基于GAM模型的天津海域鱼类资源和环境因子关系的初步研究

Journal of Tianjin Agricultural University ›› 2017, Vol. 24 ›› Issue (1): 38-43.

• Researches and Scientific Notes • Previous Articles Next Articles

Preliminary Study on Fish Resources and Its Relationship with Environmental Factors in Tianjin Sea Area Based on Generalized Additive Model（GAM）

GU De-xian¹, LIU Guo-shan¹, WANG Xiao-yu¹, WANG Ting², YOU Hong-zheng¹, QIAN Hong¹, XU Hai-long^{3,Corresponding Author}

1. Tianjin Fisheries Research Institute, Tianjin 300221, China;
2. Tianjin Bohai Sea Fisheries Research Institute,Tianjin 300457, China;
3. College of Fisheries, Tianjin Agricultural University, Tianjin 300384, China

Received:2016-02-29 Online:2017-03-31 Published:2019-10-15

Abstract

Abstract: According to the survey of fish resources and environmental factors on May, August, October in 2013 and 2014, analyses were performed on the species composition and biomass of fish resources in Tianjin sea area. Furthermore, the relationship between the fish biomass and environmental factors was studied based on the generalized additive model（GAM）. The results showed that: there were 7 orders, 17 families and 26 species of fishes in Tianjin sea area, and the preponderance of the species belonged to perciformes. The average biomass was 3.37 kg/h, and the biomass had dropped by 90.39%, compared with the results of Tianjin multipurpose investigation of the coastal zone and tidal wetland resources（1983）. The maximum number of biomass appeared in August, followed by that in October, and the minimum number appeared in May. This study selected 11 environmental factors as predictor variables, and the biomass of fishes were mainly affected by four factors based on GAM, namely, salinity, temperature, fish larvae density and Longitude. The effects of the foregoing three factor were significant, while the effect of longitude was significant on the level p<0.1. The accumulation of deviance explained by the optimized GAM to the fish biomass was 44.2%. According to Akaike information criterion（AIC）, the model including the four factors was optimal. Salinity had the greatest influence on the biomass of fish resources, followed by temperature and fish larval density, longitude had the smallest effect on fish resources.

Key words: Tianjin sea area, fish resources, generalized additive model（GAM）, environmental factors

CLC Number:

GU De-xian, LIU Guo-shan, WANG Xiao-yu, WANG Ting, YOU Hong-zheng, QIAN Hong, XU Hai-long. Preliminary Study on Fish Resources and Its Relationship with Environmental Factors in Tianjin Sea Area Based on Generalized Additive Model（GAM）[J]. Journal of Tianjin Agricultural University, 2017, 24(1): 38-43.

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References

[1] 唐峰华,沈新强,王云龙. 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.
[2] Wood S.Generalized additive models:an introduction with R[M]. Boca Raton:CRC Press,2006.
[3] Yee T W,Mitchell N D.Generalized additive models in plant ecology[J]. Journal of vegetation science,1991,2(5):587-602.
[4] Agenbag J,Richardson A,Demarcq H,et al.Estimating environmental preferences of South African pelagic fish species using catch size-and remote sensing data[J]. Progress in Oceanography,2003,59(2):275-300.
[5] 李德伟,张龙,王洋,等. 基于GAM 的阿根廷滑柔鱼 CPUE 与环境因子关系分析[J]. 渔业现代化,2015,42(4):56-61.
[6] Maury O,Gascuel D,Marsac F,et al.Hierarchical interpretation of nonlinear relationships linking yellowfin tuna(Thunnus albacares)distribution to the environment in the Atlantic Ocean[J]. Canadian Journal of Fisheries and Aquatic Sciences,2001,58(3):458-469.
[7] Wise B,Bugg A,Barratt D,et al.Standardisation of Japanese longline catch rates for yellowfin tuna in the Indian Ocean using GAM analyses[J]. IOTC Proceedings,2002,5:226-239.
[8] 唐浩,许柳雄,朱国平. 基于GAM 模型研究时空及环境因子对中西太平洋鲣鱼渔场的影响[J]. 海洋环境科学,2013,32(4):518-522.
[9] Yemane D,Field J G,Leslie R W.Spatio-temporal patterns in the diversity of demersal fish communities off the south coast of South Africa[J]. Marine biology,2010,157(2):269-281.
[10] 赵静,章守宇,汪振华,等. 基于GAM 模型的鱼类群落多样性分布及影响因素[J]. 生态学杂志,2013,32(12):3226-3235.
[11] 国家标准化委员会. 海洋调查规范:GB/T 12763—2007[S]. 北京:中国标准出版社,2007.
[12] 邓建明,秦伯强,王博雯. 广义可加模型在 R 中的快捷实现及蓝藻水华预测分析中的应用[J]. 生态学杂志,2015,34(3):835-842.
[13] Watkins D S.Fundamentals of matrix computations[M]. Hoboken:John Wiley & Sons,2004.
[14] Dong X,Bennion H,Maberly S C,et al.Nutrients exert a stronger control than climate on recent diatom communities in Esthwaite Water:evidence from monitoring and palaeolimnological records[J]. Freshwater Biology,2012,57(10):2044-2056.
[15] Akaike H.A new look at the statistical model identification[J]. Automatic Control,IEEE Transactions on,1974,19(6):716-723.
[16] Chambers J M,Hastie T J.Statistical models in S [M]. Boca Raton:CRC Press,1991.
[17] Wood S. Estimate predictor contribution in GAM models [R/OL].(2005-09-30)[2015-12-01]. http://stat. ethz.ch/ pipermail/r-help/2005-September/079944. html.
[18] 张闰生,孙秋岩. 天津市海岸带和海涂资源综合调查报告[M]. 天津:天津新闻出版管理局,1986.
[19] 谷德贤,宓慧菁,刘茂利,等. 天津海域春夏季鱼卵,仔稚鱼的种类组成与数量分布[J]. 大连海洋大学学报,2012,27(6):565-571.
[20] 金显仕,唐启升. 渤海渔业资源结构,数量分布及其变化[J]. 中国水产科学,1998,5(3):18-24.
[21] Marshall S,Elliott M.Environmental influences on the fish assemblage of the Humber estuary,UK[J]. Estuarine,Coastal and Shelf Science,1998,46(2):175-184.
[22] Castillo-Rivera M,Zavala-Hurtado J A,Zárate R. Exploration of spatial and temporal patterns of fish diversity and composition in a tropical estuarine system of Mexico[J]. Reviews in Fish Biology and Fisheries,2002,12(2/3):167-177.
[23] 唐启升. 中国区域海洋学—渔业海洋学[M]. 北京:海洋出版社,2012.
[24] Jacoba W,Mcclatchie S,Proberta P,et al.Demersal ﬁsh assemblages off southern New Zealand in relation to depth and temperature[J]. Deep-Sea Research,1998,45:2119-2155.
[25] Selleslagh J,Amara R.Environmental factors structuring fish composition and assemblages in a small macrotidal estuary(eastern English Channel)[J]. Estuarine,Coastal and Shelf Science,2008,79(3):507-517.
[26] 田明诚,孙宝龄,杨纪明. 渤海鱼类区系分析[J]. 海洋科学集刊,1993(34):157-166.

Preliminary Study on Fish Resources and Its Relationship with Environmental Factors in Tianjin Sea Area Based on Generalized Additive Model（GAM）

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