess qualities such as fighting microbial pathogens(antimicrobial),diminishing inflammation(anti-inflammatory),exhibiting antioxidant properties,and regulating the immune system(immuno-modulatory),making them helpful in addressing various health issues.This review highlights 25 species of crustaceans for having multiple exceptional benefits to human health.A crucial aspect of this study relied on ancient Vedic medical manuscripts,from which data was gathered regarding the types of crustaceans and their applications for preserving health.We collected data that was determined to uphold these conventional theories.The key findings of the study also include the versatile applications of multiple compounds that can be extracted from crustacean byproducts like their shell wastes.The major compounds are Chitin and Chitosan being greatly utilized in fields like agriculture,cosmetology,in medical sciences for tissue regeneration and drug delivery,paper and textile industry.Compounds like Astaxanthin were observed with positive cardiovascular effect and antioxidant properties while Glucosamine,Chondroitin and Taurine were found to be essential components of bio-metabolic pathways and various bio-synthesizing processes inside human body.Therefore,the research highlights the important contribution of crustaceans in multiple sectors and also points out their economic value.This systematic literature review seeks to serve as a resource for researchers,healthcare providers,and pharmaceutical professionals who utilize insights regarding crustaceans and their beneficial byproducts for sustainable applications in their respective areas.
基金the National Natural Science Foundation of China(No.42276221)the Marine S&T Fund of Shandong Province for Laoshan Laboratory(No.LSK202203700)+1 种基金the National Key Research and Development Program of China(No.2022YFC3106000)the Taishan Scholars Program(No.tstp20230624)。
文摘The large-scale green tide(YSGT)has been persisting in the Yellow Sea over a decade,while its impacts on various trophic organisms remained inconclusive.Field surveys were conducted to investigate the dynamic of planktonic crustacean community in response to the massive blooming of Ulva biomass in the Subei Shoal and the adjacent water.A rapid change of the planktonic crustacean populations during the development process of YSGT was revealed by this study.Copepods,mysids and euphausiids,and amphipods were three major groups of the planktonic crustacean community in the survey region.Copepods were the dominant group,accounting for 82.16%±3.41%of the total biomass.The total biomass of planktonic crustaceans decreased from 70.98 mg/m3to 7.36 mg/m3with the bloom of Ulva algae.Copepods,mysids and euphausiids were the two groups contributing for the rapid decline.At the same time,amphipods showed evident species succession.The planktonic Themisto gaudichaudii absolutely dominated before the green tide,while the epizootic Sunamphitoe tea and Apohyale sp.succeeded during the bloom.Based on this study,the massive YSGTs seriously destructed the planktonic crustacean community and reduced the secondary productivity,which likely impaired the fishery resources and benthos through trophic chains.
基金funded by the National Natural Science Foundation of China(Nos.32172993,42106104)the Ningbo Provincial Natural Science Foundation of China(No.202003N4181).
文摘Autotomy of appendages is a self-protection mechanism in crustaceans,which is defined as the reflexive loss of a limb in response to predation,competition,or other environmental factors.Single-limb injuries were the most common among the species surveyed in the present study,and the chelicerae were the most frequently lost appendages.After autotomy,hormones and signaling pathways are altered.Loss of limbs can affect foraging efficiency,although cheliped loss may be compensated by shifting to alternative prey or using both motor and oral appendages.In heterogeneous species,the loss of the major chelae may affect the selectivity of feeding.Autotomy can affect crustacean growth by reducing size increases at molting and altering the timing of ecdysis.In commercial production,removing chelicerae is an effective strategy to reduce cannibalism,and production of soft-shell crabs can be increased via autotomy.After autotomy,a new limb will regrow through regeneration and molting.This process involves the regulation of hormones,regrowth of nerves,and a number of signaling pathways that include the Wnt/β-catenin signaling pathway and transforming growth factorβsignaling pathway.Crustaceans are somewhat different from vertebrates in terms of regeneration.This review provides theoretical guidance about autotomy and regeneration applied in artificial aquaculture,and we offer several suggestions for future research on autotomy and regeneration in crustaceans.
