Sinotaia quadrata
Sinotaia quadrata Temporal range: Upper Pleistocene[1]-recent
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Mollusca |
Class: | Gastropoda |
Subclass: | Caenogastropoda |
Order: | Architaenioglossa |
Family: | Viviparidae |
Genus: | Sinotaia |
Species: | S. quadrata
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Binomial name | |
Sinotaia quadrata (Benson, 1842)
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Synonyms | |
List
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Sinotaia quadrata is a species of a freshwater snail with a gill and an operculum, an aquatic gastropod mollusk in the family Viviparidae. It is widely distributed and common species in China and in northern Vietnam inhabiting various shallow freshwater habitats, where it can reach high densities. It is a keystone species in its habitat and can significantly affect water quality and phytoplankton communities. It is commonly used in Chinese cuisine.
Taxonomy
[edit]This species was described under the name Paludina quadrata by English conchologist William Henry Benson in 1842. It is now classified in the genus Sinotaia, although Chinese malacologists use the synonym Bellamya aeruginosa .
Subspecies
[edit]Two subspecies are recognised:[3]
- Sinotaia quadrata histrica (Gould, 1859)
- Sinotaia quadrata quadrata (W. H. Benson, 1842)
Distribution and habitat
[edit]Distribution
[edit]This species is found in:
- Japan
- Northeast Thailand(Isan)[4]
- China.[5]
- Vietnam
- Italy (river Arno; non-native)
- Argentina (Central Argentina; non-native)[6]
This species is also known from Upper Pleistocene of China.[1] The species' distribution appears to have shrunk from the Middle Pleistocene to the Late Pleistocene, while a range expansion occurred in the Holocene.[7]
It is one of the most common species in China.[8] It is common in the Yangtze River and Yellow River basins.[7] The distribution of S. quadrata includes East China (Anhui, Fujian, Jiangsu, Jiangxi, Shandong, Shanghai, Zhejiang), Northeast China (Heilongjiang, Jilin, Liaoning), North China (Beijing, Hebei, Inner Mongolia, Shanxi, Tianjin), Northwest China (Ningxia, Shaanxi), Central China (Henan, Hubei, Hunan), Southwest China (Chongqing, Guizhou, Sichuan, Yunnan) and South China (Guangdong, Guangxi, Hainan).[2] In Vietnam it is also common, but rarely reaches very high population densities.[9]
Habitat
[edit]Sinotaia quadrata is found in rivers and lakes.[10] It inhabits rice paddies, lakes, pools, slow flowing rivers, streams, ditches, ponds, and canals called khlongs in Vietnam.[2][11] It has a benthic lifestyle and lives mainly in shallow littoral areas,[12] usually in soft mud rich in organic matter.[11] It can actively glide over the sediment or bury into it.[13] This species is not actively migrating, rather its dispersal appears to be caused passively by floods, animals (zoochory), and accidentally by humans.[7] The species prefers water temperatures typical of subtropical habitats, e.g., 6 to 30.1 °C (42.8 to 86.2 °F) in Lake Tai.[13]
Populations can reach densities of up to 400 snails/m2.[11] In Chao Lake, it is the dominant gastropod species with an abundance 2-128 snails/m2 and an average biomass of 87.5 g/m2.[14] It is similarly dominant in Lake Tai.[15]
S. quadrata has been found to respond well to laboratory conditions with a water temperature of 24 °C, pH 8 and a 1:4 ratio of sediment to water.[11]
Populations of S. quadrata at high densities are able to alter the physicochemical features of water. They decrease the concentration of chlorophyll a and thus directly increase water transparency. This indirectly decreases the concentration of dissolved oxygen through consumption of oxygen-producing algae.[12] The species affects the composition of the phytoplankton community by decreasing the biomass of mostly toxic cyanobacteria and flagellates and promoting the biomass of mostly colonial green algae.[16][12] Nitrogen concentrations may also be decreased.[16] Its pronounced effect on water chemistry and community composition makes S. quadrata a keystone species in its habitat.[8]
