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为研究海州湾小黄鱼(Larimichthys polyactis)的空间分布特征。于2011、2013及2014年的春、秋两季在海州湾进行了渔业资源与栖息环境综合调查,根据调查结果和同步采集的底层水温、底层盐度及水深数据,构建了海州湾小黄鱼的栖息地适宜性指数(Habitat suitability index,HSI)模型,利用赤池信息量准则值(Akaike information criterion,AIC)检验算术平均法(AM)和几何平均法(GM)的拟合度,对模型输出结果进行分析和比较。研究表明:除秋季的水深外,其余各环境因子与适宜性指数间均呈现明显的正态或偏正态关系。通过AIC检验发现,春季用几何平均法拟合栖息地适宜性指数的效果较好,而秋季用算术平均法拟合的效果较好。小黄鱼的最适栖息地存在明显的年间变化和季节变化,春季HSI高值区域多集中于34.7°N,120.2°E附近海域;秋季HSI高值中心位于34.5°N~34.7°N,120.0°E~120.2°E附近海域。研究结果表明,栖息地适宜性指数模型能够较好地反映海州湾小黄鱼栖息地的分布和变化情况,在单因素SI极小值出现频率较高的情况下,算术平均法要优于几何平均法。
Abstract:Larimichthys polyactis,small yellow croaker,is one of the dominant fish species along Chinese coast.It also sdplays an important role in marine ecosystem.Previous studies focused on its growth and mortality,stock assessment,migration;however few on its habitat quality.In this study,habitat suitability index(HSI)models were used to evaluate the habitat quality of small yellow croaker in Haizhou Bay,China.Habitat suitability was determined with data collected from bottom trawl surveys in Haizhou Bay in spring and autumn in 2011,2013 and 2014.March represented springs while September represented the autumn in 2011 and October represented autumn in 2013 and 2014.Sea bottom temperature(SBT),sea bottom salinity(SBS)and depth were used in HSI model by reclassifying the habitat map on a 0-1suitability index range.Following reclassification,the arithmetic mean(AM)and geometric mean(GM)of the suitability indexof each variable were calculated and the map of habitat suitability was illustrated with Surfer 11.0.Goodness of fit for the two modeling methods was tested with Akaike Information Criterion(AIC).The results of different modeling methods were used to calculate the habitat suitability index(HSI).Results showed that small yellow croaker mainly inhabited the area where SBT ranged from 14.0to 16.0 ℃,SBS ranged from 31.2to 31.8,and depth ranged from 14.0to 20.0min spring.In autumn,small yellow croaker mainly inhabited the area where SBT varied between 22.4and 22.7 ℃,SBS varied between 30.4and 30.7,and depth varied between 14.6and 16.6m.All environmental factors expect for depth related either normally or half-normally with suitability index(P<0.01).The value of AIC indicated that the best goodness of fit calculated with equations in different months was different.Geometric mean model produced better estimation in spring whereas arithmetic mean model produced better estimation in autumn.The area with the highest habitat quality showed an obvious variation between years.The highest HSI mainly distributed near the offshore in spring,the area of 34.7°N and 120.2°E,whereas it appeared around the area of 34.5°N~34.7°N,120.0°E~120.2°E in autumn.This study suggested that the HSI model based on SBT,SBS and depth can better predict suitable habitats of small yellow croaker in Haizhou Bay,and the AM model is better than the GM model when there are too many minimum suitability index of single factor.
[1]郑元甲,陈雪忠,程家骅,等.东海大陆架生物资源与环境[M].上海:上海科学技术出版社,2003:286-637.Zhen Y J,Chen X Z,Cheng J H,et al.Biological Resources and the Environment of the Continental Shelf in East China Sea[M].Shanghai:Shanghai Scientific and Technical Publishers,2003:286-637.
[2]严利平,胡芬,凌建忠,等.东海北部和黄海南部小黄鱼年龄与生长的研究[J].中国海洋大学学报(自然科学版),2006,36(1):95-100.Yan L P,Hu F,Ling J Z,et al.Study on age and growth of Larimichthy Polyactis in the East China Sea[J].Periodical of Ocean University of China,2006,36(1):95-100.
