ABSTRACT

The bluefish, Pomatomus saltatrix (Linneus 1766) is captured by industrial, artisanal, and recreational fisheries throughout its distribution range. The reproductive biology of P. saltatrix in the southwestern Atlantic was studied using 1,102 specimens captured by the Brazilian commercial fleet between March 2014 and December 2015. The recruitment period was identified from records of juveniles in experimental beach seine hauls carried out on sandy beaches in the external sector of Guanabara Bay for four years (2012-2015). Based on the reproductive indices and on the macro- and microscopic analyses of the gonads, spawning peaks were identified in autumn and spring. The size at first maturity was estimated at 35.5, 38.3, and 37.4 cm for females, males, and general, respectively. Ovary analyses and measurements of the oocyte diameters indicated that bluefish are multiple spawners with asynchronous oocyte development. The batch fecundity estimate was 202,752.5 eggs and ranged from 9,800.9 to 426,787.0 eggs. The species reproduces throughout the entire study area, but it is more active in the south of Arraial do Cabo. The young-of-the-year were recorded on shallow water in all seasons, with modal peaks in the summer months. The parameters estimated in this study expand and update information on this species, providing important data for the evaluation and fisheries management of the stock of P. saltatrix in the southwestern Atlantic.

KEY WORDS:
Fecundity; histology; oocyte development; reproductive dynamics; spawning seasons; young-of-the-year

INTRODUCTION

The bluefish, Pomatomus saltatrix (Linneus 1766), is a migratory pelagic species with a wide geographic distribution. It occurs preferentially in continental shelf waters in temperate and tropical regions (Briggs 1960Briggs JC (1960) Fishes of worldwide (circumtropical) distribution. Copeia 1960(3): 171 -180. https://doi.org/10.2307/1439652
https://doi.org/10.2307/1439652... , Champagnat 1983Champagnat C (1983) Pêche, Biologieet Dynamique Du Tassergal (Pomatomus saltatrix, Linnaeus, 1766) sur lês Côtes Sénégalo-Mauritaniennes. IRD Editions, Paris, vol. 168, 279 pp., Juanes et al. 1996Juanes F, Hare JA, Miskiewicz AG (1996) Comparing early life history strategies of Pomatomus saltatrix: a global approach. Marine and Fresh water Research 47: 365-379. https://doi.org/10.1071/MF9960365
https://doi.org/10.1071/MF9960365... , Haimovici and Krug 1996Haimovici M, Krug LC (1996) Life history and fishery of the enchova, Pomatomus saltatrix, in Southern Brazil. Marine and Freshwater Research 47: 357-363. https://doi.org/10.1071/MF9960357
https://doi.org/10.1071/MF9960357... ). It is an active piscivorous fish (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513.), preyed upon by top predators, including sharks (Wood et al. 2009Wood AD, Wetherbee BM, Juanes F, Kohler NE, Wilga C (2009) Recalculated diet and daily ration of the shortfin mako (Isurus oxyrinchus), with a focus on quantifying predation on bluefish (Pomatomus saltatrix) in the northwest Atlantic Ocean. Fishery Bulletin 107(1):76-88.) and dolphins (Milmann et al. 2016Milmann L, Danilewicz D, Machado R, Santos RAD, Ott PH (2016) Feeding ecology of the common bottlenose dolphin, Tursiops truncatus, in southern Brazil: analyzing its prey and the potential overlap with fisheries. Brazilian Journal of Oceanography 64(4): 415-422. https://doi.org/10.1590/s1679-87592016116406404
https://doi.org/10.1590/s1679-8759201611... ), constituting an important link within coastal trophic networks. The bluefish is also an important fishery resource throughout its distribution range, being captured by industrial, artisanal, and recreational fisheries, especially in the south and southwestern Atlantic, off the Brazilian coast to Argentina (Krug and Haimovici 1989Krug LC, Haimovici M (1989) Idade e crescimento da enchova Pomatomus saltatrix do Sul do Brasil. Atlântica 11: 47-61., Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., 1996Haimovici M, Krug LC (1996) Life history and fishery of the enchova, Pomatomus saltatrix, in Southern Brazil. Marine and Freshwater Research 47: 357-363. https://doi.org/10.1071/MF9960357
https://doi.org/10.1071/MF9960357... , Begossi 1996Begossi A (1996) Use of ecological methods in ethnobotany: diversity indices. Economic Botany 50: 280-289. https://doi.org/10.1007/BF02907333
https://doi.org/10.1007/BF02907333... , Lucena et al. 2002Lucena FM, O’Brien CM, Reis EG (2002) Effects of exploitation by two co-existing fleets on the bluefish, Pomatomus saltatrix, in southern Brazil: an application of a seasonal catch-at-age model. Marine and Freshwater Research 53: 835-847. https://doi.org/10.1071/MF00093
https://doi.org/10.1071/MF00093... , Lucena and O’Brien 2005Lucena FM, O’Brien CM (2005) The consequences of different scenarios in the management of the gillnet and purse-seine fisheries targeting Pomatomus saltatrix and Cynoscion guatucupa in southern Brazil: a bio-economic approach. ICES Journal of Marine Science 62: 201-213., Souza et al. 2019Souza GM, Tubino RA, Monteiro-Neto C, Costa MR (2019) Relationships between fish and otolith dimensions of Pomatomus saltatrix (Linnaeus, 1766) (Perciformes: Pomatomidae) in southeastern Brazil. Neotropical Ichthyology 17(1): e180032. https://doi.org/10.1590/1982-0224-20180032
https://doi.org/10.1590/1982-0224-201800... ), in the North Atlantic along the coast of the United States (Buckel and Conover 1997Buckel JA, Conover DO (1997) Movements, feeding periods, and daily ration of piscivorous young-of-the-year bluefish, Pomatomus saltatrix, in the Hudson River estuary. Fishery Bulletin 95: 665-679., Buckel et al. 1999Buckel JA, Fogarty MJ, Conover DO (1999) Foraging habits of bluefish, Pomatomus saltatrix, on the U.S. coast continental shelf. Fishery Bulletin 97: 758-775., Juanes et al. 2002Juanes F, Buckel J, Scharf F (2002) Symposium review: biology, ecology and life history of bluefish. Reviews in Fish Biology and Fisheries 12: 429-430. https://doi.org/10.1023/A:1025344418159
https://doi.org/10.1023/A:1025344418159... , Wilson and Degnbol 2002Wilson DC, Degnbo LP (2002) The effects of legal mandates on fisheries science deliberations: the case of Atlantic bluefish in the United States. Fisheries Research 58: 1-14. https://doi.org/10.1016/S0165-7836(01)00366-6
https://doi.org/10.1016/S0165-7836(01)00... ), in the Mediterranean (Dhieb et al. 2005Dhieb K, Ghorbel M, Bouain A (2005) Age et croissancedu serre Pomatomus saltatrix (Pomatomidae) du golfe de Gabès (Tunisie). Mésogée 61: 43-50.), and in Eastern Australia (Kailola et al. 1993Kailola PJ, Williams MJ, Stewart PC, Reichelt RE, McNee A, Grieve C (1993) Australian Fisheries Resources. Bureau of Resource Sciences and the Fisheries Research and Development Corporation, Canberra, 422 pp., Zeller et al. 1996Zeller BM, Pollock BR, Williams LE (1996) Aspects of the life history and management of tailor (Pomatomus saltatrix) in Queensland. Marine and Freshwater Research 47: 323-32., Schilling et al. 2019Schilling HT, Smith JA, Stewart J, Everett JD, Hughes JM, Suthers IM (2019) Reduced exploitation is associated with an altered sex ratio and larger length at maturity in southwest Pacific (east Australian) Pomatomus saltatrix. Marine Environmental Research 147: 72-79. https://doi.org/10.1016/j.marenvres.2019.02.012
https://doi.org/10.1016/j.marenvres.2019... ).

