Deutsch
    Dept. of Behavioral Physiology & Sociobiology (Zoology II)

    before 1970

    Arber A (1920) Water Plants: A Study of Aquatic Angiosperms,  Cambridge, UK: Cambridge University Press.

    Batalin A (1877) Mechanik der Bewegung der Insektfressenden Pflanzen. Flora 60: 145-154

    Brown WH (1916) The mechanism of movement and the duration of the effect of stimulation in the leaves of Dionaea. Am J Bot 3: 68-90

    Burdon-Sanderson J (1873) Note on the electrical phenomena which accompany irritation of the leaf of Dionaea muscipula (Venus flytrap). Proc R Soc London 21: 495-496

    Christy M (1923) The common teazel as a carnivorous plant. J Bot 61: 33-45

    Darwin C (1875) Insectivorous Plants,  London, UK: Murray.

    Di Palma JR, Mohl R, Best W, Jr. (1961) Action potential and contraction of Dionaea muscipula (Venus Flytrap). Science 133: 878-879

    Diannelidis T, Umrath K (1953) Aktionsströme der Blasen von Utricularia vulgaris. Protoplasma 42: 58-62

    DiPalma JR, McMichael R, DiPalma M (1966) Touch receptor of venous flytrap, Dionaea muscipula. Science 152: 539-540

    Fabian-Galan G, Salageanu N (1968) Consideration on the nutrition of certain carnivorous plants (Drosera capensis and Aldrovanda vesiculosa). Rev Roumaine Biol, S Bot 13: 275-280

    Goebel K (1893) Zur Biologie von Genlisea. Flora 77: 208-212

    Goebel K (1908) Brutknospen bei Drosera pygmaea und einigen Monokotylen. Flora 98: 324-335

    Hepburn JS, Jones FM, St. John E (1920) The absorption of nutrients and allied phenomena in the pitchers of the Sarraceniaceae. J Franklin Inst 189: 147-184

    Hepburn JS, St. John EQ (1927) A bacteriological study of the pitcher liquor of the Sarraceniaceae. Transactions Wagner Free Inst Sci Philadelphia 11: 75–83

    Hepburn JS, St. John EQ, Jones FM (1927) The biochemistry of the American pitcher plants. Transactions Wagner Free Inst Sci Philadelphia 11: 1–74

    Jacobson SL (1965) Receptor response in Venus's fly-trap. The Journal of General Physiology 49: 117-129

    Jones FM (1923) The most wonderful plants in the world. Nat Hist 23: 589-596

    Lloyd FE (1929) The mechanism of the water tight door of the Utricularia trap. Plant Physiol 4: 87-102

    Lloyd FE (1942) The Carnivorous Plants,  New York, USA: The Ronald Press Company.

    Nikitin PA (1927) Integral occurence of Aldrovanda vesiculosa L. New Phytol 26: 58-59

    Plummer GL, Jackson TH (1963) Bacterial activities within the sarcophagus of the insectivorous plant Sarracenia flava. Am Midl Nat 69: 462-469

    Scala J, Iott K, Schwab DW, Semersky FE (1969) Digestive Secretion of Dionaea muscipula (Venus's Flytrap). Plant Physiol 44: 367-371

    Schnepf E (1965) Die Morphologie der Sekretion in pflanzlichen Drüsen. Berichte der Deutschen Botanischen Gesellschaft 78: 478-483

    Schwab DW, Simmons E, Scala J (1969) Fine structure changes during function of the digestive glands of Venus’s flytrap. Am J Bot 56: 88-100

    Sibaoka T (1966) Action potentials in plant organs. Symposia Soc Exp Biol 20: 49-74

    Steyermark JA (1952) New Brazilian species of Utricularia. Bull Torrey Bot Club 79: 310-311

    Stuhlman O, Jr., Darden EB (1950) The action potentials obtained from Venus's-flytrap. Science 111: 491-492

    Treat M (1875) Plants that eat animals. Am Nat 9: 658-662

    Treat M (1876) Is the valve of Utricularia sensitive? Harpers New Monthly Magazine 52: 382-387