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Stage 0
Unfertilized eggs: The mature unfertilized egg is an oblate spheroid measuring average 1,245.9 +/-3.9 um (n=122) in horizontal diameter and a little less (average 1,169.9 +/- 4.0 um, n=122) in vertical diameter. The egg proper is closely surrounded by a thick egg envelope, the chorion. The perivitelline space between the chorion and the vitellus is very difficult to recognize using a light microscope. The micropyle located in the chorion at the animal pole is a small trumpet- or funnel-like structure. A number of short villi (non-attaching filaments; average 200.3 +/- 4.7 / egg, n=38) are distributed over the whole surface of the chorion. At spawning, eggs are held together in clumps by a tuft of long attaching filaments (average 29.6 +/- 1.3 / egg, n=38) on the chorion surface in the vegetal pole area of each egg [13]. A large, transparent yolk sphere is located in the center of each unfertilized egg. The cortical alveoli (vesicles, ca. 0.4-45 um in diameter) and oil droplets are embedded at random in the cortical cytoplasm. The cortical alveoli contain a transparent colloidal material and usually one or sometimes a few spherical bodies [16]. The size of the oil droplets usually varies according to differences in the temperature during and after oocyte maturation, in the time after ovulation and among the individual females. |
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Stage 1 (3 min) Activated
egg stage: When an egg is stimulated by a spermatozoon arriving at the vitelline surface through the micropyle, a transient wave of increase in cytoplasmic free calcium starts at the point of sperm attachment [5,33]. The cortical alveoli in the vicinity of the micropyle also begin to break down (exocytosis of alveolar contents) about 9 sec after sperm attachment [17]. The wave of exocytosis begins to propagate over the whole egg surface and ends at the vegetal pole 154 sec after its beginning. As a result of the exocytosis of cortical alveoli into the narrow space between the chorion and the vitellus, the chorion thins and hardens [24] as it separates from the vitellus to form a wide perivitelline space. Swollen spherical bodies secreted from the cortical alveoli are faintly visible in the perivitelline space. A transient "contractile wave" of cortical cytoplasmic layer follows the wave of exocytosis [9,15]. Due to the oscillatory contractions following this distinct contractile wave, the cortical cytoplasm progressively accumulates toward the animal pole to form a thick cytoplasmic layer [1,26]. At 7-8 minutes after sperm entry, the second polar body is extruded onto the surface of the cytoplasm at the center of the area where the germinal vesicle broke down during oocyte maturation. |
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Stage 2a Blastodisc
stage: The male and the female pronuclei migrate toward and associate with each other at the center of the thick cytoplasmic disc at the animal pole. Chromosomes then appear and divide into two groups at the poles of the spindle marking the end of this stage. a (30 min). Oscillatory contractions cause the peripheral cortical cytoplasm to migrate toward the animal pole where it forms a convex, lens-shaped blastodisc. Meanwhile, oil droplets migrate toward the vegetal pole and begin coalescing. |
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Stage 2b Blastodisc
stage: The male and the female pronuclei migrate toward and associate with each other at the center of the thick cytoplasmic disc at the animal pole. Chromosomes then appear and divide into two groups at the poles of the spindle marking the end of this stage. b (60 min). The layer of cortical cytoplasm covering the yolk sphere is very thin except where it forms the cap-shaped blastodisc. By the end of this stage, most of the oil droplets from the animal hemisphere have already migrated to the vegetal hemisphere. Two dimple-like pits on the blastodisc serve as markers to locate the future blastomeres. |
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Stage 3 (1 hr 5 min) 2
cell stage: The first cleavage plane is at a right angle to the axis between the second polar body (meiotic spindle) and the micropyle in 60-79% of eggs. The two blastomeres are highly rounded just after cleavage, but are comparatively flat just before the second cleavage. |
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Stage 4 (1 hr 45 min) 4
cell stage: The second cleavage furrow develops on the two blastomeres at a right angle to the first cleavage plane. It deepens until each blastomere is divided into 2 of the same size. The oil droplets are larger but fewer and gather toward the vegetal pole. |
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Stage 5 (2 hrs 20 min) 8
cell stage: The third cleavage plane is parallel to the first and divides the 4 blastomeres into 8 blastomeres. The blastoderm has bilaterally symmetrical rows of blastomeres and elongates along the axis of the second cleavage plane. |