The fishery production data series have indicated a decline in catches in the southwestern Atlantic, with a reduction of 14,000 tons per year between the 1960s and 1970s, to around 4,000 tons per year between the 1980s and 1990s, reaching an average production of 3,600 tons per year in the 2000s (CEPSUL/IBAMA 2009CEPSUL/IBAMA (2009) Relatório sobre a reunião técnica para o ordenamento da pesca de anchova (Pomatomus saltatrix) nas regiões sudeste e sul do Brasil. Centro de Pesquisa e Gestão dos Recursos Pesqueiros do Litoral Sudeste e Sul, Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis, Itajaí, 98 pp.). In addition, P. saltatrix has been classified as an overexploited species (MMA 2004MMA (2004) Instrução Normativa Nº 5, de 21 de Maio de 2004. Ministério do Meio Ambiente, Brasília. https://www.icmbio.gov.br/cepsul/images/stories/legislacao/Instrucao_normativa/2004/in_mma_05_2004_especiesdeinvertebradosaquaticosepeixesameacadosdeextincaoesobreexplotada_altrd_in_mma_52_2005.pdf [Accessed: 10/12/2019]
https://www.icmbio.gov.br/cepsul/images/... ) in Brazil. Between 2000 and 2010, the state of Rio de Janeiro contributed 40% of national production and the rest originated in the southernmost states (IBAMA 2007IBAMA (2007) Estatística da pesca 2005, Brasil. Grandes regiões e unidades da federação. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis, Brasília, 115 pp., 2008IBAMA (2008) Estatística da pesca 2006, Brasil. Grandes regiões e unidades da federação. Instituto Brasileiro do Meio Ambiente e dos Recursos Naturais Renováveis, Brasília , 181 pp., MPA 2007MPA (2007) Boletim estatístico da pesca e aquicultura - 2007. Ministério da Pesca e Aquicultura, Brasília, 151pp. https://www.icmbio.gov.br/cepsul/images/stories/biblioteca/download/estatistica/est_2007_boletim_05_brasil.pdf [Accessed: 15/12/2019]
https://www.icmbio.gov.br/cepsul/images/... , 2010MPA (2010) Boletim estatístico da pesca e aquicultura - 2008-2009. Ministério da Pesca e Aquicultura, Brasília , 101pp. https://www.icmbio.gov.br/cepsul/images/stories/biblioteca/download/estatistica/est_2008_2009_nac_pesca.pdf [Accessed: 15/12/2019]
https://www.icmbio.gov.br/cepsul/images/... , 2012MPA (2012) Boletim estatístico da pesca e aquicultura - 2010. Ministério da Pesca e Aquicultura, Brasília , 129pp. https://www.icmbio.gov.br/cepsul/images/stories/biblioteca/download/estatistica/est_2010_nac_boletim.pdf [Accessed: 15/12/2019]
https://www.icmbio.gov.br/cepsul/images/... ). As a consequence, most studies on this species in the southwestern Atlantic have been concentrated in the southern most distribution range (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., 1996Haimovici M, Krug LC (1996) Life history and fishery of the enchova, Pomatomus saltatrix, in Southern Brazil. Marine and Freshwater Research 47: 357-363. https://doi.org/10.1071/MF9960357
https://doi.org/10.1071/MF9960357... , Muelbert and Sinque 1996Muelbert JH, Sinque C (1996) Distribution of bluefish (Pomatomus saltatrix) larvae along the continental shelf off southern Brazil. Marine and Freshwater Research 47: 311-314. https://doi.org/10.1071/MF9960311
https://doi.org/10.1071/MF9960311... , Lucena et al. 2000Lucena FM, Vaske T Jr, Ellis JR, O’Brien CM (2000) Seasonal variation in the diets of bluefish, Pomatomus saltatrix (Pomatomidae) and striped weakfish, Cynoscion guatucupa (Sciaenidae) in Southern Brazil: implications of food partitioning. Environmental Biology of Fishes 57: 423-434. https://doi.org/10.1023/A:1007604424423
https://doi.org/10.1023/A:1007604424423... , Silvano and Begossi 2010Silvano RA, Begossi A (2010) What can be learned from fishers? An integrated survey of fishers’ local ecological knowledge and bluefish (Pomatomus saltatrix) biology on the Brazilian coast. Hydrobiologia 637: 3-18. https://doi.org/10.1007/s10750-009-9979-2
https://doi.org/10.1007/s10750-009-9979-... ), with little information on the northern portion of the stock.

Despite its recognized importance as a fishery resource, management policies for the species have not been established throughout its distribution range. The current legislation governing bluefish fisheries in Brazil covers only part of its distribution along the southern coast (Rio Grande do Sul, Santa Catarina, and Paraná) (MPA/MMA 2009MPA/MMA (2009) Instrução Normativa Interministerial Nº 2, de 27 de Novembro de 2009. Ministério da Pesca/Ministério do Meio Ambiente, Brasília . http://www.icmbio.gov.br/cepsul/images/stories/legislacao/Instrucao_normativa/2009/in_mpa_mma_02_2009_defesoanchova_sul_revoga_p_ibama_127_1994.pdf [Accessed on 10/12/2019]
http://www.icmbio.gov.br/cepsul/images/s... ), which establishes criteria for vessel operations and catches and defines a closure period between December and March (reproductive season). In spite of this, the Ministério do Meio Ambiente (MMA) defines the minimum landing size (35 cm) for catches in Brazil (MMA 2005MMA (2005) Instrução Normativa Nº 53, de 22 de Novembro de 2005. Ministério do Meio Ambiente, Brasília . https://www.icmbio.gov.br/cepsul/images/stories/legislacao/Instrucao_normativa/2005/in_mma_53_2005_tamanhominimoespeciesmarinhaseestuarinas_se_s_altrd_in_mma_03_2006.pdf [Accessed: 10/12/2019]
https://www.icmbio.gov.br/cepsul/images/... - Instrução Normativa #53/2005), considering the entire Brazilian bluefish population as a single stock. The continuous survey of information about the life cycle, such as reproduction and recruitment, is essential for the conservation and management of fisheries and should, whenever possible, consider the entire range of species distribution.

The natural renewal of the population is a complex process, resulting from a series of events during the species’ life cycle such as maturity, egg laying, metamorphosis, growth, survival in nursery areas, and migration to feeding areas (Pitcher and Hart 1982Pitcher T, Hart PJ (1982) Fisheries ecology. Chapman and Hall, London, 414 pp., Jørgensen et al. 2007Jorgensen C, Enberg K, Dunlop ES, Arlinghaus R, Boukal DS, Brander K, Pardoe H (2007) Ecology-Managing evolving fish stocks. Science 318(5854): 1247-1248. https://doi.org/10.1126/science.1148089
https://doi.org/10.1126/science.1148089... ). Reproduction and recruitment are two major events in the life history of a species (King 2007King M (2007) Fisheries Biology, Assessment and Management. Blackwell Publishing Oxford, UK, 2nd ed., 382 pp.). To understand the reproductive strategy of any species, it is necessary to know the type of spawning, fecundity, sex ratio, and size at maturity, among other factors (Hunter et al. 1992Hunter JR, Macewicz BJ, Lo NC, Kimbrell CA (1992) Fecundity, spawning, and maturity of female Dover sole, Microstomus pacificus, with an evaluation of assumptions and precision. Fishery Bulletin 90: 101-128., Murua and Motos 2006Murua H, Motos L (2006) Reproductive strategy and spawning activity of the European hake Merluccius merluccius (L.) in the Bay of Biscay. Journal of Fish Biology 69(5): 1288-1303. https://doi.org/10.1111/j.1095-8649.2006.01169.x
https://doi.org/10.1111/j.1095-8649.2006... ). Knowledge of these aspects is essential for understanding the population dynamics and spatio-temporal variations in abundance and size, as well as the use of the environment, energy allocation, and how they contribute in increasing the adult stock biomass (Wootton 1998Wootton RJ (1998) Ecology of teleost fishes. Chapman and Hall, London , 404 pp. https://doi.org/10.1007/978-94-009-0829-1
https://doi.org/10.1007/978-94-009-0829-... , King 2007King M (2007) Fisheries Biology, Assessment and Management. Blackwell Publishing Oxford, UK, 2nd ed., 382 pp.).

