[1] 邱永松. 南海渔业资源与渔业管理. 北京: 海洋出版社, 2008 [Qiu Y-S. Fishery Resources and Fishery Management in the South China Sea. Beijing: Ocean Press, 2008] [2] 麦贤杰. 中国南海海洋渔业. 广州: 广东经济出版社, 2007 [Mai X-J. Marine Fishery in the South China Sea. Guangzhou: Guangdong Economic Press, 2007] [3] 张鹏, 曾晓光, 杨吝, 等. 南海区大型灯光罩网渔场渔期和渔获组成分析. 南方水产科学, 2013, 9(3): 74-79 [Zhang P, Zeng X-G, Yang L, et al. Analyses on fishing ground and catch composition of large-scale light falling-net fisheries in South China Sea. South China Fisheries Science, 2013, 9(3): 74-79] [4] 冯波, 颜云榕, 张宇美, 等. 南海鸢乌贼(Sthenoteuthis oualaniensis)资源评估的新方法. 渔业科学进展, 2014, 35(4): 1-6 [Feng B, Yan Y-R, Zhang Y-M, et al. A new method to assess the population of Sthenoteuthis oualaniensis in South China Sea. Progress in Fishery Sciences, 2014, 35(4): 1-6] [5] 冯波, 李忠炉, 侯刚. 南海深水延绳钓探捕渔获组成与数量分布. 热带海洋学报, 2015, 34(1): 64-70 [Feng B, Li Z-L, Hou G. Fish species and quantity in the South China Sea surveyed by deep longline. Journal of Tropical Oceanography, 2015, 34(1): 64-70] [6] 黄佳兴, 龚玉艳, 徐姗楠, 等. 南海中西部渔场主要渔业生物碳氮稳定同位素特征. 热带海洋学报, 2019, 38(1): 76-84 [Huang J-X, Gong Y-Y, Xu S-N, et al. Characteristics of stable carbon and nitrogen isotopes of major fishery organisms in the fishing ground of central western South China Sea. Journal of Tropical Oceanography, 2019, 38(1): 76-84] [7] Matley JK, Fisk AT, Tobin AJ, et al. Diet-tissue discrimination factors and turnover of carbon and nitrogen stable isotopes in tissues of an adult predatory coral reef fish, Plectropomus leopardus. Rapid Communications in Mass Spectrometry, 2016, 30: 29-44 [8] Layman CA, Arrington DA, Montaña CG, et al. Can stable isotope ratios provide for community-wide mea-sures of trophic structure? Ecology, 2007, 88: 42-48 [9] Jackson AL, Inger R, Parnell AC, et al. Comparing isotopic niche widths among and within communities: SIBER-Stable Isotope Bayesian Ellipses in R. Journal of Animal Ecology, 2011, 80: 595-602 [10] Logan JM, Lutcavage ME. Assessment of trophic dyna-mics of cephalopods and large pelagic fishes in the central North Atlantic Ocean using stable isotope analysis. Deep Sea Research Part Ⅱ: Topical Studies in Oceanography, 2013, 95: 63-73 [11] Choy CA, Popp BN, Hannides CCS, et al. Trophic structure and food resources of epipelagic and mesopelagic fishes in the North Pacific Subtropical Gyre ecosystem inferred from nitrogen isotopic compositions. Limno-logy and Oceanography, 2015, 60: 1156-1171 [12] McClain-Counts JP, Demopoulos AWJ, Ross SW. Trophic structure of mesopelagic fishes in the Gulf of Mexico revealed by gut content and stable isotope analyses. Marine Ecology, 2017, 38: e12449 [13] 李忠义, 左涛, 戴芳群, 等. 运用稳定同位素技术研究长江口及南黄海水域春季拖网渔获物的营养级. 中国水产科学, 2010, 17(1): 103-109 [Li Z-Y, Zuo T, Dai F-Q, et al. Trophic level analysis of organisms from Changjiang estuary and adjacent waters of southern Yellow Sea in spring with stable isotope technology. Journal of Fishery Sciences of China, 2010, 17(1): 103-109] [14] 纪炜炜, 陈雪忠, 姜亚洲, 等. 东海中北部游泳动物稳定碳氮同位素研究. 海洋渔业, 2011, 33(3): 241-250 [Ji W-W, Chen X-Z, Jiang Y-Z, et al. Stable isotope analysis of some representative nektonic orga-nisms in the central and northern part of East China Sea. Marine Fisheries, 2011, 33(3): 241-250] [15] 中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会. 海洋调查规范第6部分: 海洋生物调查(GB/T 12763.6—2007). 