1 |
梁严威,邹晓荣,吴昔磊,等.基于GIS的东南太平洋智利竹筴鱼时空分布年际差异分析[J].上海海洋大学学报,2014,23(6):911-919.
|
|
LIANG Y W, ZOU X R, WU X L, et al.. Annual comparison of Chile jack mackerel (Trachurusmurphyi) spatiotemporal distribution in the southeast Pacific [J]. J. Shanghai Ocean Univ., 2014, 23(6):911-919.
|
2 |
白思琦,邹晓荣,张鹏,等.环境因子对东南太平洋智利竹筴鱼渔场时空分布异质性影响[J].南方水产科学,2021,17(1):17-24.
|
|
BAI S Q, ZOU X R, ZHANG P, et al.. Studies on the spatial heterogeneityeffects of environmental factors on the distribution of Chilean jack mackerel in the Southeast Pacific Ocean [J]. South China Fisheries Sci., 2021,17(1):17-24.
|
3 |
陈春光,张敏, 邹晓荣.东南太平洋智利竹筴鱼中心渔场的月间变动研究[J].南方水产科学,2014, 10(5):60-67.
|
|
CHEN C G, ZHANG M, ZOU X R. Investigation on monthly variation in central fishing ground for Chilean jack mackerel (Trachurusmurphyi) in the Southeast Pacific Ocean [J]. South China Fisheries Sci., 2014, 10(5):60-67.
|
4 |
牛明香,李显森,徐玉成.基于广义可加模型的时空和环境因子对东南太平洋智利竹筴鱼渔场的影响[J].应用生态学报, 2010, 21(4):1049-1055.
|
|
NIU M X, LI X S, XU Y C. Effects of spatiotemporal and environmental factors on the fishing ground of Trachurusmurphyi in Southeast Pacific Ocean based on generalized additive model [J]. Chin. J. Appl. Ecol., 2010, 21(4): 1049-1055.
|
5 |
ARCOS D F, CUBILLOS L A, NUNEZ S P.The jack mackerel fishery and el niño 1997-98 effects off Chile [J]. Prog. Oceanog., 2001, 49(1):597-617.
|
6 |
Fisheries Department FAO. Review of the State of World Fishery Resources: Marine Fisheries [M]. Rome: FAO Fisheries Circular, 1997:58-65.
|
7 |
CUBILLOS L A, PARAMO J, RUIZ P, et al.. The spatial structure of the oceanic spawning of jack mackerel (Trachurusmurphyi) off central Chile (1998—2001) [J]. Fisheries Res., 2008, 90: 261-270.
|
8 |
杨香帅,邹晓荣,徐香香,等.ENSO现象对东南太平洋智利竹筴鱼资源丰度及其渔场变动的影响[J].上海海洋大学学报, 2019, 28(2):290-297.
|
|
YANG X S, ZOU X R, XU X X, et al.. Effects of El Niño /La Niña on abundance index and spatial-temporal change of Chilean jack mackerel in the Southeast Pacific Ocean [J]. J. Shanghai Ocean Univ., 2019, 28(2): 290-297.
|
9 |
LI G, CAO J, ZOU X, et al.. Modeling habitat suitability index for Chilean jack mackerel (Trachurusmurphyi) in the south east pacific [J]. Fisheries Res., 2016, 178: 47-60.
|
10 |
LAURA N, FRANCISCO P, ELEUTERIO Y, et al.. Forecasting of jack mackerel landings (Trachurusmurphyi) in central-southern Chile through neural networks [J]. Fisheries Oceanog., 2015, 24(3):219-228.
|
11 |
汪金涛,高峰,雷林,等.基于主成分和BP神经网络的智利竹筴鱼渔场预报模型研究[J].海洋学报, 2014, 36(8):65-71.
|
|
WANG J T, GAO F, LEI L, et al.. Application of BP neural network based on principal component analysis in fishing grounds of Chilean jack mackerel (Trachurusmurphyi) in the southeast Pacific Ocean [J]. Acta Oceanologica Sin., 2014, 36(8): 65-71.
|
12 |
陈春光.东南太平洋智利竹筴鱼渔场空间分布及其栖息地适宜性指数的研究[D].上海:上海海洋大学,2015.
|
|
CHEN C G. Study on fishing ground spatial distirbution and habitat suitability index(HSI) model of Chilean jack mackerel (Trachurusmurphyi) in the Southeast Pacific Ocean [D]. Shanghai: Shanghai Ocean University, 2015.
|
13 |
晋伟红.基于偏最小二乘法的东南太平洋智利竹筴鱼渔场与海洋温度、盐度关系研究[D].上海:上海海洋大学, 2012.
|
|
JIN W H. The relationship between change mechanism of fishing ground for jack mackerel and ocean tempperture, salinity in the Southeast Pacific Ocean based on PLS [D]. Shanghai: Shanghai Ocean University, 2012.
|
14 |
杨嘉樑,黄洪亮,刘健,等.智利竹筴鱼渔场海表温度及叶绿素浓度分布特征[J].中国农业科技导报, 2017, 19(10):113-120.
|
|
YANG J L, HUANG H L, LIU J, et al.. Characteristics of Chilean jack mackerel fishing ground distribution and sea surface temperature and chlorophyll-a [J]. J. Agric. Sci. Technol., 2017, 19(10):113-120.
|
15 |
李纲,郑晓琼,朱国平,等.基于水温因子的东、黄海鲐鱼剩余产量模型建立[J].上海海洋大学学报,2011,20(1):108-113.