基金The Basic Research Funding Projects of Liaoning Provincial Education Department unde contract No.JYTMS20230498the State Environmental Protection Key Laboratory of Coastal Ecosystem Open Project Fund of China unde contract No.202305+1 种基金the Research Foundation for Talented Scholars of Dalian Ocean University unde contract No.HDYJ202121the Key Laboratory of Environment Controlled Aquaculture(Dalian Ocean University)Ministry of Education Open Project Fund of China unde contract No.2021-MOEKLECA-KF-01。
文摘Aquaculture,as the fastest-growing food production sector in the world,is becoming an increasingly nonnegligible source of greenhouse gas emissions.Despite this,there has been limited research on nitrous oxide(N_(2)O)emission from marine aquaculture in China,where more marine aquaculture occurs than anywhere else,globally.We estimated N_(2)O emissions(E)from marine mariculture of 10 fish and 6 crustacean species in China from 2003 to 2022 using production data from the China Fishery Statistical Yearbook(2004–2023),and data for feed conversion rates and types from the literature.From 2003,marine aquaculture production,the annual N_(2)O emissions(E_(A)),and the annual N_(2)O emissions per unit of aquaculture area(EI_(A))trend upward.The E_(A)of fish culture was lower than that of crustaceans,but the EI_(A)of fish culture was generally higher.Sea bass(0.308 Tg/a,in terms of N)and white shrimp(0.945 Tg/a,in terms of N)had the highest average E_(A)among fish and crustacean cultures,respectively.The highest average E_(A)from fish and crustacean were both Guangdong Province(fish:0.248 Tg,crustacean:0.547 Tg),and the highest sea area were both the South China Sea(fish:0.316 Tg,crustacean:1.082 Tg);the highest average EI_(A)for fish and crustacean were Tianjin City[35.40 t/(hm^(2)·a)]and Guangxi Zhuang Autonomous Region[19.83 t/(hm^(2)·a)],respectively,and the highest sea areas were both the South China Sea(fish:0.316 Tg,crustacean:1.082 Tg).These analyses provide baseline data for a greenhouse gas emissions inventory for China,based on an interpretation of them,we provide recommendations for reducing N_(2)O emissions in marine fish and crustacean culture.
文摘Crustaceans,widely consumed and ecologically significant marine organisms,are increasingly affected by microplastic(MP)pollution,one of the most pressing environmental challenges of the 21st century.These benthic and pelagic species,including shrimp,crabs,and lobsters,play essential roles in nutrient cycling,food web dynamics,and global seafood supply.The proliferation of plastic waste has led to widespread MP contamination in marine environments,threatening both ecological stability and human health.This review provides an in-depth overview of MP pollution,its ingestion and accumulation in crustaceans,and the resulting biological and toxicological effects.Data were compiled from leading academic databases,including Scopus,Web of Science,PubMed,ScienceDirect,and Google Scholar,with 54 peer-reviewed articles selected for synthesis.Fibers,fragments,films,and beads were the most frequently reported MP types,predominantly found in the digestive tracts,gills,and hepatopancreas of decapod crustaceans.These particles can cause oxidative stress,inflammation,reproductive disruption,and immune system impairment in crustaceans,while also acting as vectors for hazardous chemicals such as heavy metals and endocrine-disrupting compounds.The consumption of contaminated crustaceans poses potential health risks to humans,including gastrointestinal disorders,hormonal imbalances,and carcinogenic effects.Despite rapid progress in this field,major gaps remain in understanding the long-term ecological and human health impacts,particularly in less-studied regions and species.Further global investigations,long-term ecological assessments,and public awareness initiatives are essential.Effective mitigation will require interdisciplinary collaboration,technological innovation,and sustainable waste management to ensure a healthier marine ecosystem and safer seafood consumption.
