Biology Reference
In-Depth Information
Tanaka, Y., Satoh, K., Iwahashi, M., & Yamada, H. (2006). Growth-dependent recruitment
of Pacific bluefin tuna
Thunnus orientalis
in the northwestern Pacific Ocean.
Marine Ecol-
ogy Progress Series
,
319
, 225-235.
Thorson, G. (1950). Reproductive and larval ecology of marine bottom invertebrates.
Biological Reviews
,
25
, 1-45.
Tipsmark, C. K., Sørensen, K. J., & Madsen, S. (2010). Aquaporin expression dynamics in
osmoregulatory tissues of Atlantic salmon during smoltification and seawater acclima-
tion.
The Journal of Experimental Biology
,
213
, 368-379.
Trijundo, D. D., Yoseda, K., Hirokawa, J., Tagawa, M., & Tanaka, M. (2002). Effects of
thyroxine and thiourea on the metamorphosis of coral trout grouper
Plectropomus
leopardus
.
Fisheries Science
,
68
, 282-289.
Tsukamoto, K., Yamada, Y., Okamura, A., Kaneko, T., Tanaka, H., Miller, M. J., et al.
(2009). Positive buoyancy in eel leptocephali: An adaptation for life in the ocean surface
layer.
Marine Biology
,
156
, 835-846.
Virtanen, E. (1987). Correlations between energy metabolism, osmotic balance and external
smolt indices in smolting young salmon,
Salmo salar L
.
Annales Zoologici Fennici
,
24
,
71-78.
Virtanen, E., & Soivio, A. (1985). The patterns of T3, T4, cortisol and Na
-ATPase
during smoltification of hatchery-reared
Salmo salar
and comparison with wild smolts.
Aquaculture
,
45
, 97-109.
Volff, J.-N. (2005). Genome evolution and biodiversity in teleost fish.
Heredity
,
94
, 280-294.
Wang, C., & Tzeng, W. (2000). The timing of metamorphosis and growth rates of American
and European eel leptocephali: A mechanism of larval segregative migration.
Fisheries
Research
,
46
, 191-205.
Watanabe, M., Iwashita, M., Ishii, M., Kurachi, Y., Kawakami, A., Kondo, S., et al. (2006).
Spot pattern of
leopard
Danio is caused by mutation in the zebrafish
connexin41. 8
gene.
EMBO Reports
,
7
, 893-897.
Watanabe, K., Washio, Y., Fujinami, Y., Aritaki, M., Uji, S., & Suzuki, T. (2008). Adult-
type pigment cells, which color the ocular sides of flounders at metamorphosis, localize as
precursor cells at the proximal parts of the dorsal and anal fins in early larvae.
Development,
Growth & Differentiation
,
50
, 731-741.
Webb, J. (1999). Larvae in fish development and evolution. In B. K. Hall & M. H. Wake
(Eds.),
The origin and evolution of larval forms
. San Diego: Academic Press.
Webb, J., & Shirey, J. (2003). Postembryonic development of the cranial lateral line canals
and neuromasts in zebrafish.
Developmental Dynamics
,
228
, 370-385.
Winans, G. A., & Nishioka, R. S. (1987). A multivariate description of change in body shape
of coho salmon (
Oncorhynchus kisutch
) during smoltification.
Aquaculture
,
66
, 235-245.
Wittenrich, M. L., Baldwin, C. C., & Turingen, R. G. (2010). Larval development of
laboratory-reared Green Mandarinfish,
Synchiropus splendidus
(Teleostei: Callionymidae).
aqua, International Journal of Ichthyology, 16,
7-18.
Woo, N., Bern, H., & Nishioka, R. (1978). Changes in body composition associated with
smoltification and premature transfer to seawater in coho salmon (
Oncorhynchus kisutch
)
and king salmon (
O. tschawytscha
).
Journal of Fish Biology
,
13
, 421-428.
Yamada, T., Okauchi, M., & Araki, K. (2010). Origin of adult-type pigment cells forming
the asymmetric pigment pattern, in Japanese flounder (
Paralichthys olivaceus
).
Developmen-
tal Dynamics
,
239
, 3147-3162.
Yamano, K., & Miwa, S. (1998). Differential gene expression of thyroid hormone receptor
a
and
b
in fish development.
General and Comparative Endocrinology
,
109
, 75-85.
Yamano, K., Miwa, S., Obinata, T., & Inui, Y. (1991). Thyroid hormone regulates devel-
opmental changes in muscle during flounder metamorphosis.
General and Comparative
Endocrinology
,
81
, 464-472.
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