The pollution tolerance value is 6 (on scale 0–10; 0 is the best water quality, 10 is the worst water quality).[17]
Description
[edit]S. quadrata breathes with gills. The right tentacle is thickened in the male but not the female.[11] The dry weight of composition of this species is as follows: 28.6% foot, 23.06% intestine, 9.78% gonad, 8.58% hepatopancreas, 29.98% other tissue.[18] The diploid chromosome number of Sinotaia quadrata is 2n=16.[19]
The height of the shell is 20–30 mm (0.79–1.18 in), with both sexes having identical shell dimensions. Adults snails have shell of greater height than width. The shells of newborn snails are 2.93–3.70 mm (0.115–0.146 in) long, and differ from those of adults in being wider than high.[11] The snail including the shell has a weight of about 2.8 g.[16]
Ecology
[edit]Feeding habits
[edit]Sinotaia quadrata feeds on epiphytic algae.[10]
Sinotaia quadrata histrica snails predate also on eggs of bluegill Lepomis macrochirus.[20]
S. quadrata is a herbivorous deposit feeder.[11][21] It consumes mainly epiphytic algae,[22] but its diet also includes detritus, bacteria,[11] aquatic plants,[21] sand grains, diatoms, green algae,[23] and cyanobacteria such as Microcystis.[24] Its consumption of cyanobacteria during algal blooms may result in bioaccumulation of toxic microcystins (microcystin-LR, microcystin-RR) from Microcystis in the gonads, the hepatopancreas and the digestive tract.[24] Adult snails feeding ad libitum under ideal laboratory conditions eat 16.0 mg of fish food daily.[11]
Life cycle
[edit]Sinotaia quadrata has strong fecundity.[10] It is gonochoristic, which means that each individual animal is distinctly male or female.[7] The species is ovoviviparous.[21] Newborn snails attach to non-sediment substrates (shells of adults or other material) in their first 2–3 days.[11]
The shell length of juvenile snails starts at about 3 mm and grows rapidly by about 190 μm daily. Juveniles become adults at the age of nine weeks, when they reach a shell height of 12.15–16.09 mm; from then on, they grow more slowly at about 30 μm daily. Snails can be reliably sexed at this age.[11]
Individuals start mating and reproducing in at water temperatures of 16–18 °C, although a temperature of 24–26 °C is optimal. Females start to give birth to the first newborn snails at the age of 18 weeks, when they reach a shell height of 15–16 mm and a body weight of 0.81–0.94 g.[11][21] Gravidity of adult females lasts the entire year.[11] The average number of newborn snails in the wild is 0.24 snails per day (50 per year)[11][21] or up to 0.55 snails per day in the laboratory.[11] Each gravid female carries 19–21 embryos inside her.[11]
Generation time is quite short at about four months.[7][11] The species can have three generations per year in the aquarium.[11] The reproductive cycle is about six months.[21]
Environmental sensitivity
[edit]S. quadrata has been the subject of various aquatic toxicology studies into the effects of copper,[11][25] cadmium,[26] lead,[27] ethylbenzene,[28] 2,2',4,4'- tetrabromodiphenyl ether,[26][29] tributyltin,[30] microcystin,[31] multi-walled carbon nanotubes,[32] and 17β-estradiol.[33] The species has a high sensitivity to copper exposure and could thus be used for monitoring of sediment toxicity caused by environmental copper pollution.[11]
Sinotaia quadrata snails from West Lake in Hanoi, Vietnam were found to be contaminated with copper, lead and zinc.[34] The concentration of these elements in these snails exceeded standards of Food and Drug Administration and of Food Standards Australia New Zealand.[34]
Distribution of rare-earth elements was studied in a labolatory. Results shown bioaccumulation of lanthanum, samarium, gadolinium and yttrium in Sinotaia quadrata and there was found no bioaccumulation of cerium in this snail.[35]
Conservation