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Stage 6 (2 hrs 55 min) 16
cell stage: The fourth cleavage plane, which is parallel to the second, divides the 2 rows of 4 blastomeres into 4 rows of 4 blastomeres. |
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Stage 7 (3 hrs 30 min) 32
cell stage: The fifth cleavage plane divides the marginal 12blastomeres meridionally into 24, and the central 4 blastomeres horizontally into 8 thereby forming 2 layers, an outer and an inner layer, in the central region. The number of marginal cells is 14. These observations agree with those of Matui [24], Gamo and Terajima [4] and Iwamatsu [11] but differ from the earlier reports of Kamito [21, cf. 30] in which cleavage was reported to continue to occur meridionally at least through the 32 cell stage. |
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Stage 8 (4 hrs 5 min)
Early morula stage: The planes of the sixth and later cleavages are difficult to precisely trace. The blastomeres (64-128) have different cleavage planes depending on their positions within the dome-shaped blastoderm and are arranged in 3 layers. The peripheral blastomeres (21-24) are flattened in shape. The cells (30-35 m in diameter) are arranged in 3-4 layers but are still easily dissociated from each other [31]. |
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Stage 9 (5 hrs 15 min)
Late morula stage: The blastodermal cells (256-512 blastomeres) are smaller than those of the previous stage and the number of marginal cells (30- 40) has increased. The blastodermal cells (central region, 25- 35 m in diameter) now form 4-5 layers. |
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Stage 10 (6 hrs 30 min)
Early blastula stage: The blastoderm (about 1,000 cells) is still high (thick) as in the late morula stage, although its inner cells (20-30 m in diameter) are smaller. According to Kageyama [19], the 11th cleavage still takes place synchronously. Nuclei from the marginal cells (40, cf.[19]) migrate out of the cells and are distributed in a few rows in the periblast (cortical syncytial layer). |
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Stage 11 (8 hrs 15 min)
Late blastula stage: Projection of the underside of the blastoderm (central cells, about 20 m in diameter) into the yolk sphere is observed. In this stage, some blastomeres begin to cleave asynchronously and to migrate. Several (5-6) rows of periblast nuclei are visible around the blastoderm. |
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Stage 12 (10 hrs 20 min)
Pre-early gastrula stage: The blastoderm has flattened down onto the yolk sphere so that its outer surface follows the curvature of the yolk sphere. The cell layers are slightly thicker on one side. The diameter of the cells in the central region of the blastoderm remains about 20 m. |
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Stage 13 (13 hrs 0 min)
Early gastrula stage: The blastoderm begins to expand (epiboly, about 1/4 of the yolk sphere) over the surface of the yolk sphere, and the presumptive region of the embryonic shield arises as a thickened margin (dorsal lip) of the blastoderm. It is difficult to recognize the boundaries of the flattened marginal cells. The diameter of the cells in the central region of the blastoderm is 15-20 m. |
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Stage 14 (15 hrs 0 min)
Pre-mid gastrula stage: Epiboly progressively advances and the blastoderm covers about 1/3 of the yolk sphere. The germ ring is well-defined, and the embryonic shield increases in size. Weak, rhythmically undulating movements [3,29] begin to occur on the blastoderm but not on the uncovered yolk sphere. |
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Stage 15 (17 hrs 30 min)
Mid gastrula stage: A streak is visible in the midline of the embryonic shield projecting into the germ ring area. The blastoderm covers about 1/2 of the yolk sphere. The nuclei of the marginal periblast are barely visible on the yolk sphere. |
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Stage 16 (21 hrs 0 min)
Late gastrula stage: The blastoderm covers 3/4 of the yolk sphere, and the embryonic shield (body) becomes more clearly visible as a narrow streak. The enveloping layer expands uniformly over the yolk sphere until this stage [18]. |
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Stage 17 (1 day 1 hr)
Early neurula stage (Head formation): The yolk sphere is nearly covered by the thin blastoderm leaving a small area around the vegetal pole (yolk plug) ex- posed. The head (rudimentary brain) is recognized anteriorly in the distinct embryonic body. A beak-like mass of cells is seen in front of the head. A few small vacuoles (Kupffer's vesicles) appear at the underside of the caudal (posterior) end of the body, which is in contact with a small blastopore. |
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Stage 18 (1 day 2 hrs)