基金This work was financially supported by NIH grant R35-GM122566-01 to M.L.NIH Enabling Discovery through GEnomics(EDGE)grant IOS-1922914 to M.L.and Andrew Zelhof(Indiana University).
文摘Sex determination(SD)involves mechanisms that determine whether an individual will develop into a male,female,or in rare cases,hermaphrodite.Crustaceans harbor extremely diverse SD systems,including hermaphroditism,environmental sex determination(ESD),genetic sex determination(GSD),and cytoplasmic sex determination(e.g.,Wolbachia controlled SD systems).Such diversity lays the groundwork for researching the evolution of SD in crustaceans,i.e.,transitions among different SD systems.However,most previous research has focused on understanding the mechanism of SD within a sin-gle lineage or species,overlooking the transition across different SD systems.To help bridge this gap,we summarize the understanding of SD in various clades of crustaceans,and discuss how different SD systems might evolve from one another.Furthermore,we review the genetic basis for transitions between different SD systems(i.e.,Dmrt genes)and propose the microcrustacean Daphnia(clade Branchiopoda)as a model to study the transition from ESD to GSD.
基金supported by the National Key Research and Development Program of China under contract No.2018YFD0900902AoShan Talents Cultivation Program Supported by Qingdao National Laboratory for Marine Science and Technology under contract No.2017ASTCP-ES07Special Funds for Taishan Scholar Project of Shandong Province.We thank all colleagues for their help in collecting the survey data.
文摘To evaluate the spatio-temporal variations in the community structure and biodiversity of commercially important crustaceans in the Yellow Sea and the northern East China Sea(NECS),the seasonal and regional changes in species composition,biomass structure,biodiversity and distribution of commercially important species were analyzed using bottom trawl survey data during 2014-2015.The results showed that the latitudinal gradient was obvious in species richness,dominant species and biodiversity.The indices of biodiversity increased with the decreasing latitude.When the sampling sites shifted south by one latitudinal degree,Margalefs richness index(D),Pielou's evenness index(J')and Shannon-Wiener diversity index(H')increased by 0.10.0.03 and 0.09,respectively.The biomass proportion of the cold-temperate species represented by Crangon affinis declined with the decreasing latitude,and the warm-temperate species represented by Ovalipes punctatus and Portunus trituberculatus in creased.Because of the growth regulatio n of crustaceans and the fishing moratorium,the biomass of commercially important crustaceans in the Yellow Sea and NECS was highest in October and August,respectively.Salinity had a more significant influence on H'of commercially important crustaceans than other environmental factors(including zooplankton density,sea bottom temperature and water depth).Overall,the results of this study contribute to a better understanding of community dynamics of crustaceans in the Yellow Sea and NECS,and provide evidence to verify the latitudinal gradient theory in biodiversity.
基金funded by the Science and Technology Commission of Shanghai Municipality(19050501900).
文摘Zooplanktons are important food organisms of fishes,and their spatial and temporal distribution pattern has an important influence on the growth and reproduction of fishes in local habitats.The Yangtze River Estuary of China is rich in fishery resources,but the knowledge on the distribution pattern of zooplankton in this area is still very limited.The diel vertical migration(DVM)patterns and seasonal variations of the crustacean community,and their relationship with environmental factors were investigated in the south branch of the Yangtze Estuary,from June 2017 to May 2018.The results showed that the dispersion patterns of dominant crustacean taxa in the Yangtze Estuary were mostly aggregated.Migration amplitudes of crustacean were greater in spring and summer than in autumn and winter,and different migratory patterns occurred in different seasons.Sinocalanus dorrii,Schmackeria inopinus,Mesmackeria leuckarti,Bosmina longirostris,and B.fatalis,unlike S.forbesi,showed a significant DVM.The DVM patterns of crustaceans was possibly influenced by light dentisy,temperature,and total dissolved solids in the water column,and the fish predation effect;whereas,the nutrient concentration and pH were not supposed to be key factors.