Studies on the reproductive biology of the species are important in fisheries science because these are used to determine the resilience of populations to fishing pressure (Morgan 2008Morgan MJ (2008) Integrating reproductive biology into scientific advice for fisheries management. Journal of Northwest Atlantic Fishery Science 41(41): 37-51. https://doi.org/10.2960/J.v41.m615
https://doi.org/10.2960/J.v41.m615... ). In addition, studies on fish reproductive strategies can improve our understanding of egg production methods, which will allow us to evaluate the reproductive stock biomass (Armstrong and Witthames 2012Armstrong MJ, Witthames PR (2012) Developments in understanding of fecundity of fish stocks in relation to egg production methods for estimating spawning stock biomass. Fisheries Research 117: 35-47. https://doi.org/10.1016/j.fishres.2010.12.028
https://doi.org/10.1016/j.fishres.2010.1... , Ganias 2013Ganias K (2013) Determining the indeterminate: Evolving concepts and methods on the assessment of the fecundity pattern of fishes. Fisheries Research 138: 23-30. https://doi.org/10.1016/j.fishres.2012.05.006
https://doi.org/10.1016/j.fishres.2012.0... ). These methods can also enable the evaluation of fish phenology in a scenario of constant climate change (Soria et al. 2008Soria FN, Strüssmann CA, Miranda LA (2008) High water temperatures impair the reproductive ability of the pejerrey fish Odontesthes bonariensis: effects on the hypophyseal-gonadal axis. Physiological and Biochemical Zoology 81(6): 898-905. https://doi.org/10.1086/588178
https://doi.org/10.1086/588178... , Miranda et al. 2009Miranda LA, Strüssman CA, Somoza GM (2009) Effects of light and temperature conditions on the plasma expression of GnRH and GtH genes and levels of plasma steroids in Odontesthes bonariensis females. Fish Physiology and Biochemistry 35: 101-108. https://doi:10.1007/s10695-008-9232-3
https://doi:10.1007/s10695-008-9232-3... , Pankhurst and King 2010Pankhurst NW, King HR (2010) Temperature and salmonid reproduction: implications for aquaculture. Journal of Fish Biology 76: 69-85. https://doi.org/10.1111/j.1095-8649.2009.02484.x
https://doi.org/10.1111/j.1095-8649.2009... , Strüssmann et al. 2010Strüssmann CA, Conover DO, Somoza GM, Miranda LA (2010) Implications of climate change for the reproductive capacity and survival of New World silversides (Family Atherinopsidae). Journal of Fish Biology 77: 1818-1834. https://doi.org/10.1111/j.1095-8649.2010.02780.x
https://doi.org/10.1111/j.1095-8649.2010... ). Given that P. saltatrix has been experiencing high fishing pressure off the Brazilian coast, we have presented recent reproductive development patterns of bluefish along the southwestern coast of Brazil, including size at maturity, spawning, and recruitment periods, which would contribute to the reconciliation of stock exploitation with conservation, providing recent findings for the development of updated stock management strategies.

MATERIAL AND METHODS

Field sampling and laboratory processing

Between March 2014 and December 2015, 49 commercial landings of the fleet operating on the southeast coast of Brazil, between latitudes of 20°30’ and 24°00’S (Fig. 1), were monitored as part of a biological monitoring program carried out in the main fishing ports in the state of Rio de Janeiro. Approximately two landings were monitored monthly. From each landing, a sample of 30 to 50 individuals of different sizes was collected.

The fishing area (Fig. 1) is located in an important transitional region of the Southwestern Atlantic, formed by the northern boundary of the southeastern Brazilian shelf (SBS), between São Sebastião (São Paulo state) and Arraial do Cabo (Rio de Janeiro state) and the southern portion of the Eastern Brazilian Continental Shelf, until Guarapari (Espírito Santo state) (Rossi-Wongtschowski and Madureira 2006Rossi-Wongtschowski CLDB, Madureira LSP (2006) O ambiente oceanográfico da plataforma continental e do talude na região Sudeste-Sul do Brasil . EdUSP, São Paulo, 472 pp.). Arraial do Cabo is an important geomorphological feature, where the coastline exhibits a marked change of direction, from east (E)-west (W) to northeast (NE)-southwest (SW), accompanied by the narrowing of the continental shelf (Rossi-Wongtschowski and Madureira 2006Rossi-Wongtschowski CLDB, Madureira LSP (2006) O ambiente oceanográfico da plataforma continental e do talude na região Sudeste-Sul do Brasil . EdUSP, São Paulo, 472 pp.). The morphological conditions and intense NE winds are the key factors responsible for the upwelling of cold and nutrient-rich waters from the South Atlantic Central Water (SACW), mostly during the summer (Artusi and Figueiredo 2007Artusi L, Figueiredo AGD Jr (2007) Sismografia rasa da plataforma continental de Cabo Frio-Araruama-RJ. Revista Brasileira de Geofísica 25: 7-16. https://doi.org/10.1590/S0102-261X2007000500002
https://doi.org/10.1590/S0102-261X200700... ). This region also represents the boundary between the Brazilian southeastern and eastern marine ecosystems (Spalding et al. 2007Spalding MD, Fox HE, Allen GR, Davidson N, Ferdaña ZA, Finlayson MAX, Martin KD (2007) Marine ecoregions of the world: a bioregionalization of coastal and shelf areas. BioScience 57(7): 573-583. https://doi.org/10.1641/B570707
https://doi.org/10.1641/B570707... ).

We also collected data on the occurrence, abundance, and sizes of young-of-the-year (YOY) fishes on the shallow waters of the sandy beaches based on the monthly experimental beach seining conducted between January 2012 and December 2015 (SISBIO/IBAMA/ICMBio collection license #15787-1). Beach seining was conducted in the shallow surf zones of the three beaches located in the marine boundary and lower sector of Guanabara Bay. On each occasion, three hauls were carried out for a distance of 20 m in a direction parallel to the coastline at a maximum depth of 1.5 m. The beach seine used was 9.0 m long and 2.6 m wide, made of a 210/06 silk thread with a 13 mm bar mesh on the sides and a 5 mm bar mesh in the bag. Records of P. saltatrix juveniles were used to identify the recruitment periods in the beach shallow waters and to evaluate the size of the YOY. All individuals were measured for total length (TL, cm) and total weight (TW, g). Individuals from commercial fisheries had their sex identified through a macroscopic examination of gonad characteristics (Vazzoler 1996Vazoller AEAM (1996) Biologia da reprodução de peixes teleósteos: teoria e prática. Eduem, Maringá, 169 pp., Brown-Peterson et al. 2011Brown-Peterson NJ, Wyanski DM, Saborido-Rey F, Macewicz BJ, Lowerre-Barbieri SK (2011) A standardized terminology for describing reproductive development in fishes. Marine and Coastal Fisheries 3: 52-70. https://doi.org/10.1080/19425120.2011.555724
https://doi.org/10.1080/19425120.2011.55... ). The gonad weight (GW, nearest 1 g), liver weight (LW, g), and eviscerated weight (EW, g) were also recorded. The dissection of the fish was performed through a longitudinal incision made in the abdominal region. The ovaries were gently removed from the cavity and weighed to the nearest 0.1 g. Sub-samples of the ovaries were preserved in 10% neutral buffered formalin (Cuellar et al. 1996Cuellar N, Sedberry GR, Wyanski DM (1996) Reproductive seasonality, maturation, fecundity, and spawning frequency of the vermilion snapper, Rhomboplites aurorubens, off the south eastern United States. Fishery Bulletin 94: 635-653.) for later histological examination.

Relative growth, sex ratio, and histological classification

The relative growth of the juveniles and adults (females and males) was evaluated using the length-weight relationship (LWR) according to the equation: $TW={aTL}^b$(Le Cren 1951Le Cren ED (1951) The length-weight relationship and seasonal cycle in gonad weight and conditions in the perch Perca fluviatilis. Journal of Animal Ecology 20: 201-219. https://doi.org/10.2307/1540
https://doi.org/10.2307/1540... ), where a is the coefficient related to body shape, and b is an exponent related to changes in body shape (Froese 2006Froese R (2006) Cube Law, condition Factor and Weight-Length Relationships: History, Meta-Analysis and Recommendations. Journal of Applied Ichthyology 22: 241-253. https://doi.org/10.1111/j.1439-0426.2006.00805.x
https://doi.org/10.1111/j.1439-0426.2006... ). To test the b value against the value of 3 (isometric), Student’s t-test was employed to predict any significant deviation (Zar 1984Zar JH (1984) Biostatistical analysis. Prentice Hall, Englewood Cliffs, New Jersey, 2nd ed., 944 pp.). Analysis of covariance (ANCOVA) was performed to determine the difference between the b slopes of the LWRs of males and females.