[edit]The species' population trend is unknown,[2] but population sizes are mostly large.[7] Water pollution and sedimentation are threats to local populations,[2] while more general threats include habitat fragmentation by damming and habitat destruction.[7] The genetic diversity of this species was found to be high in China.[7] S. quadrata is currently classified as Least Concern by the IUCN.[2]
Parasites and predators
[edit]Parasites of Sinotaia quadrata include trematode Aspidogaster conchicola.[36]
S. quadrata serves as an intermediate host for Angiostrongylus cantonensis[37][38] and for Echinochasmus fujianensis.[39]
Predators of the species include the black carp Mylopharyngodon piceus; S. quadrata is one of the main food sources for this fish, making it important in the freshwater food chain.[11]
Human use
[edit]Nutritional value per 100 g (3.5 oz) | |||||
---|---|---|---|---|---|
2.07 g[40] | |||||
Threonine | 3.416 g[40] | ||||
Isoleucine | 2.447 g | ||||
Leucine | 5.910 g | ||||
Lysine | 4.201 g | ||||
Methionine | 1.293 g | ||||
Cystine | 1.477 g | ||||
Phenylalanine | 2.401 g | ||||
Tyrosine | 3.232 g | ||||
Valine | 2.262 g | ||||
Arginine | 5.171 g | ||||
Histidine | 1.339 g | ||||
Alanine | 3.970 g | ||||
Aspartic acid | 7.387 g | ||||
Glutamic acid | 11.588 g | ||||
Glycine | 3.878 g | ||||
Proline | 2.170 g | ||||
Serine | 3.186 g | ||||
| |||||
Other constituents | Quantity | ||||
Water | 78.34 g[40] | ||||
Crude fat | 0.78 g[40] | ||||
Crude protein | 14.43 g[40] | ||||
Crude ash | 4.38 g[40] | ||||
†Percentages estimated using US recommendations for adults,[41] except for potassium, which is estimated based on expert recommendation from the National Academies.[42] |
Sinotaia quadrata is common animal food used in aquaculture to feed fish black carp[43] in China.[10]
This species is also eaten by humans. In Isan, Thailand they are collected by hand or with a handnet from canals, swamps, ponds and flooded rice paddy fields during the rainy season. During the dry season, snails live under dried mud. Collectors use a spade to scrape the ground to find and catch them. Generally they are collected by both men and women.[4] The snails are then cleaned and cooked in a curry. They are also parboiled in salted water and eat together with green papaya salad.[4] S. quadrata is commonly sold in markets and restaurants in China[44] and constitutes one of the three predominant freshwater snails found in Chinese markets,[38] where it is considered a delicacy.[18] The species is also used as feed in crab culture[24] as well as fish, poultry and livestock raising.[2] The annual production of S. quadrata in Chao Lake in 2002 amounted to 28 084 t.[24] Although harvesting pressure in China is high, the high genetic diversity suggests that the species is currently not negatively affected by it.[7]
References
[edit]This article incorporates CC-BY-2.0 text from reference.[4]
- ^ a b Teng-Chien Yen. 1943. Review and summary of Tertiary and Quaternary non-marine mollusks of China.. Proceedings of the Academy of Natural Sciences (Vol. XCV, 1943). 267-309. Page 284.
- ^ a b c d e f g Köhler F. & Richter K. (2012). "Sinotaia quadrata". In: The IUCN Red List of Threatened Species 2012: e.T166310A1129870. Downloaded on 23 November 2015.
- ^ "WoRMS - World Register of Marine Species - Sinotaia quadrata (W. H. Benson, 1842)". www.marinespecies.org. Retrieved 2024-05-04.
- ^ a b c d Setalaphruk, C.; Price, L. L. (2007). "Children's traditional ecological knowledge of wild food resources: a case study in a rural village in Northeast Thailand". Journal of Ethnobiology and Ethnomedicine. 3 (1): 33. doi:10.1186/1746-4269-3-33. PMC 2100045. PMID 17937791.
- ^ Species: Viviparus quadratus Bs. accessed 21 September 2009
- ^ Capítulo, Alberto Rodrigues; Altieri, Paula; Ocon, Carolina; Rumi, Alejandra; Paz, Estefanía L.; Ferreira, Ana Clara; Capítulo, Alberto Rodrigues; Altieri, Paula; Ocon, Carolina (June 2017). "Ecology of the non-native snail Sinotaia cf quadrata (Caenogastropoda: Viviparidae). A study in a lowland stream of South America with different water qualities". Anais da Academia Brasileira de Ciências. 89 (2): 1059–1072. doi:10.1590/0001-3765201720160624. hdl:11336/24555. ISSN 0001-3765. PMID 28640353.