[3]林龙山,姜亚洲,严利平,等.黄海南部和东海小黄鱼产卵亲体分布特征与繁殖力的研究[J].上海海洋大学学报,2009(4):453-459.Lin L S,Jiang Y Z,Yan L P,et al.Study on the distribution characteristics and fecundity of spawning stock of Larimichthy polyactis in the Southern Yellow Sea and the East China Sea[J].Journal of Shanghai Ocean University,2009(4):453-459.
[4]薛莹,金显仕,张波,等.黄海中部小黄鱼摄食习性的体长变化与昼夜变化[J].中国水产科学,2004,11(5):420-425.Xue Y,Jin X S,Zhang B,et al.Ontogenetic and diel variation in feeding habits of small yellow croaker Pseudosciaena polyactis bleeker in the central part of Yellow Sea[J].Journal of Fishery Sciences of China,2004,11(5):420-425.
[5]刘尊雷,严利平,袁兴伟,等.基于多源数据的东海小黄鱼资源评估与管理[J].中国水产科学,2013,20(5):1039-1049.Liu Z L,Yan L P,Yuan X W,et al.Stock sssessment of small yellow croaker in the East China Sea Based on multi-source data[J].Journal of Fishery Sciences of China,2013,20(5):1039-1049.
[6]毛锡林,俞积楚,秦忆芹.小黄鱼[M]//农牧渔业部水产局,农牧渔业部东海区渔业指挥部.东海区渔业资源调查和区划.上海:华东师范大学出版社,1987:339-356.Mao X L,Yu J C,Qin Y J.Small Yellow Croaker[M]//Aquatic bureau of Agriculture and Fisheries Department,Fisheries Headquarters in the East China Sea of Agriculture and Fisheries Department.Fisheries Resources Survey and Zoning of the East China Sea.Shanghai:East China Normal University Press,1987:339-356.
[7]刘效舜.小黄鱼[M]//农牧渔业部水产局,农业部黄海区渔业指挥部.黄渤海区渔业资源调查与区划.北京:海洋出版社,1990:191-200.Liu X S.Small Yellow Croaker[M]//Aquatic Bureau of Agriculture and Fisheries Department,Fisheries Headquarters in the Yellow Sea of Agriculture and Fisheries Department.Beijing:Fisheries Resources Survey and Zoning of the Yellow Sea.Ocean Press,1990:191-200.
[8]徐兆礼,陈佳杰.小黄鱼洄游路线分析[J].中国水产科学,2009,16(6):931-940.Xu Z L,Chen J J.Analysis on migratory routine of Larimichthy Polyactis[J].Journal of Fishery Sciences of China,2009,16(6):931-940.
[9]Duel H B,Pedroli W E,Laane M.The habitat evaluation procedure in the policy analysis of inland waters in the Netherlands:towards ecological rehabilitation[C]∥Leclerc M,Carpa H,Valentin S,et al.Ecohydraulics 2000.Quebec:2nd International Symposuim on Habitat Hydraulics,1996:619-630.
[10]Gore J A,Hamilton S W.Comparison of flow-related habitat evaluations downstreams Regulated Rivers[J].Regulated Rivers:Research&Management,1996,12(4-5):459-469.
[11]Maddock I.The importance of physical habitat assessment for evaluating river health[J].Freshwater Biol,1999,41(2):373-391.
[12]Nishida T,Bigelow K,Mohri M,et al.Comparative study on Japanese tuna longline CPUE standardization of yellowfin tuna(Thunnus albacares)in the Indian Ocean based on two methods:general linear model(GLM)and habitat based model(HBM)/GLM combined(1958-2001)[C].Seychelles:IOTC,Victoria,2003,6:48-69.
[13]Lee P F,Chen I C,Tzeng W N.Spatial and temporal distribution patterns of bigeye tuna(Thunnus obesus)in the indian ocean[J].Zoolog Stud,2005,44(2):260-270.
[14]冯波,陈新军,许柳雄.应用栖息地指数对印度洋大眼金枪鱼分布模式研究[J].水产学报,2007,31(6):805-812.Feng B,Chen X J,Xu L X.Study on distribution of Thunnuns obesus in the Indian Ocean based on habitat suitability index[J].Journal of Fisheries of China,2007,31(6):805-812.
[15]王家樵.印度洋大眼金枪鱼栖息地指数模型研究[D].上海:上海水产大学,2006.Wang J Q.Study on the habitat index model of bigeye tuna in the Indian Ocean[D].Shanghai:Fishery University of Shanghai,2006.