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, Standardization Administration of the People's Republic of China. Specifications for Oceanographic Survey-Part 6: Marine Biological Survey (GB/T 12763.6—2007). Beijing: China Standards Press, 2007] [16] 杨尧尧. 基于脂肪酸和稳定同位素标记法的南海北部陆坡优势种营养结构的研究. 硕士论文. 上海: 上海海洋大学, 2016 [Yang Y-Y. Study on the Nutrient Structure of Dominant Species in the Northern Continental Slope of South China Sea Based on Fatty Acid and Stable Isotope Labeling. Master Thesis. Shanghai: Shanghai Ocean University, 2016] [17] Minagawa M, Wada E. Stepwise enrichment of 15N along food chains: Further evidence and the relation between δ15N and animal age. Geochimica et Cosmochimica Acta, 1984, 48: 1135-1140 [18] 刘华雪, 徐军, 李纯厚, 等. 南海南部浮游动物稳定同位素研究: 碳稳定同位素. 热带海洋学报, 2015, 34(4): 59-64 [Liu H-X, Xu J, Li C-H, et al. Stable carbon isotope of zooplankton in the southern South China Sea. Journal of Tropical Oceanography, 2015, 34(4): 59-64] [19] 万袆, 胡建英, 安立会, 等. 利用稳定氮和碳同位素分析渤海湾食物网主要生物种的营养层次. 科学通报, 2005, 50(7): 708-712 [Wan W, Hu J-Y, An L-H, et al. The nutrient levels of major species in Bohai Gulf food web were analyzed by using stable nitrogen and carbon isotopes. Chinese Science Bulletin, 2005, 50(7): 708-712] [20] Takai N, Onaka S, Ikeda Y, et al. Geographical variations in carbon and nitrogen stable isotope ratios in squid. Journal of the Marine Biological Association of the United Kingdom, 2000, 80: 675-684 [21] Chen XJ, Liu BL, Tian SQ, et al. Fishery biology of purpleback squid, Sthenoteuthis oualaniensis, in the northwest Indian Ocean. Fisheries Research, 2007, 83: 98-104 [22] 黄美珍. 台湾海峡蓝圆鲹的食性研究. 应用海洋学学报, 1995, 14(4): 399-406 [Huang M-Z. Feeding habits of Decafterus maruadsi in Taiwan Strait. Journal of Applied Oceanography, 1995, 14(4): 399-406] [23] Paxton JR, Hoese DF, Allen GR, et al. Zoological Cata-logue of Australia, Vol. 7. Pisces. Petromyzontidae to Carangidae. Canberra: Australian Government Publis-hing Service, 1989 [24] Gómez-Canchong P, Manjarrés L, Duarte LO, et al. Fishing Atlas of the Caribbean Sea Area of Colombia. Santa Marta: University of Magadalena, 2004 [25] Vander Zanden MJ, Fetzer WW. Global patterns of aquatic food chain length. Oikos, 2007, 116: 1378-1388 [26] Maldeniya R. Food consumption of yellowfin tuna, Thunnus albacares, in Sri Lankan waters. Environmental Biology of Fishes, 1996, 47: 101-107 [27] Graham BS, Grubbs D, Holland K, et al. A rapid ontogenetic shift in the diet of juvenile yellowfin tuna from Hawaii. Marine Biology, 2007, 150: 647-658 [28] 李炎璐, 陈超, 于宏, 等. 中国南海黄鳍金枪鱼(Thunnus albacares)幼鱼形态特征及其与体重的关系. 渔业科学进展, 2016, 37(1): 8-14 [Li Y-L, Chen C, Yu H, et al. Morphological characteristics and their relationship with the body weight of wild juvenile Thunnus albacares. Progress in Fishery Sciences, 2016, 37(1): 8-14] [29] Vander Zanden MJ. Variation in δ15N and δ13C trophic fractionation: Implications for aquatic food web studies. Limnology and Oceanography, 2001, 46: 2061-2066 [30] Bode A, Carrera P, Lens S. The pelagic food web in the upwelling ecosystem of Galicia (NW Spain) during spring: Natural abundance of stable carbon and nitrogen isotopes. ICES Journal of Marine Science, 2003, 60: 11-22 [31] Costalago D, Navarro J, Alvarez-Calleja I, et al. Ontogenetic and seasonal changes in the feeding habits and trophic levels of two small pelagic fish species. Marine Ecology Progress Series, 2012, 460: 169-181 |