Late neurula stage (Optic bud formation): The brain and nerve cord in the arrow-shaped embryonic body codevelop as a solid rod of cells. A solid optic bud (rudimentary eye vesicle) appears on each side of the cephalic end. The beak- like cell mass is still visible. The Kufpper's vesicles enlarge somewhat. A small part of the yolk sphere still forms a blastopore at the vegetal pole. |
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Stage 19 (1 day 3 hrs 30
min) 2 somite stage: A groove appears in the dorsum of each optic lobe. At the end of this stage (3 somites), two slight knobs are recognized behind the optic vesicles. The blastopore is completely closed. The expansion of the enveloping layer is accomplished without an accompanying increase in the number of constituent cells [18]. |
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Stage 20 (1 day 7 hrs 30
min) 4 somite stage: A paired placode of otic (auditory) vesicles appears at the posterior region of the head. Depressions begin to form at the dorsal surface of the eye vesicles. Three parts of the brain (the fore-, the mid- and the hind-brain) are discernible. |
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Stage 21 (1 day 10 hrs) 6
somite stage (Brain and otic vesicle formation): The optic vesicles differentiate to form the optic cups and the lenses begin to form. The small otic vesicles appear, but they lack otolith. The three regions of the brain are well- defined, and the neural fold (neurocoele) is seen as a median line along the body. The flat body cavity is recognized on the surface of the yolk sphere bilateral to the mid-brain and hind- brain. |
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Stage 22 (1 day 14 hrs) 9
somite stage (Appearance of heart anlage): The tubular heart (heart anlage) appears underneath the head from the posterior end of the mid-brain to the anterior end of the hind-brain. The anlage of the hatching enzyme gland (cell mass) appears at the centroventral side of the hind-brain [28]. The body cavity extends further toward the posterior end of the eye vesicles. Melanophores appear on the yolk sphere. Incomplete lenses are present in the eyes, and the vesicular otocyst is defined. |
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Stage 23 (1 day 17 hrs)
12 somite stage (Formation of tubular heart): The anterior portion of the straight-tubed heart reaches beneath the posterior end of the eye vesicle. A pair of semi-circular Cuvierian ducts (blood vessels) and the vitello-caudal vein begin to form on the yolk sphere. Kupffer's vesicles shrink. The neurocoele is formed in the fore-, mid- and hind-brains. The spherical optic lenses are completed. A blood island becomes pronounced in the ventral region between the 6th and 11th somites. The anterior (the 3rd - 5th) somites assume a slightly dog-legged shape. The oil droplets have coalesced into a single large drop. |
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Stage 24 (1 day 20 hrs)
16 somite stage (Start of heart beating): The anterior portion of the heart, which exhibits a slow (about 33-64/min) pulsation, extends up to the anterior end of the fore-brain. Cuvierian ducts and the vitello-caudal vein are still in- complete. Kupffer's vesicles have almost disappeared. Otoliths are not yet present in the otic vesicles. The embryonic body encircles nearly 1/2 of the yolk sphere. The gut (digestive) tube is observed ventral to the dogleg-shaped somites. |
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Stage 25 (2 days 2 hrs)
18-19 somite stage (Onset of blood circulation): When blood circulation begins, the spherical blood cells are first pushed out of the blood island (7th-15th somites) toward the vitello-caudal vein (Fig. 1). The blood is pumped (70-80 heart- beats/min) from the heart out into the anterior cardinal vein and the dorsal aorta roots. The dorsal aorta branching off the perceptible bulbus arteriosus is paired anteriorly with continuations extending to the head as the internal carotid arteries. The carotid artery splits to form the optic plexus, which connects with the left and right ducts of Cuvier. The left and right dorsal aorta roots run caudally until they join to form the dorsal aorta. The dorsal aorta is unpaired through the trunk region and continues into the tail as the vitello-caudal artery (Fig. 1). A countercurrent of the blood stream from the heart into the aorta is still observed. Otoliths appear as two conglomerates of small granules lying against the inner surface of each well-expanded otocyst. The embryonic body encircles nearly 7/12 of the yolk sphere. The dogleg-shaped somites form a herringbone pattern between the 3rd and 10th somites. Kupffer's vesicles have disappeared completely. The bulge of the liver anlage appears at the 1st- 3rd somites just posterior to the future position of the left pectoral fin in the 19 somite stage. |
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Stage 26 (2 days 6 hrs)
