BUOYANCY ROLE OF UREA AND TMAO IN AN ELASMOBRANCH FISH, THE PORT-JACKSON SHARK, HETERODONTUS-PORTUSJACKSONI

被引：23

作者：

WITHERS, PC ^{[1
]}

MORRISON, G ^{[1
]}

GUPPY, M ^{[1
]}

机构：

[1] UNIV WESTERN AUSTRALIA,DEPT BIOCHEM,NEDLANDS,WA 6009,AUSTRALIA

来源：

PHYSIOLOGICAL ZOOLOGY | 1994年 / 67卷 / 03期

关键词：

D O I：

10.1086/physzool.67.3.30163765

中图分类号：

Q4 [生理学];

学科分类号：

071003 ;

摘要：

The Port Jackson shark is denser than seawater, like most other elasmobranchs. Its small liver of relatively low lipid content, does not contribute significantly to buoyancy. Like other elasmobranchs, Port Jackson sharks accumulate high levels of urea and methylamines (trimethylamine oxide [TMAO] and betaine) in their body fluids as important balancing osmolytes. We calculate from the solute composition of plasma and muscle fluid, using molecular weights and partial molal volumes of solutes, that urea and TMAO in the body fluids of the Port Jackson shark contribute significant positive buoyancy. The high, positive partial molal volumes of urea, TMAO, and betaine provide this positive buoyancy despite their high molecular weights. The accounted solutes in plasma provide a net lift of about 2.4 g L(-1) relative to seawater; positive lift is contributed by Cl- (3.6 g L(-1) urea (2.8 g L(-1)) and TMAO (1.7 g L(-1)), and negative lift is contributed by Na+ (-1.8 g L(-1)) and protein (-3.5 g L(-1)) For muscle fluid, the accounted solutes contribute 6.4 g L(-1) lift; positive lift is contributed by Cl- (1.2 g L(-1)), urea (2.9 g L(-1)), TMAO (3.4 g L(-1)), and betaine (0.3 g L(-1)). We conclude that urea and methylamines are not only osmotic-balancing and counteracting solutes in elasmobranchs, but contribute significantly to positive buoyancy.

引用

页码：693 / 705

页数：13

共 34 条

[1]

[Anonymous], 1992, COMP ANIMAL PHYSL

[2] SEPARATION AND ESTIMATION OF FREE AMINO-ACIDS, TRIMETHYLAMINE OXIDE, AND BETAINE IN TISSUES AND BODY-FLUIDS OF MARINE INVERTEBRATES [J].

BARNES, H ;

BLACKSTOCK, J .

JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY, 1974, 16 (01) :29-45

[3]

BLIGH EG, 1959, CAN J BIOCHEM PHYS, V37, P911

[4] DENSITY OF ELASMOBRANCHS [J].

BONE, Q ;

ROBERTS, BL .

JOURNAL OF THE MARINE BIOLOGICAL ASSOCIATION OF THE UNITED KINGDOM, 1969, 49 (04) :913-&

[5] USE OF AMMONIUM FOR BUOYANCY IN SQUIDS [J].

CLARKE, MR ;

DENTON, EJ ;

GILPINBROWN, JB .

JOURNAL OF THE MARINE BIOLOGICAL ASSOCIATION OF THE UNITED KINGDOM, 1979, 59 (02) :259-276

[6] ON BUOYANCY OF SOME DEEP-SEA SHARKS [J].

CORNER, EDS ;

DENTON, EJ ;

FORSTER, GR .

PROCEEDINGS OF THE ROYAL SOCIETY SERIES B-BIOLOGICAL SCIENCES, 1969, 171 (1025) :415-+

[7] EXAMPLES OF USE OF ACTIVE TRANSPORT OF SALTS AND WATER TO GIVE BUOYANCY IN SEA [J].

DENTON, EJ .

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES B-BIOLOGICAL SCIENCES, 1971, 262 (842) :277-&

[8] SOME RECENTLY DISCOVERED BUOYANCY MECHANISMS IN MARINE ANIMALS [J].

DENTON, EJ .

PROCEEDINGS OF THE ROYAL SOCIETY OF LONDON SERIES A-MATHEMATICAL AND PHYSICAL SCIENCES, 1962, 265 (1322) :366-&

[9] A BUOYANCY MECHANISM FOUND IN CRANCHID SQUID [J].

DENTON, EJ ;

GILPINBR.JB ;

SHAW, TI .

PROCEEDINGS OF THE ROYAL SOCIETY SERIES B-BIOLOGICAL SCIENCES, 1969, 174 (1036) :271-+

[10] A RAPID AND PRECISE METHOD FOR THE DETERMINATION OF UREA [J].

FAWCETT, JK ;

SCOTT, JE .

JOURNAL OF CLINICAL PATHOLOGY, 1960, 13 (02) :156-159

← 1 2 3 4 →