The sex ratio was determined for the different length classes (intervals of 5 cm TL), and the austral seasons were defined as summer (January-March), autumn (April-June), winter (July-September), and spring (October-December). Deviations from the null hypothesis of a 1:1 ratio were statistically tested using the chi-squared test (χ²) with a 5% significance level. Reproductive activity was assessed by observing the macroscopic characteristics of the gonads, microscopic examination of the ovarian histological slides, frequency distribution of the oocyte diameter, and the reproductive indices. All individuals had their gonads macroscopically classified according to the following stages: immature, developing, spawning capable, spent, and regenerating (Brown-Peterson et al. 2011Brown-Peterson NJ, Wyanski DM, Saborido-Rey F, Macewicz BJ, Lowerre-Barbieri SK (2011) A standardized terminology for describing reproductive development in fishes. Marine and Coastal Fisheries 3: 52-70. https://doi.org/10.1080/19425120.2011.555724
https://doi.org/10.1080/19425120.2011.55... ). This classification was adjusted for females, considering the microscopic anatomy of 40 ovaries at different stages of development and during different seasons. For this purpose, each gonad was cross-sectioned, fixed in 10% formalin, and processed following the routine haematoxylin-eosin staining (Suvarna et al. 2012Suvarna KS, Layton C, Bancroft JD (2012) Bancroft’s Theory and Practice of Histological Techniques. Elsevier Health Sciences, London, 7th ed., 172-186.). The types and ovarian cell structures were identified based on the criteria proposed by Brown-Peterson et al. (2011), and macro- and microscopic characteristics of the examined gonads were used as reference for the construction of a descriptive table of maturity stages (Table 1). For this, photomicrographs were obtained from four observation fields of each examined ovary, with a camera coupled to a microscope. The diameter of all the oocytes within each field was measured to the nearest 0.1 μm, using a plugin for Image J version 1.46r (NIH, Bethesda, MD, EUA) (http://www.imagej.nih.gov/ij), considering the largest diameter of the oocytes with evident nuclei.

Reproductive indices and maturity

The gonadosomatic index (GSI), as a proxy of the degree of gonadal development, was calculated for each sex and grouped sexes based on the eviscerated weight to avoid possible variations from differences in the stomach content using the equation: $\mathrm{G}\mathrm{S}\mathrm{I}=\left(\mathrm{G}\mathrm{W}/\mathrm{E}\mathrm{W}\right)\times 100$, where GW is the gonad weight (g), and EW is the weight of the fish eviscerated. The condition factor under the influence of the gonad weight (K) and without the gonad weight (K’) were calculated according to the methods of Le Cren (1951Le Cren ED (1951) The length-weight relationship and seasonal cycle in gonad weight and conditions in the perch Perca fluviatilis. Journal of Animal Ecology 20: 201-219. https://doi.org/10.2307/1540
https://doi.org/10.2307/1540... ), allowing the estimation of the gonadal condition factor (KΔ), following the formula: KΔ = K-K’, where K = TW_/TL^b (allometric condition factor) and K’ = SW/TL^b (somatic condition factor). The somatic weight (SW) is calculated as follows: SW = TW-GW. The hepatosomatic index (HI) was calculated using the formula: HI = (LW/EW) × 100, where LW represents liver mass (Vazoller 1981Vazoller AEAM (1981) Manual de métodos para estudos biológicos de populações de peixes: reprodução e crescimento. Programa Nacional de Zoologia, CNPq, Brasília, 108 pp., 1996). The calculated values for each of the indices were grouped by month and compared using the non-parametric Kruskal-Wallis test (p < 0.05). All statistical analyses were performed using the STATISTICA^® software (version 8.0).

Finally, the size at 50% maturity (L₅₀) was estimated to define sexual maturity as a function of body length, according to the following equation (Moresco and Bemvenuti 2006Moresco A, Bemvenuti MA (2006) Biologia reprodutiva do peixe-rei Odontesthes argentinensis (Valenciennes) da região marinha costeira do sul do Brasil. Revista Brasileira de Zoologia 23(4): 1168-1174. https://doi.org/10.1590/S0101-81752006000400025
https://doi.org/10.1590/S0101-8175200600... ): $\mathrm{F}\mathrm{r}=1-\left({\mathrm{e}}^{-\mathrm{a}{\mathrm{T}\mathrm{L}}^{\mathrm{b}}}\right)$, where Fr is the relative frequency of adult individuals in each size class, e is the base of the natural logarithm, a and b are coefficients estimated by the least squares method, and TL is the midpoint of the total length classes.

Batch fecundity

Batch fecundity (F) was estimated by direct counts of the hydrated oocytes (Hunter et al. 1985Hunter JR, Lo NCH, Leong RJH (1985) Batch fecundity in multiples pawning fishes. In: Lasker R (Ed.) An egg production method for estimating spawning biomass of pelagic fish: application to the northern anchovy, Engraulis mordax. US Department of Commerce, National Oceanicand Atmospheric Administration, National Marine Fisheries Service, Califronia, USA, 66-77.). Sub-samples of the median portion of the seven ovaries with intense yellow color in the spawning capable phase were weighed to the nearest 1.0 g, and the number of hydrated oocytes was counted. The estimate of individual F was back-calculated by the gravimetric method: F = GWn (m), where n is the number of hydrated oocytes in the sub-sample, and m is the mass of the ovarian sub-sample. Power regression was used to determine the relationship between batch fecundity, TL, and TW.

RESULTS

Size distribution, relative growth, and sex ratios

Out of the 1,102 individuals sampled from the commercial landings, 671 were females ranging in size from 30.0 to 82.0 cm TL (mean ± SD; 48.9 ± 6.7 cm), and 431 were males, ranging from 29.2 to 61.6 cm TL (mean ± SD; 47.8 ± 5.6 cm) (Fig. 2). Most of the sampled fish were between 40.0 and 59.9 cm TL (greater than 90% of the fish). The YOY (N = 1,127) captured on beach seining ranged from 1.2 to 15.5 cm TL (mean ± SD; 4.5 ± 2.4 cm).

The length-weight relationship determined for the juveniles was TW = 0.004 TL^3.281, which indicated a positive allometric growth (b > 3) (p < 0.05) (t₍₁₁₂₇₎ =18.45, p < 0.05). The relationships for females and males were expressed by the following equations: TW = 0.028 TL ^2.693 and TW = 0.036 TL ^2.628, respectively, indicating a negative allometric growth (b < 3) (p < 0.05) (female t₍₅₇₅₎ = -14.97, p < 0.05, and male t₍₃₈₉₎ = -15.19, p < 0.05) for the commercial landings population stratum. There were no significant differences between the sexes (ANCOVA: F_1,965 = 0.20, p > 0.05). Thus, we assumed that the b value obtained for the grouped sexes would be representative of the study population (Table 2).

The total sex ratio (0.61; female:male = 1.6:1) was significantly different from the expected value of 0.5 (χ²calc = 4.74, df = 1, p > 0.05). There were no significant differences (χ²calc = 0.33 and 0.52, df = 1, p > 0.05) in the intermediate size classes (between 40.0 and 49.9 cm). In the other size classes, females predominated, especially above 65.0 cm (χ²calc = 51.02, df = 1, p < 0.05). Females were more abundant during almost the entire study period. Males were more abundant only in the summer of 2014 (χ²calc = 36.00, df = 1, p > 0.05).