- ^ a b c d e f g h i Gu, Qian H.; Husemann, Martin; Ding, Baoqing; Luo, Zhi; Xiong, Bang X. (2015). "Population genetic structure of Bellamya aeruginosa(Mollusca: Gastropoda: Viviparidae) in China: Weak divergence across large geographic distances". Ecology and Evolution. 5 (21): 4906–4919. doi:10.1002/ece3.1673. PMC 4662307. PMID 26640670.
- ^ a b Zheng, Zhongming; Lv, Jing; Lu, Kaihong; Jin, Chunhua; Zhu, Jinyong; Liu, Xiasong (2011). "The Impact of Snail (Bellamya aeruginosa) Bioturbation on Sediment Characteristics and Organic Carbon Fluxes in an Eutrophic Pond". CLEAN - Soil, Air, Water. 39 (6): 566–571. doi:10.1002/clen.201000212.
- ^ Madsen, H.; Hung, N.M. (2015). "Reprint of "An overview of freshwater snails in Asia with main focus on Vietnam"". Acta Tropica. 141 (Pt B): 372–384. doi:10.1016/j.actatropica.2014.10.014. PMID 25446169.
- ^ a b c d Shan Jian 1985.Integrated fish farming in China. Training manual. Chapter III Pond fertilization and fish feeds. Network of Agriculture centres in Asia, Bangkok, Thailand. 371 pp.
- ^ a b c d e f g h i j k l m n o p q r s t u Ma, Taowu; Gong, Shuangjiao; Zhou, Ke; Zhu, Cheng; Deng, Kaidong; Luo, Qinghua; Wang, Zijian (2010). "Laboratory culture of the freshwater benthic gastropod Bellamya aeruginosa (Reeve) and its utility as a test species for sediment toxicity". Journal of Environmental Sciences. 22 (2): 304–313. doi:10.1016/S1001-0742(09)60109-1. PMID 20397422.
- ^ a b c Zhu, Jinyong; Lu, Kaihong; Liu, Xiasong (2013). "Can the freshwater snail Bellamya aeruginosa (Mollusca) affect phytoplankton community and water quality?". Hydrobiologia. 707: 147–157. doi:10.1007/s10750-012-1417-1. S2CID 14221188.
- ^ a b Zhang, Lei; Liao, Qianjiahua; He, Wei; Shang, Jingge; Fan, Chengxin (2013). "The effects of temperature on oxygen uptake and nutrient flux in sediment inhabited by molluscs". Journal of Limnology. 72: e2. doi:10.4081/jlimnol.2013.e2.
- ^ Gao F., Deng J. C., Xu Z. B., Ning Y., Yin H. B. & Gao J. F. (2011). "Ecological characteristics of macrobenthic communities in the Chaohu Lake Basin and their relationship with environmental factors". Journal of Animal and Veterinary Advances 10(5): 627–634. PDF.
- ^ YongJiu, C.; ZhiJun, G.; BoQiang, Q. (2010). "Community structure and diversity of macrozoobenthos in Lake Taihu, a large shallow eutrophic lake in China". Biodiversity Science. 18 (1): 50–59. doi:10.3724/sp.j.1003.2010.050. S2CID 88421204.
- ^ a b c Han, Shiqun; Yan, Shaohua; Chen, Kaining; Zhang, Zhenhua; Zed, Rengel; Zhang, Jianqiu; Song, Wei; Liu, Haiqin (2010). "15N isotope fractionation in an aquatic food chain: Bellamya aeruginosa (Reeve) as an algal control agent". Journal of Environmental Sciences. 22 (2): 242–247. doi:10.1016/S1001-0742(09)60100-5. PMID 20397413.
- ^ Young, S.-S.; Yang, H.-N.; Huang, D.-J.; Liu, S.-M.; Huang, Y.-H.; Chiang, C.-T.; Liu, J.-W. (2014). "Using Benthic Macroinvertebrate and Fish Communities as Bioindicators of the Tanshui River Basin Around the Greater Taipei Area — Multivariate Analysis of Spatial Variation Related to Levels of Water Pollution". International Journal of Environmental Research and Public Health. 11 (7): 7116–7143. doi:10.3390/ijerph110707116. PMC 4113864. PMID 25026081.