文摘The present investigation aims at unveiling the main causes of the recorded disparate phylogeographic patterning among the two highly dispersive coastal crab species Carcinus aestuarii and Pachygrapsus marmoratus in the Mediterranean Sea.For this purpose,available mitochondrial and nuclear data for both species were re-analyzed and investigated for genetic polymorphism and differentiation patterns across three defined geographic scales in their distribution ranges,but also across the same locations in the Mediterranean Sea.The temporal frame of genetic diversification was also determined for both species in order to check whether observed differences in phylogeographic patterns among these coastal decapods could be attributed to different evolutionary histories.The obtained results revealed a more variable and diversified gene pool in the green crab C.aestuarii than the one recorded in the marbled crab P.marmoratus.Lack of significant correlation between pairwise genetic dissimilarities observed among C.aestuarii populations and those detected for P.marmoratus was notably discerned across the same defined Mediterranean locations.This finding indicates that the pattern of pairwise genetic differentiation does not vary in the same way in both examined crab species.Significant outputs of population genetic differentiation,retrieved within both species,were shown to be differently associated with the potential effects of various kinds of isolation processes(related to geography,environment and biogeographic boundary).Evolutionary history reconstruction showed older genetic diversification event in C.aestuarii than the one recorded in P.marmoratus.These recorded temporal frames suggest different modes of genetic diversification in both crab species(glacial vicariance for C.aestuarii and interglacial dispersal for P.marmoratus).They may also provide an explanation for the recorded differences in variation of patterns of population genetic diversity and structure,when integrated with species ecological requirements and life-history traits.
文摘In this paper,different kinds of enzymes,immune factors and regulatory factors of the immune system of crustaceans are summarized and then combed systematically and thoroughly. According to the mutual influence and effects of these factors,different symbolic forms are introduced to express the effects,and ultimately the whole node graph of the system is obtained. The graph theory can be used for further researches on the immune system of crustacean.
基金This study is funded by the Long Term Research Grant Scheme(LRGS/1/2018/USM/01/1/1)(LRGS/2018/USM-UKM/EWS/01)granted by Ministry of Higher Education Malaysia for funding this research project.
文摘Chitin was first discovered by its name from the Greek word“chiton”,which means“mail coat”.It is indeed a polysaccharide made up of naturally occurring acetyl-D-glucosamine monomers.Hatchett was the first researcher who extracted chitin from the shells of mollusks(crabs and lobsters),prawns,and crayfish in 1799.Later in 1811,Henri Braconnot discovered chitin in the cell walls of mushrooms and called it“fungine”.Chitin and chitosan are abundant in the biosphere as essential components of many organisms’exoskeletons and as by-products of the global seafood industry.The biopolymer must be deacetylated before chitosan can be produced.It can also be extracted using microbes in a biological extraction procedure.The development of products that take advantage of the bioactivities of the existing primary commercial source of chitin(crustacean)has lagged expectations.Also,the disadvantages of the present commercial source such as seasonality and competition for other uses among others has been one of the driving forces towards seeking alternative sources of chitin and chitosan in nature.This review highlights some of the efforts made by environmental scholars to locate possible commercial sources of chitin and chitosan in nature over time.
文摘While the fauna of Australian salt lakes is now well-known, seasonal phenological patterns of invertebrates are not. Two studies on saline lakes in southern Australia suggest the lakes fill in early winter and remain at salinities characteristic for each lake during winter-spring before elevating and drying in summer. The fauna is dominated by crustaceans with few insects and all component species are present most of the time and randomly fluctuating in numbers. Lakes in the southern inland(mainly Lake Eyre) fill in summer, change little in salinity until near drying, and are dominated by crustaceans but have some insects. By contrast temporary salinas in the central inland fill episodically mainly in summer and then their salinity increases steadily as they dry without further rain. Their fauna is also dominated by crustaceans, but with a significant insect component and composition varies though the hydrological cycle. This study reports on an unusual winter fill in two central Paroo lakes and two pools, in which the crustacean fauna is similar to that in summer but insects are delayed till late spring and are not as common as in summer fills. It seems therefore that while insects are more restricted by medium and high salinities than crustaceans, they are also more restricted by cooler temperatures than crustaceans.
