| scholarly article | Q13442814 |
| review article | Q7318358 |
| P2093 | author name string | K. S. Thomson | |
| P2860 | cites work | Arkiv för Zoologi | Q10418043 |
| The Journal of Experimental Biology | Q1355917 | ||
| Zoologischer Anzeiger | Q3666497 | ||
| Proceedings of the Royal Society of Edinburgh | Q6087108 | ||
| Gadow's arcualia and the development of tetrapod vertebrae | Q78674989 | ||
| A functional consideration of cranial kinesis in lizards | Q79545929 | ||
| Lungfish Burrows from the Michigan Coal Basin | Q80935591 | ||
| Ornithine-Urea Cycle Enzymes in the African Lungfish, Protopterus aethiopicus | Q81005619 | ||
| Intracranial mobility in the coelacanth | Q81201334 | ||
| THE HOMOLOGIES OF THE LABYRINTHODONT CENTRUM | Q88179451 | ||
| An Estivating Bowfin | Q95612341 | ||
| Gyroptychius (Rhipidistia, Osteolepidae) from the Middle Devonian of Scotland | Q99844803 | ||
| VI. Croonian lecture.— The evolution and origin of the amphibia | Q103836074 | ||
| Growth and form in fossil rhipidistian fishes (Crossopterygii) | Q103953723 | ||
| Formation of Red Beds in Modern and Ancient Deserts | Q106705059 | ||
| Systematic Zoology | Q27713573 | ||
| The nostrils of choanate fishes and early tetrapods | Q29543396 | ||
| Macromolecular evolution of connective tissue | Q39883537 | ||
| Uricolytic enzymes in liver of the Dipnoan Protopterus aethiopicus | Q46248427 | ||
| Urea synthesis in the lungfish: relative importance of purine and ornithine cycle pathways | Q46545604 | ||
| Lungfish Neoceratodus forsteri : Activities of Ornithine-Urea Cycle and Enzymes | Q46899745 | ||
| Origin of the Tetrapod Limb | Q47819419 | ||
| Evolution of the sense of hearing in vertebrates. | Q50671427 | ||
| Anti-metabolic extract from the brain of Protopterus aethiopicus. | Q51190729 | ||
| Studies on the Queensland Lungfish, Neoceratodus forsteri (Krefft) | Q56385451 | ||
| Preadaptation and Multiple Evolutionary Pathways | Q56483511 | ||
| Respiration of Air by the Primitive Fish Polypterus senegalus | Q59040179 | ||
| Herpetichthyes, Amphibioidei, Choanichthyes or Sarcopterygii? | Q59052706 | ||
| Pelvic Fins of the Lepidosiren | Q60107329 | ||
| Pelvic Filaments of Lepidosiren | Q60140752 | ||
| Pelvic Filaments of Lepidosiren | Q60140755 | ||
| Influence of Silurian-Devonian climates on the rise of air-breathing vertebrates | Q60706823 | ||
| On the structure of the lower jaw in dipnoans: with a description of an early Devonian dipnoan from Canada, Melanognathus canadenis gen. et sp. nov. | Q65937971 | ||
| Serum osmolality in the coelacanth, Latimeria chalumnae: urea retention and ion regulation | Q72198008 | ||
| Urea and its formation in coelacanth liver | Q72198012 | ||
| Functional Anatomy of the Hearts of Lungfishes and Amphibians | Q72264272 | ||
| Lung and gill ventilation of the african lung fish | Q72377794 | ||
| Ornithine Carbamoyltransferase in Liver of the Dipnoan Protopterus aethiopicus | Q72549770 | ||
| The Role of Adaptive Mechanisms in the Origin of Higher Levels of Organization | Q72612691 | ||
| Lipids of the Living Coelacanth, Latimeria chalumnae | Q72851225 | ||
| The evolution of the tetrapod middle ear in the rhipidistian-amphibian transition | Q72877980 | ||
| Pathways of urea synthesis in the elasmobranch, Squalus acanthias | Q72913462 | ||
| Respiratory properties of blood and pattern of gas exchange in the lungfish Neoceratodus forsteri (Krefft) | Q72926048 | ||
| Narial breathing in fishes and the evolution of internal nares | Q73035221 | ||
| THE METABOLISM OF THE AESTIVATING AFRICAN LUNGFISH | Q76854830 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 91-154 | |
| P577 | publication date | 1969-02-01 | |
| P1433 | published in | Biological Reviews | Q2500948 |
| P1476 | title | The biology of the lobe-finned fishes | |
| P478 | volume | 44 |
| Q57276585 | A redescription of the Middle Devonian dipnoanPentlandia macropteraTraquair, 1889, and an assessment of the Phaneropleuridae |
| Q28749375 | Air-breathing adaptation in a marine Devonian lungfish |
| Q28775718 | Biological versatility and earth history |
| Q28776650 | Comparative evolution: latent potentials for anagenetic advance |
| Q44305446 | DNA content, ribosomal gene multiplicity, and cell size in fish |
| Q54055792 | Did lungs and the intracardiac shunt evolve to oxygenate the heart in vertebrates? |
| Q63071040 | Evolution of Air Breathing and Lung Distribution among Fossil Fishes |
| Q67285970 | Histochemical studies of the adrenocortical homologue in the kidney of the Australian lungfish, Neoceratodus forsteri |
| Q70623580 | Hypocalcemic activities in the ultimobranchial bodies of lungfishes, Neoceratodus forsteri and Lepidosiren paradoxa and teleosts, Fundulus heteroclitus and Gadus morhua |
| Q59065340 | Latimeria chalumnae: Reproduction and Conservation |
| Q56081868 | Locomotion of the coelacanth Latimeria chalumnae in its natural environment |
| Q71792414 | Mosaic evolution: an integrating principle for the modern synthesis |
| Q59441985 | New insights into the origins and radiation of the mid-Palaeozoic Gondwanan stem tetrapods |
| Q35533534 | Redescription of the hyoid apparatus and associated musculature in the extant coelacanth Latimeria chalumnae: functional implications for feeding. |
| Q39259247 | Structure and histogenesis of tooth plates in Sagenodus inaequalis Owen considered in relation to the phylogeny of post-Devonian dipnoans |
| Q59647830 | The dipnoan buccal pump reconstructed in 3D and implications for air breathing in Devonian lungfishes |
| Q48477041 | The pituitary gland of the coelacanth Latimeria chalumnae Smith |
| Q39030829 | VERTEBRATE AIR BREATHING AROSE IN FRESH WATERS AND NOT IN THE OCEANS. |
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