General pattern of ovary development

Histological analyses of the ovaries revealed that the oocyte development showed a consistent pattern in batch spawning. In spawning capable ovaries, oocytes at all stages of development were recorded (Figs 3-6), indicating asynchronous oocyte development. Primary growth oocytes showed diameters between 18 and 135 μm, and those of secondary growth, that is, cortical alveolar, ranged between 89 and 226 μm. Vitellogenic oocytes (Vtg1) ranged from 127 to 277 μm, between 238 and 487 μm (Vtg2), and between 301 and 598 μm (Vtg3). Hydrated oocytes had diameters greater than 700 μm (Figs 3-9). There was an overlap in the diameter of the oocytes at different stages, except for the hydrated oocytes, which were clearly separated.

The presence of hydrated oocytes and oocytes at advanced stages of development (Vtg2 and Vtg3) in the same ovary indicates the possibility of more than one spawning event in the same season (Fig. 7). Gonads containing atretic oocytes (β-atresia) and secondary growth oocytes (Fig. 8) were recorded in individuals collected in April and October (reproductive peaks) and in both annual cycles. Gonads with primary growth oocytes and oocyte resorption were observed at the end of the reproductive season (December 2014 and May-November 2015). In addition, ovaries containing post-ovulatory follicles also presented vitellogenic oocytes, indicating batch spawning (Fig. 9).

The frequency distributions of the oocyte diameter by maturity stage revealed a similar unimodal pattern for immature oocytes and regeneration. Other stages showed multimodal distributions, especially the ovaries classified as spawning capable (Fig. 10), reinforcing an asynchronous pattern of oocyte development. Such patterns of oocyte size and ovarian development are consistent with a pattern of batch spawning and indeterminate fecundity.

Maturity

The size at 50% maturity (L₅₀) was estimated at 35.5 cm L_T for females, 38.3 cm for males, and 37.4 cm for both sexes (Fig. 11). The length at which all individuals were fully mature (L₁₀₀) was estimated to be 39.5 cm for females, 50.0 cm for males, and 47.0 cm for both sexes. Histological analysis confirmed that individuals larger than 36.0 cm had completely vitellogenic oocytes (stage 3) and advanced development.

Spawning patterns

To identify seasonal spawning patterns, we calculated the reproductive indices (GSI, KΔ, and HI) separately for females and males, considering only adult and spawning individuals. The mean values of GSI and KΔ varied similarly over time for both sexes. Despite the interannual variation in GSI values, the seasonal pattern was repeated in both cycles, revealing two annual reproductive peaks.

The highest GSI values for females were observed during autumn (May 2014 and April 2015) and spring (December 2014 and October 2015). The lowest GSI values were recorded during the summer months in both annual cycles (Fig. 12). The monthly variation in the gonadal condition factors (KΔ) followed the same pattern observed for the GSI (Fig. 13). The HI values presented a trend similar to that observed for the gonadal condition factor (KΔ). The lowest values were recorded in December 2015 for both sexes (Fig. 14). The Kruskal-Wallis test revealed significant differences (p < 0.05) between the months for all indices analyzed, which supported the monthly reproductive pattern.

Batch fecundity

Individual fecundity estimated from fresh ovarian samples of seven fishes (41.8-52.8 cm; 0.786-1.280 kg) was 9,800.9-426,787.0 eggs, with a mean ± SD of 202,752.5 ± 160,900.9. The estimates of individual relative fecundity ranged between and 81-548 oocytes g^-1, with a mean ± SD of 273.5 ± 152.3 oocytes g^-1.

The relationship between fecundity (F), total length (TL), and total weight body (TW) was fitted using the following equations: F = 5E-08 TL^.476 (R² = 0.734) and F = 5E-10 TW ^3.866 (R² = 0.985).

Recruitment pattern

The sampling program carried out in the shallow surf zone of the sandy beaches recorded the occurrence of 1,136 individuals with TL varying between 1.0 and 15.5 cm (mean = 4.7 ± 2.6 SD), essentially during late winter and summer. No individual was caught in the autumn or early winter months.

The YOY was recorded between the end of winter and early spring, with an average size of 3.1 cm (± 1.9 SD) remaining in this environment for a period of three to five months, when they reached a TL of approximately 11.2 cm (± 1.9 SD) (Fig. 15). When analyzing the temporal variation patterns of GSI together with the data on the occurrence of juveniles on the beaches, there was a synchronous pattern of reproductive peaks and recruitment on the beaches of the external sector of Guanabara Bay (Fig. 15). Considering the two annual cycles and their reproductive pulses, we observed that the interval between the months of highest GSI and the arrival of the YOY on the beaches was approximately three months (Fig. 15).

DISCUSSION

Sex ratio and relative growth

The sex ratio of a population is an important population attribute because it varies throughout their life cycle, which depends on several ecological and evolutionary events that affect the individuals of each sex (Hutchings and Rowe 2008Hutchings JA, Rowe S (2008) Consequences of sexual selection for fisheries-induced evolution: an exploratory analysis. Evolutionary Applications 1: 129-136.). In the present study, larger proportions of females were observed throughout most of the study period and length classes, with the exception of autumn (2014-2015), spring, and summer (2015), which coincided with spawning periods. According to Kraak and Pen (2002Kraak SBM, Pen I (2002) Sex-determining mechanisms in vertebrates. In: Hardy ICW (Eds) Sex ratios: concepts and research methods. University Press, Cambridge, 158-177.), teleosts exhibit a tendency for a balanced sex ratio, which is accentuated during the reproductive period (Vazoller 1996Vazoller AEAM (1996) Biologia da reprodução de peixes teleósteos: teoria e prática. Eduem, Maringá, 169 pp., Pavlov and Emel’yanova 2016Pavlov DA, Emel’yanova NG (2016) Reproductive Dynamics. Fish Reproductive Biology 50-97. https://doi.org/10.1002/9781118752739.ch2
https://doi.org/10.1002/9781118752739.ch... ). Krug and Haimovici (1989Krug LC, Haimovici M (1989) Idade e crescimento da enchova Pomatomus saltatrix do Sul do Brasil. Atlântica 11: 47-61.) reported similar results for the bluefish individuals caught in southern Brazil, agreeing that differences in sex ratios may be attributed to a variety of causes, such as mortality, migration, and influence of the selectivity of fishing gear (Vazoller 1996Vazoller AEAM (1996) Biologia da reprodução de peixes teleósteos: teoria e prática. Eduem, Maringá, 169 pp., Castro and Mejuto 1995Castro J, Mejuto J (1995) Reproductive parameters of blue shark, Prionace glauca, and other sharks in the Gulf of Guinea. Marine Freshwater Research 46: 967-173. https://doi.org/10.1071/MF9950967
https://doi.org/10.1071/MF9950967... , Montealegre-Quijano and Vooren 2009Montealegre-Quijano S, Vooren CM (2009) Estimativas de mortalidade e tabelas de vida do tubarão-azul, Prionace glauca (Carcharhinidae), no sul do Brasil e águas internacionais adjacentes. Pan-American Journal of Aquatic Sciences 4: 476-489.), with the last factor being a possible explanation for the pattern observed in the present study. Krug and Haimovici (1989Krug LC, Haimovici M (1989) Idade e crescimento da enchova Pomatomus saltatrix do Sul do Brasil. Atlântica 11: 47-61.) showed that P. saltatrix females had higher sizes, reaching significantly higher lengths than males at the same age. Recently, Cumplido et al. (2018Cumplido R, Fagundes Netto EB, Rodrigues MT, Melo Junior UG Costa PAS (2018) A review and the length-weight relationship of bluefish, Pomatomus saltatrix (Linnaeus, 1766), Pisces: Pomatomidae, at the Marine Extractive Reserve (RESEX-Mar) of Arraial do Cabo, Rio de Janeiro State, Brazil. Open Access Library Journal 5.08: 1. https://doi.org/10.4236/oalib.1104770
https://doi.org/10.4236/oalib.1104770... ) registered females in greater proportion than males and larger sizes in the coastal area of Arraial do Cabo. Schilling et al. (2019Schilling HT, Smith JA, Stewart J, Everett JD, Hughes JM, Suthers IM (2019) Reduced exploitation is associated with an altered sex ratio and larger length at maturity in southwest Pacific (east Australian) Pomatomus saltatrix. Marine Environmental Research 147: 72-79. https://doi.org/10.1016/j.marenvres.2019.02.012
https://doi.org/10.1016/j.marenvres.2019... ) recently observed that the sex ratio of the bluefish population in the southwest Pacific Ocean shifted significantly from an equal sex ratio to a female-dominated population. The authors suggested two potential causes: changing environment occasioned for global marine warming, influencing the sex determination in newly fertilized eggs, and the differences in growth or behavior between male and female P. saltatrix, resulting in differing mortalities.

