ZHOU Jian, SONG Jingjing, BAI Qianling, LIU Chengyue, ZHANG Zhipeng, TANG Haitian. Habitat suitability of Scapharca subcrenata (Lischke) in the shallow water of the Xiaoheishan Island[J]. Acta Oceanologica Sinica, 2016, 35(12): 51-57. doi: 10.1007/s13131-016-0958-y
Citation: ZHOU Jian, SONG Jingjing, BAI Qianling, LIU Chengyue, ZHANG Zhipeng, TANG Haitian. Habitat suitability of Scapharca subcrenata (Lischke) in the shallow water of the Xiaoheishan Island[J]. Acta Oceanologica Sinica, 2016, 35(12): 51-57. doi: 10.1007/s13131-016-0958-y

Habitat suitability of Scapharca subcrenata (Lischke) in the shallow water of the Xiaoheishan Island

doi: 10.1007/s13131-016-0958-y
  • Received Date: 2015-10-19
  • Rev Recd Date: 2016-06-13
  • The habitat suitability index (HSI) model was used to identify potential sites for sustainable restoration of ark shell, Scapharca subcrenata (Lischke), in the shallow water of Xiaoheishan Island, using a geographic information system framework. The seven input variables of the HSI model were sediment composition, water temperature, salinity, dissolved oxygen, water depth, pH, and ammonia. A non-linear suitability function for each variable factor was used to transform the value into a normalized quality index ranging from 0 (non-suitability) to 1 (best suitability). In present study, the analysis of habitat suitability was conducted for four seasons respectively. The majority of the study area has a high HSI value (>0.6) year round, which implies a strong suitability for restoration, with the optimal habitat located on the eastern side of the island. Correspondence analysis indicated that water temperature was the main factor causing seasonal variation, while sediment composition and water depth were the two major reasons for the differences in sites. The results of this work could provide support for restoration decision making through identification of potential sites for sustainable establishment of S. subcrenata.
  • loading
  • Barnes T K, Mazzotti F J, Pearlstine L G, et al. 2006. Habitat evalu-ation in coastal southwestern Florida:a policy decision model for the blue crab, Callinectes sapidus. Florida Scientist, 69:140-151
    Barnes T K, Volety A K, Chartier K, et al. 2007. A habitat suitability in-dex model for the eastern oyster (Crassostrea virginica), a tool for restoration of the Caloosahatchee Estuary, Florida. Journal of Shellfish Research, 26(4):949-959
    Bell J D, Leber K M, Blankenship H L, et al. 2008. A new era for re-stocking, stock enhancement and sea ranching of coastal fish-eries resources. Reviews in Fisheries Science, 16(1-3):1-9
    Carvalho J, Martins L, Silva J P, et al. 2012. Habitat suitability model for red deer (Cervus elaphus Linnaeus, 1758):spatial multi-cri-teria analysis with GIS application. Galemys, 24(1):47-56
    Chen Jianhua, Yan Binlun, Gao Huan. 2006. Biological characterist-ics of ark shell Scapharca subcrenata and the research progress. Hebei Fisheries (in Chinese), 9:24-25, 49
    Cheng Jiahua, Jiang Yazhou. 2010. Marine stock enhancement:re-view and prospect. Journal of Fishery Sciences of China (in Chinese), 17(3):610-617
    Els..er B, Fari.as-Franco J M, Wilson C D, et al. 2013. Identifying op-timal sites for natural recovery and restoration of impacted bio-genic habitats in a special area of conservation using hydro-dynamic and habitat suitability modelling. Journal of Sea Re-search, 77:11-21
    Fan Guokun, Han Jiabo, Huang Jicheng, et al. 2005. The spotted seals in Miaodao islands. Fisheries Science (in Chinese), 24(3):16-18
    Fang Jun, Yan Maocang, Zhang Jiongming, et al. 2008. Preliminary studies on the effects of pH and ammonia on growth and sur-vival to Scapharca subcrenata juveniles. Journal of Zhejiang Ocean University (Natural Science) (in Chinese), 27(3):281-285.
