The reproductive biology of small fishes and the clutch concept: Combining macroscopic and histological approaches
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[1] N. Brown‐Peterson,et al. Importance of Depth and Artificial Structure as Predictors of Female Red Snapper Reproductive Parameters , 2020 .
[2] M. Kennard,et al. Strong evidence for changing fish reproductive phenology under climate warming on the Tibetan Plateau , 2018, Global change biology.
[3] K. Martin. Beach-Spawning Fishes: Reproduction in an Endangered Ecosystem , 2014 .
[4] Trevor J. Krabbenhoft,et al. Interannual variation in reproductive phenology in a riverine fish assemblage: implications for predicting the effects of climate change and altered flow regimes , 2014 .
[5] M. Meador,et al. Life history strategies of fish species and biodiversity in eastern USA streams , 2014, Environmental Biology of Fishes.
[6] Hunter,et al. Fecundity, Spawning, and Maturity of Female Dover Sole, Microstomus Pacificus, with an Evaluation of Assumptions and Precision , 2013 .
[7] K. Ganias. Determining the indeterminate: Evolving concepts and methods on the assessment of the fecundity pattern of fishes , 2013 .
[8] K. W. Shertzer,et al. Review of size- and age-dependence in batch spawning : implications for stock assessment of fish species exhibiting indeterminate fecundity , 2012 .
[9] H. Murua,et al. Reproductive Timing in Marine Fishes: Variability, Temporal Scales, and Methods , 2011 .
[10] J. Tomkiewicz,et al. Emerging Issues and Methodological Advances in Fisheries Reproductive Biology , 2011 .
[11] N. Brown‐Peterson,et al. A Standardized Terminology for Describing Reproductive Development in Fishes , 2011 .
[12] N. Brown‐Peterson,et al. Interspawning interval of wild female three-spined stickleback Gasterosteus aculeatus in Alaska. , 2009, Journal of fish biology.
[13] J. Nuñez,et al. Towards a universal scale to assess sexual maturation and related life history traits in oviparous teleost fishes , 2009, Fish Physiology and Biochemistry.
[14] W. Tonn,et al. Effects of reproductive timing and hatch date on fathead minnow recruitment , 2007 .
[15] D. Bryant,et al. Avian phenology: Climate change and constraints on breeding , 2000, Nature.
[16] R. Wallace,et al. Semilunar follicular cycle of an intertidal fish: the Fundulus model. , 1996, Biology of reproduction.
[17] J. A. Baker,et al. Clutch production in the darter Etheostoma lynceum and its implications for life‐history study , 1993 .
[18] W. Dunlap,et al. Yolk Loading in Oocytes of Darters and Its Consequences for Life-History Study , 1992 .
[19] B. Burr,et al. Fecundity and the Dynamics of Multiple Spawning in Darters: An In-Stream Study of Etheostoma rafinesquei , 1991 .
[20] D. Heins. Field evidence for multiple clutches in the longnose shiner , 1990 .
[21] D. Heins,et al. Spawning performance in North American minnows: direct evidence of the occurrence of multiple clutches in the genus Notropis , 1986 .
[22] C. Hubbs. Darter reproductive seasons , 1985 .
[23] Kelly Selman,et al. Cellular and dynamic aspects of oocyte growth in teleosts , 1981 .
[24] Illinois.,et al. The life history of the Tennessee snubnose darter, Etheostoma simoterum in Brush Creek, Tennessee / , 1981 .
[25] D. Heins,et al. The reproductive biology, age and growth of the North American cyprinid, Notropis longirostris (Hay) , 1976 .
[26] E. Balon,et al. Reproductive Guilds of Fishes: A Proposal and Definition , 1975 .
[27] F. N. Clark. Fish Bulletin No. 42. Maturity of the California sardine (Sardina caerulea), determined by ova diameter measurements , 1931 .