22 somite stage (Development of guanophores and vacuolization of the
notochord): Blood containing globular blood cells is pumped out beyond the anterior region of the hind-brain. The caudal vein is observed in the region from the 1st to the 14th somites. The tip of the tail is completely free of the yolk sphere. The anlage of the liver, which first appeared at the 19 somite stage, is not yet well- developed. Red-brown colored guanophores, which first appeared at the ventral side of the mid-brain in the 20 somite embryo, are more clearly seen. Vacuolization of the notochord starts at its anterior region. Differentiating choroidea of the eyes begin to darken due to melanization. |
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Stage 27 (2 days 10 hrs)
24 somite stage (Appearance of pectoral fin bud): The tip of the tail where the notochord attaches is pointed. The embryonic body with the tail free from the yolk sphere encircles 5/8 of the yolk sphere. The rudiments of the pectoral fins protrude from the body trunk behind the base of the Cuvierian ducts. The eminences of liver rudiment are clearly seen on the left side beneath the 1st-3rd somites, and the gut tube can be seen beneath the 1st-13th somites curving to the left-ventral in the region between the 1st and 3rd somites. The arterial end of the heart has shifted to the right. The tail is free of the yolk sphere, and its vein is observed from the 10th to the 16th somites. |
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Stage 28 (2 days 16 hrs)
30 somite stage (Onset of retinal pigmentation): The embryonic body with a caudal vein between the 10th and 22th somites encircles about 2/3 of the yolk sphere. Pigmentation advances around the retina, and several melanophores occupy the dorsal wall of the viscera beneath the 1st to the 5th somites. The bulge of the liver becomes definitive in the left side of the 3rd to 4th somites. The anlage of the pancreas appears as a ventral eminence on the right side beneath and slightly anterior to the 3rd somite. Three sinuous portions of the vitelline veins consisting of the left and right ducts of Cuvier and 4 sinuous portions of the vitello-caudal vein meander on the yolk sphere. The blood cells (8.7 m in diameter) flatten slightly. The posterior of the two otoliths in each otocyst is slightly larger than the anterior. |
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Stage 29 (3 days 2 hrs)
34 somite stage (Internal ear formation): The embryonic body encircles about 3/4 of the yolk sphere. The anlage of the pineal gland is recognized as a disc-shaped, round structure at the dorsal surface of the 3rd ventricle. In the heart, the sinus venosus, atrium, ventricle and bulbus arteriosus are differentiated. There is a large, transparent membranous protrusion inside the outer wall and another inside the inner wall of the otic vesicle (internal ear formation). In the region posterior to the eye (where gills will form), a group of large hatching enzyme cells has differentiated from endodermal cells [7,28]. A ventral eminence is prominent behind the otic vesicles, and an- other eminence (the presumptive swim bladder) is discernible at the ventral side of the 3rd somite. The pectoral fin is apparent, and membranous fins are also seen in the tail, which has 19 somites beyond the gut tube. Guanophores begin to disperse on the dorsal surface of the body trunk. The anterior tip of the notochord is located where the branches of the dorsal aorta join. |
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Stage30 (3 days10 hrs)
35somite stage (Blood vessel development): The embryonic body covers nearly 5/6 of the yolk sphere. Branches of arteries supplying blood to the anterior musculature in the body trunk, the gills and the brain are observed. The hepatic vein of the liver drains into the left duct of Cuvier. Two transparent and membranous protrusions (will become semicircular canals) are seen inside the outer wall of each otocyst. |
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Stage 31 (3 days 23 hrs)
Gill blood vessel formation stage: Large cells of the hatching enzyme gland migrate up to the region under the central part of the eye, which now has a cornea. Blood circulation is seen in the gill arches. Pigmentation of the melanophores in the choroidea proceeds as a dark network in the eye. The pronephric kidney appears as a bright structure adjacent to the 1st somite. The transparent, colorless gallbladder first appears at the posterior region of the liver. Four transparent, membranous protrusions (the structures of the internal ear) are recognized in the otic vesicles. The anterior region of the oral cavity is formed. The tail has 21 somites and a membranous fin which is wider on the ventral side. |
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Stage 32 (4 days 5 hrs)