- ^ a b Zhang, Dawen; Xie, Ping; Liu, Yaqin; Chen, Jun; Liang, Gaodao (2007). "Bioaccumulation of the Hepatotoxic Microcystins in Various Organs of a Freshwater Snail from a Subtropical Chinese Lake, Taihu Lake, with Dense Toxic Microcystis Blooms". Environmental Toxicology and Chemistry. 26 (1): 171–176. doi:10.1897/06-222R.1. PMID 17269475. S2CID 23490708.
- ^ Zhou D., Zhou M. & Wu Z. (1988). "The karyotype of five species of freshwater snails of the family Viviparidae". Acta Zoologica Sinica 34: 364–370. abstract.
- ^ (in Japanese) Nakao H., Kawabata T., Fujita K., Nakai K. & Sawada H. (2006). "Predation on bluegill (Lepomis macrochirus) broods by native snails. Japanese Journal of Ichthyology 53(2): 167–173. PDF.
- ^ a b c d e f Xu, Meng; Mu, Xidong; Dick, Jaimie T. A.; Fang, Miao; Gu, Dangen; Luo, Du; Zhang, Jiaen; Luo, Jianren; Hu, Yinchang (2016). "Comparative Functional Responses Predict the Invasiveness and Ecological Impacts of Alien Herbivorous Snails". PLOS ONE. 11 (1): e0147017. Bibcode:2016PLoSO..1147017X. doi:10.1371/journal.pone.0147017. PMC 4714930. PMID 26771658.
- ^ Xu, Jun; Zhang, Min; Xie, Ping (2007). "Size-related shifts in reliance on benthic and pelagic food webs by lake anchovy". Écoscience. 14 (2): 170–177. doi:10.2980/1195-6860(2007)14[170:SSIROB]2.0.CO;2. S2CID 55224954.
- ^ Xu, J; Wen, Z; Ke, Z; Zhang, M; Zhang, M; Guo, N; Hansson, L. A.; Xie, P (2014). "Contrasting energy pathways at the community level as a consequence of regime shifts". Oecologia. 175 (1): 231–241. Bibcode:2014Oecol.175..231X. doi:10.1007/s00442-013-2878-2. PMC 3992223. PMID 24414311.
- ^ a b c d Chen, Jun; Xie, Ping; Guo, Longgen; Zheng, Li; Ni, Leyi (2005). "Tissue distributions and seasonal dynamics of the hepatotoxic microcystins-LR and -RR in a freshwater snail (Bellamya aeruginosa) from a large shallow, eutrophic lake of the subtropical China". Environmental Pollution. 134 (3): 423–430. doi:10.1016/j.envpol.2004.09.014. PMID 15620587.
- ^ Li, Zi-Cheng; An, Li-Hui; Fu, Qing; Liu, Ying; Zhang, Lei; Chen, Hao; Zhao, Xing-Ru; Wang, Li-Jing; Zheng, Bing-Hui; Zhang, Lin-Bo (2011). "Construction and characterization of a normalized cDNA library from the river snail Bellamya aeruginosa after exposure to copper". Ecotoxicology. 21 (1): 260–7. doi:10.1007/s10646-011-0786-y. PMID 21915736. S2CID 3406154.
- ^ a b "铜锈环棱螺HSP70对Cd和BDE-47胁迫的响应敏感性" [Response Sensitivity of HSP70 in Bellamya aeruginosa Exposed to Cadmium and BDE-47]. Journal of Chongqing Normal University (in Chinese): 22–28. doi:10.11721/cqnuj20140605.
- ^ (in Chinese) Ma T. W., Zhu C., Zhou K. et al. (2010). Cd Pb单一及复合污染沉积物对铜锈环棱螺肝胰脏SOD和MT的影响 "Effects of Cd, Pb, and combined contaminated sediments on hepatopancreatic SOD and MT in Bellamya aeruginosa". Journal of Agro-Environment Science 29(1): 30–37. abstract.
- ^ Zheng, Shimei; Zhou, Qixing; Gao, Jie; Xiong, Hongxia; Chen, Cuihong (2012). "Behavioral alteration and DNA damage of freshwater snail Bellamya aeruginosa stressed by ethylbenzene and its tissue residue". Ecotoxicology and Environmental Safety. 81: 43–48. doi:10.1016/j.ecoenv.2012.04.016. PMID 22591725.