文摘The mechanisms of sex determination and the influence of exogenous factors on sex differentiation in crustacean were reviewed in the paper.Most of crustecea have not obviously sex chromosome.Androgenic gland was reported as the most important sex differentiation factors,implanting or cuting AG can change the sexal characterization of larval in crustacean.Although sex differentiation of crustacean is determined by gene,it is affected by exogenous factors such as parasite,photoperiod,temperature or hormone.Most cultured species have different body weight and length between male and female,this can be used in aquaculture to produce all male or female crusteceans to improve the production.
文摘This paper presents an environm centally friendly method of inhibiting biofouling especially acorn barnacles on surfaces under water by using nicotine and selenium in the form of Se(0), or such a substance which can be converted into them. Both of the substances are necessary to oxygen dependent organisms and will be used after conversion, but are toxic in high doses. By adding the substances to paint or other surface treatment agent which marine surfaces are treated with, organisms which are trying to establish themselves on the surfaces will be exposed to so high doses, the reactions which the settling is based on are disturbed. When the substances leak out into the seas, they will act as environment protectors, as they promote the development of organisms. Nicotine is transformed to nicotine amid which is the reactive part in NADH and one of the most important substances for the transference of hydrogen. Selenite is reduced to Se(0), also involved in the transport chain of hydrogen to reducible oxygen. However, large quantities Se(0) may disturb the reactions of sulphur b'./binding to it and impairing the formation of S-S-bridges.
基金supported by the Jiangsu Province Science and Technology Development Project (Grant No. BN2010026)
文摘The biological characteristics of crustacean spermatozoa is important for the artificial reproduction and genetic breeding. With reference to the latest studies and related materials, this paper reviewed the research progress in the biological characteristics of crustacean spermatozoa, such as morphological structure of sperm, spermatogenesis, sperm viability, preservation in vitro and acrosome reaction et al. The prospects of the research field have also been anticipated.
基金The grant from the Department of Science and Technology,New Delhi under contract No.SR/FT/LS-137/2009 dt.17.01.2012
文摘The study was to find out the effect of cadmium and mercury on levels of hemolymph glucose, crustacean hyperglycemic hormone(CHH) and hepatopancreas glycogen in the blue swimmer crab Portunus pelagicus. The experiments were performed in both intact and eyestalk ablated crabs. Quantification of CHH was done by the indirect ELISA with the aid of primary anti-Carcinus maenas-CHH antibody. Higher glucose concentration was observed on exposure to 8×10^–6 of cadmium((825.6±5.42) μg/m L) and 6×10^–6 of mercury((90.5±6.25) μg/m L)after 48 h and 24 h respectively. Higher level of hemolymph glucose was observed in eyestalk intact crabs on exposure to cadmium and mercury than eyestalk ablated crabs. Decrease in the levels of CHH was observed in both eyestalk intact and ablated crabs on heavy metal exposure. Decline of the hepatopancreas glycogen level was also witnessed with the exposure to heavy metal, which validated its utilization in the production of glucose. Thus this study brings to light, the variations in hemolymph glucose, CHH and hepatopancreas glycogen on heavy metal stress. These carbohydrate metabolites can be used as biomarkers in assessing heavy metal contamination in water bodies.
文摘Although the importance of mangroves is clearly recognized around the world, these ecosystems are being strongly altered by the logging of their forests for multiple purposes. The Colombian Pacific coast is not an exception to this situation, and apart from the traditional logging of wood, the hunting of the Neotropical Cormorant or Pato-cuervo (Phalacrocorax brasilianus), an activity largely unknown but widespread in the region, is also causing the logging of great extensions of mangroves. The aim of this research was to determine if the assemblages of mollusks and crustaceans of these mangroves are being affected by the hunting of the cormorant. To answer this question, quantitative samplings were realized in four transects in logged and unlogged mangrove areas on the southwestern coast of the Colombian Pacific and diversity, equitability and dominance of macrofaunal assemblages of mangroves were calculated. The data show that although significant differences between diversity indices were not found, there were important differences in equitability (total J’: 0.55 in T1, 0.77 in T2, 0.46 in T3 and 0.65 in T4), specific dominance, and composition of species (T1: 11 species, T2: 13, T3: 9 and T4: 11) between logged and unlogged areas. Based on these results, although forest structure and interstitial salinity were different among transects, we conclude that the present practice of exploitation of the Neotropical Cormorant is affecting the epifaunal populations of mangroves, causing changes in the composition and dominance of species.