    FAO. 2007. Fisheries Circular. No. 815, Review 10. Rome:FAO, 197
    Fu Zhuo, Zhu Shouwei. 2008. Investigation on the result of multiplic-ation of blood clam Scapharca subcrenata in shallow sea of Jin-zhou. Hebei Fisheries (in Chinese), (2):40-42
    Gao Xiaolong. 2013. The impact of breeding densities, substratum, predators on the grown and survival of the bloody clam (Scapharca subcrenata) (in Chinese)[dissertation]. Qingdao:Ocean University of China
    General Administration of Quality Supervision, Inspection and Quar-antine of the People's Republic of China (AQSIQ), Standardiza-tion Administration of the People's Republic of China. 2008. GB17378.4-2007 The specification for marine monitoring-Part 4:seawater analysis (in Chinese). Beijing:China Standards Press, 1-162
    General Administration of Quality Supervision, Inspection and Quar-antine of the People's Republic of China(AQSIQ), Standardiza-tion Administration of the People's Republic of China. 2008. GB 17378.5-2007 The specification for marine monitoring-Part 5:sediment analysis (in Chinese). Beijing:China Standards Press, 1-104
    Gomez E D, Mingoa-Licuanan S S. 2006. Achievements and lessons learned in restocking giant clams in the Philippines. Fisheries Research, 80(1):46-52
    Gong Caixia, Chen Xinjun, Gao Feng, et al. 2011. Review on habitat suitability index in fishery science. Journal of Shanghai Ocean University (in Chinese), 20(2):260-269
    Hirzel A H, Le Lay G. 2008. Habitat suitability modelling and niche theory. Journal of Applied Ecology, 45(5):1372-1381 Hou Yingmin. 2010. The Sea Situation of Shandong Province (in Chinese). Beijing:China Ocean Press, 72, 239 Huehner M K. 1987. Field and laboratory determination of substrate preferences of unionid mussels. Ohio Journal of Science, 87(1):29-32
    Jin Longru, Sun Keping, He Hongshi, et al. 2008. Research advances in habitat suitability index model. Chinese Journal of Ecology (in Chinese), 27(5):841-846
    J.rgensen S E. 2009. Ecosystem Ecology. Fletcher, NC, USA:Academ-ic Press, 379
    Kim S Y, Shin Y K, Lim H K, et al. 2008. Gonadal development and re-productive cycle of the ark shell Scapharca subcrenata (bi-valvia:arcidae) from Yeoja Bay. Journal of Aquaculture (in Korean), 21(4):252-258
    Kliskey A D, Lofroth E C, Thompson W A, et al. 1999. Simulating and evaluating alternative resource-use strategies using GIS-based habitat suitability indices. Landscape and Urban Planning, 45(4):163-175
    Kong Mei, Huang Haijun, Gao Xingguo, et al. 2010. Assessment of the environmental impacts of Changdao Island development. Mar-ine Sciences (in Chinese), 34(10):96-100
    Kooijman S A L M. 2010. Dynamic energy budget theory for metabol-ic organisation. 3rd ed. Cambridge, UK:Cambridge University Press
    Lee J H. 1998. A study on sexual maturation of the ark shell, Scapharca subcrenata Lischke. Korean Journal of Malacology (in Korean), 14(2):91-102.