- ^ (in Chinese) Zhou K., Ma T. W., Zhu C. et al. (2010). 2,2',4,4'-四溴联苯醚(BDE-47)污染沉积物对铜锈环棱螺肝胰脏的SOD、CAT和EROD活性的影响 "Effect of 2,2',4,4'- tetrabromodiphenyl ether (BDE-47)-contaminated sediments on SOD, CAT, and EROD activities in the hepatopancreas of Bellamya aeruginosa". Acta Scientiae Circumstantiae 30(8): 1666–1673. abstract, PDF.
- ^ (in Chinese) Peng J. Y., Liu J., Ma T. W. et al. (2012). "Effects of sediment associated tributyltin (TBT) on the hepatopancreatic antioxidant defense system of Bellamya aeruginosa". Shanghai Envinmental Sciences 31(3): 97–101. abstract.
- ^ Zhu, Jinyong; Lu, Kaihong; Zhang, Chunjing; Liang, Jingjing; Hu, Zhiyong (2011). "Biochemical and Ultrastructural Changes in the Hepatopancreas of Bellamya aeruginosa(Gastropoda) Fed with Toxic Cyanobacteria". The Scientific World Journal. 11: 2091–2105. doi:10.1100/2011/402326. PMC 3217598. PMID 22125458.
- ^ (in Chinese) Liu S.-S., Long Y., Wang M., Ma T.-W. (2015). 沉积物 底栖动物体系中多壁碳纳米管对镉生态毒性的影响 "Effects of Multiwalled Carbon Nanotubes on Ecotoxicity of Cd in Sediment⁃Zoobenthos System". Journal of Ecology and Rural Environment 31(3): 414–419. PDF.
- ^ Lei, Kun; Liu, Ruizhi; An, Li-hui; Luo, Ying-Feng; Leblanc, Gerald A. (2014). "Estrogen alters the profile of the transcriptome in river snail Bellamya aeruginosa". Ecotoxicology. 24 (2): 330–338. doi:10.1007/s10646-014-1381-9. PMID 25398503. S2CID 9872876.
- ^ a b Pham, Nga Thi Thu; Pulkownik, Alexandra; Buckney, Rodney T. (2007). "Assessment of heavy metals in sediments and aquatic organisms in West Lake (Ho Tay), Hanoi, Vietnam". Lakes & Reservoirs: Research & Management. 12 (4): 285–294. doi:10.1111/j.1440-1770.2007.00343.x.
- ^ Yang, Xingye; Yin, Daqiang; Sun, Hao; Wang, Xiaorong; Dai, Lemei; Chen, Yijun; Cao, Mi (1999). "Distribution and bioavailability of rare earth elements in aquatic microcosm". Chemosphere. 39 (14): 2443–2450. Bibcode:1999Chmsp..39.2443Y. doi:10.1016/S0045-6535(99)00172-1.
- ^ Alevs, Philippe V.; Vieira, Fabiano M.; Santos, Cláudia P.; Scholz, Tomáš; Luque, José L. (2015-02-12). "A Checklist of the Aspidogastrea (Platyhelminthes: Trematoda) of the World". Zootaxa. 3918 (3): 339–96. doi:10.11646/zootaxa.3918.3.2. ISSN 1175-5334. PMID 25781098.
- ^ (in Chinese) Lin J. X., Zhou X. N., Li L. S., Zhang Y., Cheng Y. Z. & Zhang R. Y. (2005). 铜锈环棱螺(Bellamya aeruginosa)作为广州管圆线虫中间宿主的发现 "Bellamya aeruginosa acts as the intermediate host for Angiostrongylus cantonensis". Chinese Journal of Zoonoses 21(1): 24–26. abstract.
- ^ a b Lv S., Zhang Y., Steinmann P. &, Zhou X.-N. (2008). "Emerging angiostrongyliasis in mainland China". Emerging Infectious Diseases 14(1): 161–164. HTM.
- ^ Chai, Jong-Yil; Shin, Eun-Hee; Lee, Soon-Hyung; Rim, Han-Jong (2009). "Foodborne Intestinal Flukes in Southeast Asia". The Korean Journal of Parasitology. 47 (Suppl): S69–S102. doi:10.3347/kjp.2009.47.S.S69. PMC 2769220. PMID 19885337.