The parameters derived from the length-mass relationship, i.e., condition factor and “b” observed, revealed different energy investments between the juveniles (b > 3) and adults (b < 3). This is in agreement with the classic pattern of fish development, in which juveniles allocate energy for somatic growth only, while adults allocate energy for growth and reproduction (Wooton 1998). These parameters are also useful for estimating biomass and weight growth (Froese 2006Froese R (2006) Cube Law, condition Factor and Weight-Length Relationships: History, Meta-Analysis and Recommendations. Journal of Applied Ichthyology 22: 241-253. https://doi.org/10.1111/j.1439-0426.2006.00805.x
https://doi.org/10.1111/j.1439-0426.2006... ), allowing comparisons between fish species or populations from different habitats (Froese and Pauly 1998Froese R, Pauly D (1998) FishBase: concepts, design and data sources. ICLARM, Philippines, 256 pp., Nahum et al. 2009Nahum VJI, Castello JP, Rosenthal H (2009) Editorial, special issue: modern fisheries research approaches in Brazil. Journal of Applied Ichthyology 25: 243. https://doi.org/10.1111/j.1439-0426.2009.01304.x
https://doi.org/10.1111/j.1439-0426.2009... ). Previous studies have shown that the “b” values of P. saltatrix for juveniles (b = 3.051 to 3.336) and adults (b = 2.509 to 2.899) recorded in different habitats Barger 1990Barger LE (1990) Age and growth of bluefish Pomatomus saltatrix from the northern Gulf of Mexico and U.S. south Atlantic coast. Fishery Bulletin 88: 805-809., Torres 1991Torres FSB Jr (1991) Tabular data on marine fishes from Southern Africa, Part I. Length-weight relationships. Fishbyte 9: 50-53., Haimovici and Velasco 2000Haimovici M, Velasco G (2000) Length-weight relationships of marine fishes from southern Brazil. Naga, the ICLARM Quarterly 23(1): 19-23., Frota et al. 2004Frota LO, Costa PAS, Braga AC (2004) Length-weight relationships of marine fishes from the central Brazilian coast. NAGA WorldFish Center Q27: 20-26., Kalayci et al. 2007Kalayci F, Samsun N, Bilgin S, Samsun O (2007) Length-weight relationship of 10 fish species caught by bottom trawl and midwater trawl from the Middle Black Sea, Turkey. Turkish Journal of Fisheries and Aquatic Sciences 7: 33-36., Ak et al. 2009Ak O, Kutlu S, Aydin I (2009) Length-Weight Relationship for 16 Fish species from the Eastern Black Sea, Türkiye. Turk J Fish Aquatic Science 9: 125-126., Vaz-dos-Santos and Rossi-Wongtschowski 2013Vaz-dos-Santos AM, Rossi-Wongtschowski CLDB (2013) Length-weight relationships of the ichthyofauna associated with the Brazilian sardine, Sardinella brasiliensis, on the Southeastern Brazilian Bight (22 S-29 S) between 2008 and 2010. Biota Neotropica 13: 326-330. https://doi.org/10.1590/S1676-06032013000200034
https://doi.org/10.1590/S1676-0603201300... , Cumplido et al. 2018Cumplido R, Fagundes Netto EB, Rodrigues MT, Melo Junior UG Costa PAS (2018) A review and the length-weight relationship of bluefish, Pomatomus saltatrix (Linnaeus, 1766), Pisces: Pomatomidae, at the Marine Extractive Reserve (RESEX-Mar) of Arraial do Cabo, Rio de Janeiro State, Brazil. Open Access Library Journal 5.08: 1. https://doi.org/10.4236/oalib.1104770
https://doi.org/10.4236/oalib.1104770... ) were in line with the values estimated in the present study. Therefore, the b coefficient becomes an essential parameter for the evaluation of stocks, which is used to determine the health status and well-being of the individuals of a population, influenced by environmental factors, food availability, and reproductive period (Rossi-Wongtschowski 1977Rossi-Wongtschowski CLDB (1977) Estudo das variações da relação peso total/comprimento total em função do ciclo reprodutivo e comportamento, de Sardinella brasiliensis (Steidachner, 1879) da costa do Brasil. Boletim Instituto Oceanográfico 26: 131-180.).

Maturity

The estimated L₅₀ for grouped sexes was 37.4 cm, greater than the estimates from previous studies on the south coast (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513.). These differences may be associated with density-dependent factors such as environmental conditions, food availability, and local oceanographic characteristics, which may affect growth (Champagnat 1983Champagnat C (1983) Pêche, Biologieet Dynamique Du Tassergal (Pomatomus saltatrix, Linnaeus, 1766) sur lês Côtes Sénégalo-Mauritaniennes. IRD Editions, Paris, vol. 168, 279 pp., Krug and Haimovici 1989Krug LC, Haimovici M (1989) Idade e crescimento da enchova Pomatomus saltatrix do Sul do Brasil. Atlântica 11: 47-61.), or even with sampling biases during the capture because of a tendency to undersample the immature population. Nevertheless, our estimates for the separate sexes indicated that females reach sexual maturity at shorter lengths than males. In fact, such differences were previously observed for P. saltatrix in southern Brazil (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513.), the northeast coast of the United States (Salerno et al. 2001Salerno DJ, Burnett J, Ibara RM (2001) Age, growth, maturity, and spatial distribution of bluefish, Pomatomus saltatrix (Linnaeus), off the northeast coast of the United States, 1985-96. Journal of Northwest Atlantic Fishery Science 29: 31-40.), and Tunisia (Dhieb et al. 2006Dhieb K, Ghorbel M, Jarboui O, Bouain A (2006) Interactions between reproduction and fisheries in Bluefish, Pomatomus saltatrix (Pomatomidae), from Gulf of Gabes (Tunisia). Cybium 30: 355-364.). Another potential factor associated with variations in size at maturity is the fishing pressure on these populations (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., Wood 2013Wood AD (2013) Bluefish 2012 Stock Assessment Update. US Department of Commerce, Northeast Fisheries Science Center, Reference Document 13-07, 32pp. http://nefsc.noaa.gov/publications/crd/crd1307/crd1307.pdf [Accessed: 15/04/2020]
http://nefsc.noaa.gov/publications/crd/c... ). Our findings suggest that the studied population reaches sexual maturity at comparatively larger sizes than those reported in the literature and in the minimum landing size (TL = 35.0 cm) defined in the Brazilian legislation for management and protection of the species (MMA 2005MMA (2005) Instrução Normativa Nº 53, de 22 de Novembro de 2005. Ministério do Meio Ambiente, Brasília . https://www.icmbio.gov.br/cepsul/images/stories/legislacao/Instrucao_normativa/2005/in_mma_53_2005_tamanhominimoespeciesmarinhaseestuarinas_se_s_altrd_in_mma_03_2006.pdf [Accessed: 10/12/2019]
https://www.icmbio.gov.br/cepsul/images/... - Normative Instruction #53/2005). This indicates the need for a continuous and geographically comprehensive assessment of life history parameters used for management decisions.