|
|
LI G, ZHENG X Q, ZHU G P, et al.. Establishment of surplus production model for chub mackerel (Scomberjaponicus) in the East China Sea and Yellow Sea based on the sea surface temperature [J]. J. Shanghai Ocean Univ., 2011,20(1):108-113.
|
16 |
郑晓琼,李纲,陈新军.基于环境因子的东、黄海鲐鱼剩余产量模型及应用[J].海洋湖沼通报,2010(3):41-48.
|
|
ZHENG X Q, LI G, CHEN X J. Application of environmentally dependent surplus production model for Scomberjaponicas in the east China sea and yellow sea [J]. Trans. Oceanol. Limnol., 2010(3):41-48.
|
17 |
徐香香,邹晓荣,杨香帅,等.西白令海狭鳕渔场与环境因子关系研究[J].海洋湖沼通报, 2019(4):117-126.
|
|
XU X X, ZOU X R, YANG X S, et al.. Studies on relationship between environmental factors and fishing grounds of Walleye pollock (Theragrachalcogramma) in West Bering Sea [J]. Trans. Oceanol. Limnol., 2019 (4):117-126.
|
18 |
GUAN W J, TIAN S Q, WNAG X F, et al.. A review of methods and model selection for standardizing CPUE [J]. J. Fishery Sci. China, 2014,21(4):852-862.
|
19 |
杨胜龙,张禹,张衡,等.不同模型在渔业CPUE标准化中的比较分析[J].农业工程学报,2015,31(21):259-264.
|
|
YANG S L, ZHANG Y, ZHANG H,et al..Comparison and analysis of different model algorithms for CPUE standardization in fishery [J]. Trans. Chin. Soc. Agric. Eng., 2015,31(21):259-264.
|
20 |
ANDRADE H A, GARCIA C A E. Skipjack tuna fishery in relation to sea surface temperature off the southern Brazilian coast [J]. Fisheries Oceanog., 2010, 8(4):245-254.
|
21 |
许骆良,陈新军,汪金涛.2003—2012年秘鲁外海茎柔鱼资源丰度年间变化分析[J].上海海洋大学学报,2015,24(2):280-286.
|
|
XU L L, CHEN X J, WANG J T. Inter-annual variation in abundance index of Dosidicusgigas off Peru during 2003 to 2012 [J]. J. Shanghai Ocean Univ., 2015,24(2):280-286.
|
22 |
宋利明,许回,陈明锐,等.毛里塔尼亚海域日本鲭时空分布与海洋环境的关系[J].上海海洋大学学报,2020,29(6):868-877.
|
|
SONG L M, XU H, CHEN M R,et al.. Relationship between spatiotemporal distribution of chub mackerel and marine environment variables in the waters near Mauritania [J]. J. Shanghai Ocean Univ., 2020,29(6):868-877.
|
23 |
PRAGER M H. A suite of extensions to a non-equilibrium surplus production model [J]. Fish Bull., 1994,92(2):374-389.
|
24 |
吴梦瑶,田思泉.基于海表面温度SST的剩余产量模型评估太平洋褶柔鱼秋生群资源[J].上海海洋大学学报,2019,28(6):933-942.
|
|
WU M Y, TIAN S Q. Stock assessment for autumn cohort of Todarodespacificus based on surplus yield model with sea surface temperature [J]. J. Shanghai Ocean Univ., 2019,28(6):933-942.
|
25 |
FOTHERINGHAM A S, CHARLTON M E, BRUNSDON C. Geographically weighted regression: a natural evolution of the expansion method for spatial data analysis [J]. Environ. Plan A, 1998, 30(11):1905-1927
|
26 |
LEUNG Y, MEI C L, ZHANG W X. Statistical test for local patterns of spatial association [J]. Environ. Plan A, 2003, 35(4):725-744.
|
27 |
韩雅,朱文博,李双成.基于GWR模型的中国与气候因子的相关分析[J].北京大学学报(自然科学版), 2016, 52(6):1125-1133.
|
|
HAN Y, ZHU W B, LI S C. Modelling relationship between NDVI and climatic factors in China using geographically weighted regression [J]. Acta Scientiarum Naturalium Univ. Pekinensis (Nat. Sci.), 2016, 52(6): 1125-1133.
|
28 |
LLUCH-BELDA D, CRAWFORD R J M, KAWASAKIT, et al.. World-wide fluctuations of sardine and anchovy stocks: the regime problem [J]. South African J. Marine Sci., 2010, 8(1): 195-205.
|
29 |
易炜,陈新军,余为.基于环境因子的西北太平洋秋刀鱼剩余产量模型建立[J].广东海洋大学学报, 2017, 37(4): 55-60.
|
|
YI W, CHEN X J, YU W. Surplus production model for Cololabissaira in the Northwest Pacific Ocean based on the environmental factors [J]. J. Guangdong Ocean Univ., 2017, 37(4):55-60.
|
30 |
杨嘉樑,黄洪亮,李九奇,等.基于贝叶斯方法的FAO48.1区南极磷虾渔业资源评估[J].中国农业科技导报, 2018, 20(10): 123-130.
|
|
YANG J L, HUANG H L, LI J Q, et al.. Stock assessment of antarctic Krill in FAO 48.1 Sub-area by bayes-based pella-tomlinson model [J]. J. Agric. Sci. Technol., 2018, 20(10):123-130.
|