Polypterus

Despite the ancient origins of the Polypteriformes, the earliest fossils that can be confidently assigned as being of the Polypterus lineage are from the Middle Eocene (Lutetian) of Libya. In addition, studies exclusively using phylogenetic inferences have found that Polypterus may have only diverged from Erpetoichthys during the Neogene. Species The following species are known: • Polypterus ansorgii Boulenger, 1910 (Guinean bichir) • Polypterus bichir Lacépède, 1803 (Nile bichir) • P. b. lapradei Steindachner, 1869 • Polypterus congicus Boulenger, 1898 (Congo bichir) • Polypterus delhezi Boulenger, 1899 (Barred bichir) • Polypterus endlicherii Heckel, 1847 (Saddled bichir) • Polypterus mokelembembe Schliewen & Schäfer, 2006 (Mokèlé-mbèmbé bichir) • Polypterus ornatipinnis Boulenger, 1902 (Ornate bichir) • Polypterus palmas Ayres, 1850 (Shortfin bichir) • Polypterus polli J. P. Gosse, 1988 (Poll's bichir) • Polypterus retropinnis Vaillant, 1899 (West African bichir) • Polypterus senegalus Cuvier, 1829 (Gray bichir) • Polypterus teugelsi Britz, 2004 (Cross River bichir) • Polypterus weeksii Boulenger, 1898 (Mottled bichir) ==Discovery==

Polypterus was discovered, described, and named in 1802 by Étienne Geoffroy Saint-Hilaire. Naturalists were initially unsure whether to regard it as a fish or an amphibian, and if it were to be classified as a fish, it was unclear whether it ought to be regarded as an Actinopterygian, Chondrichthyan, or Sarcopterygian. Around the time following its initial discovery, some entertained the idea of Polypterus as a living fossil representing the "missing link" between fishes and tetrapods, illustrating a transitional form at the midpoint between finned and limbed vertebrates. Drawing on this work, in 1907, E. S. Goodrich reported to the British Association the then current state of evidence 'against' Polypterus being a crossopterygian, placing it within the palaeoniscids, the most primitive actinopterygians. Much later, in 1946, Romer confirmed this view, but he also wrote, "The weight of Huxley's [1861] opinion is a heavy one, and even today many a text continues to cite Polypterus as a crossopterygian and it is so described in many a classroom, although students of fish evolution have realized the falsity of this position for many years. ... Polypterus ... is not a crossopterygian, but an actinopterygian, and hence can tell us nothing about crossopterygian anatomy and embryology." Hall (2001), relying on Patterson (1982) and Noack et al. (1996), writes, "Phylogenetic analyses using both morphological and molecular data affirm Polypterus as a living stem actinopterygian." Research is ongoing. Most of the conclusions drawn by Kerr from Budgett's specimens have been confirmed, but many questions remain. In 2014 researchers at McGill University (published in the journal Nature) turned to Polypterus to help show what might have happened when fish first attempted to walk out of the water. The team of researchers raised juvenile Polypterus on land for nearly a year, with the aim of revealing how these 'terrestrialized' fish looked and moved differently. == Recoil aspiration ==

In shallow water, Polypterus inhales primarily through its spiracle (blowhole). Exhalation is powered by muscles in the torso. During exhalation, the bony scales in the upper chest become indented. When the muscles are relaxed, the bony scales spring back into position, generating negative pressure within the torso, resulting in a rapid intake of air through the spiracle. The air is nearly sufficient to fill the lungs. This is followed by one cycle of buccal (mouth) pumping, which "tops off" the lungs, with the surplus air from the buccal pumping process discharged through the pharynx. According to one hypothesis, Devonian tetrapods may have inhaled in this way. ==References==