文摘Flavorful meat and great economic importance, crabs and swimming crabs are appreciated throughout the Brazilian coast, where its waste is discarded by fishermen and consumers. In order to verify the centesimal composition, these animals caught in Sepetiba Bay (Rio de Janeiro, Brazil), 20 samples of Ucides cordatus, Cardisoma guanhumi, Menippe nodifrons, Callinectes danae and C. exaperatus had their edible and waste parts (shells and hepatopancreas) analyzed in the Laboratory of Bromatology of the UFRRJ. The analysis revealed that the meat of crustaceans is protein (12.68% to 25.56%) and low in fat (0.37% to 0.67%), sticking to a more demanding consumer market for thin products; the waste has already presented a protein content ranging from 15.75% to 27.64% and fat from 0.75% to 3.27%, with values of calcium (17.96% to 25.23%) and phosphorus (0.93% to 1.55%), setting a precedent for use in animal feed through future studies in area.
文摘During the last years many authors have char-acterized the produced formation waters (PFWs) with respect to chemical compounds and toxic-ity. Most of data are related to PFWs collected on offshore platform after treatment process. The available results showed that the particulate phase had an influence on PFW toxicity. As-suming the toxicity of PFWs treated on platform, the aim of this paper is to study the toxicity of these PFWs after a further filtration treatment carried out in laboratory. For this purpose PFWs were sampled from three natural gas platforms located in the Adriatic Sea (Italy) below treat-ment system. The eco-toxicological bioassays have been conducted on test-organisms be-longing to different trophic levels such as bac-teria, algae, crustaceans and fishes. The PFWs resulted toxic according to an overall assess-ment obtained through the bioassays. Further-more, it has been possible to identify the spe-cies that were more sensitive to the tested PFWs, namely Tigriopus fulvus, Dicentrarchus labrax and Vibrio fischeri. Besides, a chemical char-acterization was reported related to the con-taminants present in the PFWs to go with eco-toxicological assessment. Barium, zinc and manganese showed the most concentrations among the metals and the lower molecular weight components were common among the organic compounds. Some differences among PFWs were observed both for toxicity and chemical composition. The highest toxicity was recorded in PFWs (PFW1 and PFW2) containing the highest concentrations of some metals (Ba, Mn and Zn) and/or BTEX.
基金Supported by the National Natural Science Foundation of China(No.31070387)the National Water Pollution Control and Management Technology Major Projects of China(No.2008ZC07105-005)
文摘The seasonal dynamics of a crustacean zooplankton community in Erhai Lake was investigated from May 2010 to April 2011. In total, 11 species were recorded, including six(6 genera) cladoceran and five(5 genera) copepod species. The crustacean zooplankton densities ranged from 24.3 to 155.4 ind./L. In winter and spring, the large-bodied cladoceran Daphnia galeata dominated the crustacean plankton community. In summer and autumn, when the colonial or filamentous algae dominated the phytoplankton communities, the small-bodied species(e.g. B osmina fatalis, Ceriodaphnia quadrangular, and Mesocyclops leuckarti) replaced the large-bodied ones. One-way ANOVA and redundancy analysis revealed that community structure was dependent upon total nitrogen, total phosphorus, water temperature, transparency, and the biomass of small algae. The variation in both phytoplankton structure and environmental variables were important factors in the seasonal succession of crustacean zooplankton structure in Erhai Lake.