Pattern of ovary development

Histological analyses of the ovaries confirmed the macroscopic stages observed and indicated that the bluefish have a batch spawning pattern, with asynchronous oocyte development and continuous reproduction. This is supported by the seasonal patterns of oocyte development widely documented in the literature (Hunter et al. 1992Hunter JR, Macewicz BJ, Lo NC, Kimbrell CA (1992) Fecundity, spawning, and maturity of female Dover sole, Microstomus pacificus, with an evaluation of assumptions and precision. Fishery Bulletin 90: 101-128., Brown-Peterson et al. 2011Brown-Peterson NJ, Wyanski DM, Saborido-Rey F, Macewicz BJ, Lowerre-Barbieri SK (2011) A standardized terminology for describing reproductive development in fishes. Marine and Coastal Fisheries 3: 52-70. https://doi.org/10.1080/19425120.2011.555724
https://doi.org/10.1080/19425120.2011.55... ), which includes the presence of hydrated oocytes. Oocytes in advanced stages of development in the same ovary suggest more than one spawning event in the same season. Similarly, ovaries containing POFs also had vitellogenic oocytes, which are indicative of batch spawning. In addition, the oocyte diameter distribution indicated that this is continuous and multimodal and has considerable overlap in size, reinforcing a pattern of asynchronous development with indeterminate fecundity. Other studies on the reproduction of bluefish bluefish (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., 1996Haimovici M, Krug LC (1996) Life history and fishery of the enchova, Pomatomus saltatrix, in Southern Brazil. Marine and Freshwater Research 47: 357-363. https://doi.org/10.1071/MF9960357
https://doi.org/10.1071/MF9960357... Robillard et al. 2008Robillard E, Reiss CS, Jones CM (2008) Reproductive biology of bluefish (Pomatomus saltatrix) along the East Coast of the United States. Fisheries Research 90: 198-208. https://doi.org/10.1016/j.fishres.2007.10.020
https://doi.org/10.1016/j.fishres.2007.1... ) confirm that such tactics are common in the species, regardless of its location or population. However, the maximum oocyte diameter measured at all stages of development was comparatively lower than that observed in previous studies (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., Robillard et al. 2008Robillard E, Reiss CS, Jones CM (2008) Reproductive biology of bluefish (Pomatomus saltatrix) along the East Coast of the United States. Fisheries Research 90: 198-208. https://doi.org/10.1016/j.fishres.2007.10.020
https://doi.org/10.1016/j.fishres.2007.1... ). According to Vazoller (1996Vazoller AEAM (1996) Biologia da reprodução de peixes teleósteos: teoria e prática. Eduem, Maringá, 169 pp.) and Wootton (1998Wootton RJ (1998) Ecology of teleost fishes. Chapman and Hall, London , 404 pp. https://doi.org/10.1007/978-94-009-0829-1
https://doi.org/10.1007/978-94-009-0829-... ), this may indicate reproductive tactics adopted by the species due to local restrictions. Each oocyte represents a massive cytoplasmic investment; its diameter and quality can be largely influenced by temperature, food availability, and size of the breeding females. These factors may vary between years as well as between populations of the same species. Another explanation would be the evolutionary trend of oocyte minimization to maximize fecundity, which is commonly observed in overexploited populations (Wootton 1998Wootton RJ (1998) Ecology of teleost fishes. Chapman and Hall, London , 404 pp. https://doi.org/10.1007/978-94-009-0829-1
https://doi.org/10.1007/978-94-009-0829-... ).

The results of this study also showed the presence of individuals capable of spawning in almost all months, with clear seasonality in the reproductive period, having one spawning peak in spring and the other in autumn. The presence of HYT, which occurs a few hours before spawning (Hunter and Goldberg 1980Hunter JR, Goldberg SR (1980) Spawning incidence and batch fecundity in northern anchovy, Engraulis mordax. Fishery Bulletin 77: 641-652.), and GVM oocytes in the months of May and October in the ovaries of P. saltatrix are indicative of an imminent spawning event (Hunter et al. 1992Hunter JR, Macewicz BJ, Lo NC, Kimbrell CA (1992) Fecundity, spawning, and maturity of female Dover sole, Microstomus pacificus, with an evaluation of assumptions and precision. Fishery Bulletin 90: 101-128.). The presence of POFs, which tend to be resorbed between 24 and 48 hours, indicates recent spawning (Hunter et al. 1992Hunter JR, Macewicz BJ, Lo NC, Kimbrell CA (1992) Fecundity, spawning, and maturity of female Dover sole, Microstomus pacificus, with an evaluation of assumptions and precision. Fishery Bulletin 90: 101-128., Brown-Peterson et al. 2011Brown-Peterson NJ, Wyanski DM, Saborido-Rey F, Macewicz BJ, Lowerre-Barbieri SK (2011) A standardized terminology for describing reproductive development in fishes. Marine and Coastal Fisheries 3: 52-70. https://doi.org/10.1080/19425120.2011.555724
https://doi.org/10.1080/19425120.2011.55... , Lowere-Barbieri et al. 2011Lowerre-Barbieri SK, Ganias K, Saborido-Rey F, Murua H, Hunter JR (2011) Reproductive timing in marine fishes: variability, temporal scales, and methods. Marine and Coastal Fisheries 3: 71-91. https://doi.org/10.1080/19425120.2011.556932
https://doi.org/10.1080/19425120.2011.55... ). These histological observations corroborate the reproductive period indicated by the GSI and are in agreement with the values recorded for other P. saltatrix populations, illustrating a common characteristic of the species. The same pattern was observed on the southeast coast of Brazil (São Paulo to Rio de Janeiro) by Silvano and Begossi (2010Silvano RA, Begossi A (2010) What can be learned from fishers? An integrated survey of fishers’ local ecological knowledge and bluefish (Pomatomus saltatrix) biology on the Brazilian coast. Hydrobiologia 637: 3-18. https://doi.org/10.1007/s10750-009-9979-2
https://doi.org/10.1007/s10750-009-9979-... ) and Nunes et al. (2011Nunes DM, Hartz SM, Silvano RAM (2011) Conhecimento ecológico local e científico sobre os peixes na pesca artesanal no sul do Brasil. Boletim do Instituto de Pesca 37: 209-223.); however, on the southern coast (Rio Grande do Sul to Santa Catarina), bluefish spawning occurred in the spring and summer months (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513., Muelbert and Sinque 1996Muelbert JH, Sinque C (1996) Distribution of bluefish (Pomatomus saltatrix) larvae along the continental shelf off southern Brazil. Marine and Freshwater Research 47: 311-314. https://doi.org/10.1071/MF9960311
https://doi.org/10.1071/MF9960311... , Silvano and Begossi 2005Silvano RA, Begossi A (2005) Local knowledge on a cosmopolitan fish: ethnoecology of Pomatomus saltatrix (Pomatomidae) in Brazil and Australia. Fisheries Research 71: 43-59. https://doi.org/10.1016/j.fishres.2004.07.007
https://doi.org/10.1016/j.fishres.2004.0... ). This variability has already been observed along the distribution area of the species (Juanes et al. 1996Juanes F, Hare JA, Miskiewicz AG (1996) Comparing early life history strategies of Pomatomus saltatrix: a global approach. Marine and Fresh water Research 47: 365-379. https://doi.org/10.1071/MF9960365
https://doi.org/10.1071/MF9960365... ).