[16]陈新军,刘必林,田思泉,等.利用基于表温因子的栖息地模型预测西北太平洋柔鱼(Ommastrephes bartramii)渔场[J].海洋与湖沼,2009,40(6):707-713.Chen X J,Liu B L,Tian S Q,et al.Forecasting the fishing ground of Ommastrephes bartramii with SST-based habitat suitability modelling in northwestern pacific[J].Oceanologia et Limnologia Sinica,2009,40(6):707-713.
[17]王文海.中国海湾志:第四分册(山东半岛南部和江苏省海湾)[M].北京:海洋出版社,1993:354.Wang W H.Bays of China,the 4th Volumes[M].Beijing:China Ocean Press,1993:354.
[18]唐峰华,沈新强,王云龙,等.海州湾附近海域渔业资源的动态分析[J].水产科学,2011,30(6):335-341.Tang F H,Shen X Q,Wang Y L,et al.Dynamics of fisheries resources near Haizhou Bay waters[J].Fisheries Science,2011,30(6):335-341.
[19]苏巍,薛莹,任一平.海州湾海域鱼类分类多样性的时空变化及其与环境因子的关系[J].中国水产科学,2013,20(3):624-634.Su W,Xue Y,Ren Y P.Temporal and spatial variation in taxonomic diversity of fish in Haizhou Bay:the effect of environmental factors[J].Journal of Fishery Sciences of China,2013,20(3):624-634.
[20]Xu Binduo,Zhang Chongliang,Xue Ying,et.al.Optimization of sampling effort for a fishery-independent survey with multiple goals[J].Environmental Monitoring and Assessment,2015,187(5):1-16.
[21]国家质量技术监督局.海洋调查规范GB/T12763-2007[M].北京:中国标准出版社,2007.General Administration of Quality Supervision,Inspection and Quarantine of the People’s Republic of China(GB/T 12763.6-2007)Specification for Oceanographic Survey[M].Beijing:China Standards Press,2007.
[22]国家质量技术监督局.海洋监测规范GB17378[M].北京:中国标准出版社,1998.General Administration of Quality Supervision,Inspection and Quarantine of the People’s Republic of China(GB17378)Specification for Oceanographic Monitor[M].Beijing:China Standards Press,1998.
[23]Bayer M,Porter W F.Porter evaluation of a guild approach to habitat assessment for forest-dwelling birds[J].Environ Manag,1988,12(6):797-801.
[24]Energy W,LU Team.Habitat evaluation procedures(HEP)[M]//Ecological Service Manual lO2.Washington D.C US:Fish and Wildlife Service,1980.
[25]Energy W,LU Team.Standards for the development of habitat suitability index models[M]//Ecological Service Manual 103.Washington D.C,US:Fish and Wildlife Service,1980.
[26]李雪渡.海水温度与渔场之间的关系[J].海洋学报,1982,14(1):103-113.Li X D.Studies on the Correlation Between the Temperature of Sea Water and Fishing Grounds[J].Acta Oceanologica Sinica,1982,14(1):103-113.
[27]农牧渔业部水产局,农牧渔业部东海区渔业指挥部.东海区渔业资源调查和区划[M].上海:华东师范大学出版社,1987.Aquatic Bureau of Agriculture and Fisheries Department,Fisheries Headquarters in the East China Sea of Agriculture and Fisheries Department.Fisheries Resources Survey and Zoning of the East China Sea[M].Shanghai:East China Normal University Press,1987.
[28]林龙山,姜亚洲,刘尊雷,等.黄海南部和东海小黄鱼资源分布差异性研究[J].中国海洋大学学报(自然科学版),2010,40(3):1-6.Lin L S,Jiang Y Z,Liu Z L,et al.Analysis of the distribution difference of small yellow croaker between the southern Yellow Sea and the East China Sea[J].Periodical of Ocean University of China,2010,40(3):1-6.
[29]Mcculloch S L.Inventory and Monitoring of Wildlife Habitat[M].California:US Department of the Interior,Bureau of Land Management,1986.
[30]王艳君,刘群,任一平.AIC与BIC在亲体-补充量模型选择中的应用及比较[J].中国海洋大学学报(自然科学版),2005,35(3):397-403.Wang Y J,Liu Q,Ren Y P,Comparision of AIC and BIC in the selection of stock-recruitment relationships[J].Periodical of Ocean University of China,2005,35(3):397-403.