    Li Fengqing, Cai Qinghua, Fu Xiaocheng, et al. 2009. Construction of habitat suitability models (HSMs) for benthic macroinverteb-rate and their applications to instream environmental flows:a case study in Xiangxi River of Three Gorges Reservior region, China. Progress in Natural Science, 19(3):359-367
    Liu Aiying, Ma Yuncong, Zhao Guanghua, et al. 2005. Large scale ar-tifical breeding of Scapharca subcrenata. Transactions of Oceanology and Limnology (in Chinese), (1):86-90
    Liu Mengxia, Wang Qixiang, Liu Ming, et al. 2012. Research on Habit-at Suitability of Benthic Organisms in the Coastal Water of Shandong Province (in Chinese). Beijing:China Ocean Press, 176
    Longdill P C, Healy T R, Black K P. 2008. An integrated GIS approach for sustainable aquaculture management area site selection. Ocean & Coastal Management, 51(8-9):612-624
    Ortigosa G R, De Leo G A, Gatto M. 2000. Integrating modelling and GIS in a software tool for habitat suitability assessment. Envir-onmental Modelling & Software, 15(1):1-12
    Park H J, Lee W C, Choy E J, et al. 2011. Reproductive cycle and gross biochemical composition of the ark shell Scapharca subcrenata (Lischke, 1869) reared on subtidal mudflats in a temperate bay of Korea. Aquaculture, 322-323:149-157
    Pastres R, Solidoro C, Cossarini G, et al. 2001. Managing the rearing of Tapes philippinarum in the lagoon of Venice:a decision sup-port system. Ecological Modelling, 138(1-3):231-245
    Prié V, Molina Q, Gamboa B. 2014. French naiad (Bivalvia:Margariti-feridae, Unionidae) species distribution models:prediction maps as tools for conservation. Hydrobiologia, 735(1):81-94
    Rinaldi A, Montalto V, Manganaro A, et al. 2014. Predictive mechan-istic bioenergetics to model habitat suitability of shellfish cul-ture in coastal lakes. Estuarine, Coastal and Shelf Science, 144:89-98
    Ruiz C, Martinez D, Mosquera G, et al. 1992. Seasonal variations in condition, reproductive activity and biochemical composition of the flat oyster, Ostrea edulis, from San Cibran (Galicia, Spain). Marine Biology, 112(1):67-74
    Rushton S P, Ormerod S J, Kerby G. 2004. New Paradigms for Model-ling Species Distributions?. Journal of Applied Ecology, 41(2):193-200
    Shen Weiliang, You Zhongjie, Shi Xiangyuan. 2009. The influence of temperature and salinity on zygote's hatchingrate and larval growth of Scapharca subcrenata. Marine Sciences (in Chinese), 33(10):5-8
    Shi Xiangyuan, You Zhongjie, Shen Weiliang, et al. 2007. Effects of sa-linity on growth and survival in juvenile clam Scapharca sub-crenata. Fisheries Science (in Chinese), 26(10):554-556
    Short F T, Davis R C, Kopp B S, et al. 2002. Site-selection model for optimal transplantation of eelgrass Zostera marina in the northeastern US. Marine Ecology Progress Series, 227:253-267
    Song Feifei. 2012. Population morphology and genetics of Scapharca subcrenata near the coasts of Shandong Peninsula (in Chinese)[dissertation]. Qingdao:Ocean University of China
    The Commission of Island Topographies of China. 2013. Island Topo-graphies of China (Shandong:Volume I) (in Chinese). Beijing:China Ocean Press, 616
    Tian Xiaoping, Wang Feng, Ge lijun, et al. 2009. The influence of am-monia nitrogen, nitrite and pH on breeding of Scapharca sub-crenata. Hebei Fisheries (in Chinese), (4):10-12
    Vinagre C, Fonseca V, Cabral H, et al. 2006. Habitat suitability index models for the juvenile soles, Solea solea and Solea senegalen-sis, in the Tagus estuary:defining variables for species manage-ment. Fisheries Research, 82(1-3):140-149
    Vincenzi S, Caramori G, Rossi R, et al. 2006. A GIS-based habitat suit-ability model for commercial yield estimation of Tapes philip-pinarum in a Mediterranean coastal lagoon (Sacca di Goro, Italy). Ecological Modelling, 193(1-2):90-104
    Wang Jianhua, Zhou Yanheng, Bai Jinhai, et al. 2009. Study on artifi-cial breeding of Scapharaca subcrenata (Lischke). Hebei Fish-eries (in Chinese), (3):33-33
    Yang Yuxiang, Liang Weibo, Zheng Guofu. 2003. Reproductive Sea-son of Scapharca subcrenata in Liaodong Bay. Fisheries Sci-ence (in Chinese), 22(3):17-19
    Yang Feng, Liu Dan, Yu Qian, et al. 2012. Influences of environment-al factors on excrement and sand purification in blood clamp Scapharca subcrenata. Journal of Dalian Ocean University (in Chinese), 27(6):523-527
    Zhai Linxiang, Mao Hongqian. 2010. Study on reproductive biology and artificial breeding technology of Scapharca subcrenata. Modern Agricultural Science and Technology (in Chinese), (4):345-346
    Zhou Jun, Zhang Haipeng, Li Yiqun, et al. 2005. On biological charac-teristics of Scaphara subcrenata. Hebei Fisheries (in Chinese), (2):18-20
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (1205) PDF downloads(858) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return