Bluefish exhibit a characteristic migratory behavior, that is, migrating to higher latitudes in the spring and returning to lower latitudes in the fall and winter, which is linked to the displacement of warmer water bodies (14 to 30 °C) (Champagnat 1983Champagnat C (1983) Pêche, Biologieet Dynamique Du Tassergal (Pomatomus saltatrix, Linnaeus, 1766) sur lês Côtes Sénégalo-Mauritaniennes. IRD Editions, Paris, vol. 168, 279 pp., Juanes et al. 1996Juanes F, Hare JA, Miskiewicz AG (1996) Comparing early life history strategies of Pomatomus saltatrix: a global approach. Marine and Fresh water Research 47: 365-379. https://doi.org/10.1071/MF9960365
https://doi.org/10.1071/MF9960365... , Sabatés et al. 2011Sabatés A, Martín P, Raya V (2012) Changes in life-history traits in relation to climate change: bluefish (Pomatomus saltatrix) in the northwestern Mediterranean. ICES Journal of Marine Science 69(6): 1000-1009. https://doi.org/10.1093/icesdoi.org/10.1093/icesjms/fss053jms/fss053
https://doi.org/10.1093/icesdoi.org/10.1... , Robillard et al. 2008Robillard E, Reiss CS, Jones CM (2008) Reproductive biology of bluefish (Pomatomus saltatrix) along the East Coast of the United States. Fisheries Research 90: 198-208. https://doi.org/10.1016/j.fishres.2007.10.020
https://doi.org/10.1016/j.fishres.2007.1... ). Our results suggest that P. saltatrix reproduces throughout the fishing area, however, the highest proportions of individuals in stage 3 (suitable for spawning), as well as the highest IGS values and evidence of imminent and recent spawning (presence of hydrate oocytes and POFs) were recorded in individuals captured in the south of Arraial do Cabo, suggesting an intense reproductive aggregation activity in this region. Haimovici and Krug (1996Haimovici M, Krug LC (1996) Life history and fishery of the enchova, Pomatomus saltatrix, in Southern Brazil. Marine and Freshwater Research 47: 357-363. https://doi.org/10.1071/MF9960357
https://doi.org/10.1071/MF9960357... ) have associated this pattern with the seasonal coastal upwelling that frequently occurs between Cabo de São Tomé and Cabo Frio (RJ) in southeastern Brazil (Castro et al. 2006Castro BM, Lorenzzetti JA, Silveira ICA, Miranda LB (2006) Estrutura termohalina e circulação na região entre Cabo de São Tomé (RJ) e o Chuí (RS) (2006). In: Rossi-Wongtschowski CLDB, Madureira LSP (Eds) O ambiente oceanográfico da plataforma continental e do talude na região Sudeste-Sul do Brasil. EdUSP, São Paulo, 11-120.). Therefore, the observed pattern may be associated with reproductive migratory behavior.

Batch fecundity

Fecundity is generally proportional to the size, weight, and condition of the fish, which are key parameters for assessing fecundity at the population level (Murua and Saborido-Rey 2003Murua H, Saborido-Rey F (2003) Female reproductive strategies of marine fish species of the North Atlantic. Journal of Northwest Atlantic Fishery Science 33: 23-31.). The significant positive relationship between fish size and fecundity observed in the present study indicates a maximization of oocyte production. Oocyte production is influenced by factors not measured here, such as food availability. Some species are able to compensate for energy reserves with simultaneous food sources (Henderson et al. 1996Henderson BA, Wong JL, Nepszy SJ (1996) Reproduction of walleye in Lake Erie: allocation of energy. Canadian Journal of Fisheries and Aquatic Sciences 53: 127-133. https://doi.org/10.1139/f95-162
https://doi.org/10.1139/f95-162... ). Our results were similar to the fecundity study conducted in southern Brazil for the species, wherein batches of 3,006 to 468,000 eggs were estimated for individuals with TL ranging from 40.0 to 57.0 cm (Haimovici and Krug 1992Haimovici M, Krug LC (1992) Alimentação e reprodução da enchova Pomatomus saltatrix no litoral Sul do Brasil. Brazilian Journal of Biology 52: 503-513.). The differences observed between our study (batches of 9,800 to 426,000 eggs, TL between 41.8 and 52.8 cm) and the previous study may be related to our strict decision to use only females at the final stage of maturity and totally hydrated oocytes for estimating fecundity. Both estimates, observed in South (S) and southeastern (SE) Brazil, showed great variability, proving that fecundity is affected by several factors, such as the year (interannual variation), the condition of the fish, the size of the fish, and the period during which the samples were collected (Hunter et al. 1985Hunter JR, Lo NCH, Leong RJH (1985) Batch fecundity in multiples pawning fishes. In: Lasker R (Ed.) An egg production method for estimating spawning biomass of pelagic fish: application to the northern anchovy, Engraulis mordax. US Department of Commerce, National Oceanicand Atmospheric Administration, National Marine Fisheries Service, Califronia, USA, 66-77., Rijnsdorp 1991Rijnsdorp AD (1991) Changes in fecundity of female North Sea Plaice (Pleuronectes platessa L.) between three periods since 1900. ICES Journal of Marine Science 48: 253-280. https://doi.org/10.1093/icesjms/48.3.253
https://doi.org/10.1093/icesjms/48.3.253... , Witthames et al. 1995Witthames PR, Walker GM, Dinis MT, Whiting CL (1995) The geographical variation in the potential annual fecundity of dover sole, Sole asolea, from European shelf waters during 1991. Netherlands Journal of Sea Research 34: 45-58. https://doi.org/10.1016/0077-7579(95)90013-6
https://doi.org/10.1016/0077-7579(95)900... ).

Recruitment pattern

The recruitment pattern observed corroborates the reproductive period of the species in the southeastern Brazilian region. Inflows of YOY in the spring and summer months confirmed the occurrence of two recruitment pulses (winter and summer) linked with the two reproductive peaks observed. For instance, shallow coastal habitats such as nearshore waters of sandy beaches play an important role as a breeding site or nursery for the growth of P. saltatrix. Several studies have reported that the recruitment pattern of bluefish is similar between populations. Eggs and larvae are usually found along the coast in breeding habitats (Nyman and Conover 1988Nyman RN, Conover DO (1988) The relation between spawning season and recruitment of young-of-the-year bluefish, Pomatomus saltatrix, to New York. Fishery Bulletin (US) 86: 237-50., McBride and Conover 1991McBride RS, Conover DO (1991) Recruitment of young-of-the-year bluefish Pomatomus saltatrix to the New York Bight: variation in abundance and growth of spring-and summer-spawned cohorts. Marine Ecology Progress Series 78(3): 205-216., Muelbert and Sinque 1996Muelbert JH, Sinque C (1996) Distribution of bluefish (Pomatomus saltatrix) larvae along the continental shelf off southern Brazil. Marine and Freshwater Research 47: 311-314. https://doi.org/10.1071/MF9960311
https://doi.org/10.1071/MF9960311... , Juanes et al. 1996Juanes F, Hare JA, Miskiewicz AG (1996) Comparing early life history strategies of Pomatomus saltatrix: a global approach. Marine and Fresh water Research 47: 365-379. https://doi.org/10.1071/MF9960365
https://doi.org/10.1071/MF9960365... ), with larger individuals (between 12 and 14 cm) moving into deeper waters (Juanes and Conover 1994Juanes F, Conover DO (1994) Piscivory and prey size selection by young-of-the-year bluefish: predator preference or size-dependent capture success? Marine Ecology Progress Series 114: 59-69., Scharf et al. 1998Scharf FS, Buckel JA, Juanes F, Conover DO (1998) Predation by juvenile piscivorous bluefish (Pomatomus saltatrix): the influence of prey to predator size ratio and prey type on predator capture success and prey profitability. Canadian Journal of Fisheries and Aquatic Sciences 55(7): 1695-1703. https://doi.org/10.1139/f98-056
https://doi.org/10.1139/f98-056... ).

The integrated analysis of the reproductive dynamics and recruitment patterns in the present study suggests that reproduction occurs within the studied area. This result is further supported by the presence of POF and hydrated females concentrated in spring and summer months in the northernmost range of southeastern Brazil. Additionally, the size of the first maturity reported here is higher than the minimum landing size established in the legislation. In light of this evidence and the fact that the legislation was established based on information gathered three decades ago, fisheries regulations for P. saltatrix should be reviewed, including the updated results. Furthermore, future studies on the migratory movements and spawning dynamics of P. saltatrix in the southwestern Atlantic off the coast of Brazil must be elucidated to aid in the conservation and protection of spawning stock biomass from various fishery interactions.

ACKNOWLEDGEMENTS

This study was financially supported by the Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ # E-26/112.613/2012) and Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq # 406249/2012-1). The project was presented to and approved by the Departamento de Biologia Marinha, Instituto de Biologia, Universidade Federal Fluminense. Research was conducted according to approved ethical standards. G.M. de Souza held a Master’s degree scholarship from Capes and R.A. Tubino a post-doctoral fellowship PNPD-CAPES, during the course of the study. C. Monteiro-Neto is a Research Productivity Fellow from CNPq (# 305292/2016-1). We thank the staff and trainees from ECOPESCA-UFF, LEPHEC-UFF and FIPERJ. Editing and review of the English language was performed by Editage - Cactus Communications Services Pte. Ltd.

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