[31]殷名称.鱼类生态学[M].北京:中国农业出版社,1995.Yin M C.Fish Ecology[M].Beijing:China Agriculture Press,1995.
[32]王宏田,张培军.环境因子对海产鱼类受精卵及早期仔鱼发育的影响[J].海洋科学,1998(4):50-52.Wang H T,Zhang P J.Effects of environmental conditions on fertil ized eggs and early larva of marine fishes[J].Marine Science,1998(4):50-52.
[33]王云峰,朱鑫华.盐度对鱼类生态生理学特征的影响[J].海洋科学集刊,2002,44(5):151-158.Wang Y F,Zhu X H.A Review on impact of salinity on patterns of fish ecophysiology[J].Studia Marina Sinica,2002,44(5):151-158.
[34]李建生,林龙山,程家骅.东海北部秋季小黄鱼分布特征及其与底层温度和盐度的关系[J].中国水产科学,2009,16(3):348-356.Li J S,Lin L S,Cheng J H.Distribution characteristic of small yellow croaker(Larimichthy Polyactis Bleeker)and its relationship with bottom water temperature and salinity in the northern East China Sea in autumn[J].Journal of Fishery Sciences of China,2009,16(3):348-356.
[35]Eastwood P D,Meaden G J,Grioche A.Modelling spatial variations in spawning habitat suitability for the sole Solea solea using regression quantiles and GIS procedures[J].Marine Ecology Progress Series,2001,224:251-266.
[36]Zainuddin M,Kiyofuji H,Saitoh K,et al.Using multi-sensor satellite remote sensing and catch data to detect ocean hot spots for albacore(Thunnus alalunga)in the northwestern North Pacific[J].Deep-Sea ResearchⅡ,2006,53:419-431.
[37]李圣法,严利平,李长松,等.东海北部鱼类组成特征分析[J].水产学报,2004,28(4):384-392.Li S F,Yan L P,Li C S,et al.The analysis of fish composition pattern in the Northern East China Sea[J].Journal of Fisheries of China,2004,28(4):384-392.
[38]仲霞铭,张虎,汤建华,等.江苏近岸海域小黄鱼时空分布特征[J].水产学报,2011,35(2):238-246.Zhong M X,Zhang H,Tang J H,et al.Temporal and spatial distribution of Larimichthy polyactis bleeker resources in offshore areas of jiangsu province[J].Journal of Fisheries of China,2011,35(2):238-246.
[39]龚彩霞,陈新军,高峰,等.栖息地适应性指数在渔业科学中的应用进展[J].上海海洋大学学报,2011,20(2):260-269.Gong C X,Chen X J,Gao F,et al.Review on habitat suitability index in fishery science[J].Journal of Shanghai Ocean University,2011,20(2):260-269.
[40]陈红波,李继龙,杨文波,等.东黄海小黄鱼秋季索饵环境栖息指数的研究[J].大连海洋大学学报,2011,26(4):348-351.Chen H B,LI J L,Yang W B,et al.The habitat suitability index of feeding migration stock of small yellow croaker Larimichthy Polyactis in the East Sea and the Yellow Sea[J].Journal of Dalian Ocean University,2011,26(4):348-351.
[41]李建生,严利平,李惠玉,等.黄海南部、东海北部夏秋季小黄鱼数量分布及与浮游动物的关系[J].海洋渔业,2007,29(1):31-37.Li J S,Yan L P,Li H Y,et al.On the relationship between quantity distribution of small yellow croaker(Larimichthy Polyactis Bleeker)and zooplankton in southern Yellow Sea and the Northern East China Sea in summer and autumn[J].Marine Fisheries,2007,29(1):31-37.
基本信息:
DOI:10.16441/j.cnki.hdxb.20150203
中图分类号:S931.1
引用信息:
[1]邹易阳,薛莹,麻秋云,等.应用栖息地适宜性指数研究海州湾小黄鱼的空间分布特征[J],2016,46(08):54-63.DOI:10.16441/j.cnki.hdxb.20150203.
基金信息:
高等学校博士学科点专项科研基金项目(20120132130001);; 中央高校基本科研业务费专项资金项目(201022001,201262004);; 国家留学基金项目资助~~
2015-06-08
2015
2016-03-02
2016-05-27
2016
1