Somite completion stage (Formation of pronephros and air bladder): The swim (air)bladder is recognized as a transparent vacuolar body beneath the 3rd somite, and the distinct kidneys (pronephroi) lie in contact with the bilateral sides of the notochord in the 1st somite. In the otic vesicles, a tubular (semicircular canals) membranous labyrinth can be seen. In the posterior end of the tail, the somites are indistinct. The number of whole somites counted is 30. Two hours later, the blood stream is twisted in the posterior end of the tail. |
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Stage 33 (4 days 10 hrs)
Stage at which notochord vacuolization is completed: The tail tip has not yet reached within inter ocular distance of the eye. Because the eyeball (choroidea) is very dark, the lenses can be seen only with strong trans illumination. The notochord is completely vacuolized to the end of the tail. The pineal gland is distinct at the dorsal surface of the vascularized forebrain. The tips of the membranous margins of the pectoral fins reach the 4th somite. |
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Stage 34 (5 days 1 hr)
Pectoral fin blood circulation stage: The tip of the caudal fin has several melanophores and reaches the eye. Blood circulation is apparent in the pectoral fins, which frequently move (flutter). The choroidea of the eye becomes so black that it is almost impervious to light. |
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Stage 35 (5 days 12 hrs)
Stage at which visceral blood vessels form: The tip of the caudal fin reaches beyond the posterior border of the eye. Guanophores are distributed from the head to the vicinity of the tail tip. Blood circulates through the internal tissues of the head and the viscera to Cuvier's ducts. The tubular structure of the spinal cord is revealed. The opening of the oral cavity to the mouth and the presence of several pit organs on the frontal bone can be recognized. |
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Stage 36 (6 days) Heart
development stage: The tip of the tail reaches the otic vesicle. Guanophores and melanophores are distributed on the dorsal wall (peritoneum) of the peritoneal cavity beneath the 1st to the 4th somites. The extent of flexion of the atrio-ventricular region of the heart increases so that in a lateral view, the atrium and the ventricle lie adjacent to each other. |
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Stage 37 (7 days)
Pericardial cavity formation stage: The tip of the tail lies just past the otic vesicle (total length ca. 3.1 mm). The pharyngeal teeth are visible in the posterior region of the gills between the otic vesicles. The pericardial cavity (cardiac sac) surrounding the heart is easily observed. The slowly moving gut tube has a narrow lumen. |
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Stage 38 (8 days) Spleen
development stage (Differentiation of caudal fin begins): The tip of the tail extends beyond the otic vesicle (total length ca. 3.6 mm), and the rudiments of the caudal fin rays can be seen within the round membranous fin. The spleen is recognized as a small reddish globule dorsal to the gut tube beneath the left region of the 3rd-4th somites. The gut tube curves to the left between the 1st and the 4th somites, appearing to detour around the swim bladder (3rd-4th somites). A large well- developed gallbladder can be identified by its yellow or yellowish green tint. Both eyes move actively at the same time accompanying movement of the mouth and the pectoral fins. |
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Stage 39 (9 days)
Hatching stage: The tip of the tail extends to the base of the pectoral fin or to the posterior region of the swim bladder (total length 3.8- 4.2 mm). After hatching, the internal wall of the swim bladder expands remarkably. Cells of hatching gland have already disappeared. The embryos dissolve the inner layers of the chorion [27], tear the single outer layer by moving the body and escape from the chorion tail-first. |
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Stage 40 1st fry stage: This period extends from hatching until fin rays appear in the caudal and pectoral fins (total length about 4.5 mm). |
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Stage 41 2nd fry stage: This period begins after the appearance of jointed rays in the pectoral fins and continues until fin rays appear in the dorsal and anal fins (total length about 5.5 mm). |
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Stage 42 3rd fry stage: This stage follows the appearance of ventral fin rays and scales in addition and extends to the formation of the jointed fin rays in the dorsal and anal fins (total length about 7 mm). |
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Stage 43 1st young fish
stage: This is the period before the secondary sexual characteristics are manifested (total length about 22 mm). |
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Stage 44
2nd young fish
stage: At this stage the mature fish ejaculate sperm and spawn eggs (total length about 23 mm ). |