- ^ a b c d e f (in Chinese) Hanfeng Z. & Jiale L. (2012). 浙江地区 3 种淡水经济贝类的营养成分分析与评价 "Analysis and Evaluation on Nutritional Components of Three Freshwater Mussels from Zhejiang Province". Chinese Agricultural Science Bulletin 28(2): 78–82. abstract.
- ^ United States Food and Drug Administration (2024). "Daily Value on the Nutrition and Supplement Facts Labels". FDA. Archived from the original on 2024-03-27. Retrieved 2024-03-28.
- ^ National Academies of Sciences, Engineering, and Medicine; Health and Medicine Division; Food and Nutrition Board; Committee to Review the Dietary Reference Intakes for Sodium and Potassium (2019). Oria, Maria; Harrison, Meghan; Stallings, Virginia A. (eds.). Dietary Reference Intakes for Sodium and Potassium. The National Academies Collection: Reports funded by National Institutes of Health. Washington, DC: National Academies Press (US). ISBN 978-0-309-48834-1. PMID 30844154. Archived from the original on 2024-05-09. Retrieved 2024-06-21.
- ^ NACA 1989. Yu Shigang. Integrated fish farming in China Chapter 3 POND FERTILIZATION AND FISH FEEDS. Pond Fertilization. Integrated Fish Farming in China. NACA Technical Manual 7. A World Food Day Publication of the Network of Aquaculture Centres in Asia and the Pacific, Bangkok, Thailand. 278 pp.,accessed 22 September 2009.
- ^ Lv, Shan; Zhang, Yi; Liu, He-Xiang; Hu, Ling; Yang, Kun; Steinmann, Peter; Chen, Zhao; Wang, Li-Ying; Utzinger, Jürg; Zhou, Xiao-Nong (2009). "Invasive Snails and an Emerging Infectious Disease: Results from the First National Survey on Angiostrongylus cantonensis in China". PLOS Neglected Tropical Diseases. 3 (2): e368. doi:10.1371/journal.pntd.0000368. PMC 2631131. PMID 19190771.
Further reading
[edit]- Chen, Q (1987). "A preliminary study on the population dynamics and annual production of Bellamya aeruginosa (Reeve) in lake East Lake (Wuhan)–Dong Hu, Wuhan". Acta Hydrobiologica Sinica (in Chinese). 11 (2): 117–130.
- Qu, M. Z.; Qu, Y. F.; Ren, W. W.; Wang, Y. X.; Wu, Q. H. (2010). "The mechanism of controlling Microcystis bloom by Bellamya aeruginosa". Journal of Fudan University. 49: 301–308.
- Xiong, Y. Q.; You, W. H. (2002). "Preliminary study on effects of SOD and catalase of Bellamya aeruginosa raised in Suzhou Creek". Journal of East China Normal University. 4: 96–101.
- (in German) Yen T.-C. (1939). "Die chinesischen Land- und Süßwasser-Gastropoden des Natur-Museums Senckenberg". Senckenbergische Naturforschende Gesellschaft, Frankfurt, Germany.
- Yin, Hongbin; Cai, Yongjiu; Duan, Hongtao; Gao, Junfeng; Fan, Chengxin (2014). "Use of DGT and conventional methods to predict sediment metal bioavailability to a field inhabitant freshwater snail (Bellamya aeruginosa) from Chinese eutrophic lakes". Journal of Hazardous Materials. 264: 184–194. doi:10.1016/j.jhazmat.2013.11.030. PMID 24295770.
- Yun-Jun, Yan; Yan-Ling, Liang; Hong-Zhu, Wang (2001). "Energy flow of Bellamya aeruginosa in a shallow algal lake, Houhu Lake (Wuhan, China)". Chinese Journal of Oceanology and Limnology. 19 (3): 243–248. Bibcode:2001ChJOL..19..243Y. doi:10.1007/BF02850661. S2CID 84733383.
- (in German) Zilch A. (1958). "Die Typen und Typoide des Natur-Museums Senckenberg, 21: Mollusca, Cyclophoridae, Craspedopominae-Cochlostominae". Archiv für Molluskenkunde 87: 53–76.
External links
[edit]- Media related to Sinotaia quadrata at Wikimedia Commons