Abstract
This is a comprehensive review of literature pertaining to the aquatic fern Azolla and its nitrogen-fixing algal symbiont, Anabaena azollae. The preceding decade has witnessed an explosive growth in research on Azolla, and hopefully this paper will facilitate those efforts.
The paper is broken into three major categories: botany, physiology and biochemistry, and agriculture. The botany section includes a world distribution map and reference tables for the 6 Azolla species, and includes the first review of literature on Anabaena azollae.
The physiology and biochemistry section covers the range of topics from environmental factors to life processes and nitrogen fixation. Tables on the effect of growth regulators and on the rate of nitrogen fixation measured by acetylene reduction are presented.
The agriculture section draws extensively from literature published in the People’s Republic of China and in the Democratic Republic of Vietnam. The major focus of this section is on the history and management practices for Azolla cultivation as a green manure for rice. The effect of weed suppression, use as a fish food and animal fodder, and the insects and diseases of Azolla are also discussed.
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Literature Cited
Ahmad, Ghias-ud-din. 1941a. Effect of light intensity and temperature on the growth ofAzolla filiailoides. J. Indian Bot. Soc. 20: 213–226.
—. 1941b. The growthof Azolla filiailoides in mineral solution without addition of auximone. Proc. Indian Sci. Congr. Assoc. 28: 285–292.
—. 1943. Interrelationship between the compensation point, temperature coefficient and growth ofAzolla filiailoides. J. Indian Bot. Soc. 22-23: 101–104.
Anonymous. 1918. Le Prince Bonaparte: Notes Pteridologiques 7: 130.
—. 1960. Weed control in rice fields. Rice Rev. (British Guiana) 2: 23.
—. 1971a. Use grass carp for weed control. Indian Farming 21: 45–47.
—. 1971b. Utilization of GreenAzolla in flooded rice production, pp. 114–115.In How to Grow Flooded Rice. People’s Publisher, Shanghai.
—. 1971c. GreenAzolla. pp. 109–134.In Cultivation of Water Crops. Su-bei Agricultural College. People’s Publisher, Shanghai.
—. 1974a. GreenAzolla. pp. 80–98.In Knowledge of Fertilizer. People’s Publisher, Shanghai.
—. 1974b. Whole-river-redAzolla imbricata (Roxb.) Nakai. p. 268.In Weeds of Agricultural Fields. Botanical Studies Section, College of Agriculture, Hunan. Agricultural Publisher, Peking.
—. 1974c. What are the advantages of cultivating Green Azolla in the rice field, pp. 70–73.In Questions and Answers Concerning Techniques of Flooded Rice Production. People’s Publisher, Shanghai.
—. 1975a. Questions and Answers Concerning Azolla Cultivation. Dept. Agric, Canton Province. People’s Publisher, Canton.
-. 1975b. Cultivation, Propagation and Utilization of Azolla. Chekiang Agriculture Academy, Institute of Soils and Fertilizers.
—. 1975c. Red Azolla. Soil and Fertilizer Studies, Canton Agricultural Academy. People’s Publisher, Canton.
—. 1976a. Prediction of major diseases and insects of GreenAzolla. pp. 255–268.In General Prediction of Diseases and Insects of Agricultural Crops. People’s Publisher, Shanghai.
—. 1976b. Manufacturing Fertilizer in the Field All Seasons. Fertilizer Series. People’s Publisher, Kiangsu.
—. 1976c. Experience of Cultivating Red Azolla. Agricultural Publisher, Peking.
-Ahmad, Ghias-ud-din. 1977. Whole-river-red, p. 268.In Recognition and Chemical Control of Weeds in Agricultural Fields. Chemical Weed Control Section, Peking Botanical Studies, Chinese Academy of Science. Science Publishers.
Ashton, P. J. 1974. The effects of some environmental factors on the growth ofAzolla filiculoides Lam. pp. 123–138.In The Orange River Progress Report (Inst. for Environmental Sciences), University of the O.F.S. Bloemfontein, South Africa.
—, and R. D. Walmsley. 1976. The aquatic fernAzolla and itsAnabaena symbiont. Endeavour 35: 39–43.
Atkinson, L. R. 1938. Cytology, p. 199.In F. Verdoorn, ed. Manual of Pteridology. The Hague.
Avena, G. C., C. Blasi, and L. Rubeca. 1974.Azolla caroliniana Willd., esotica naturalizzata, nuova nella flora del lazio. Ann. Bot. (Genoa) 33: 195–208.
Baillon, M. H. 1876. Dictionnaire de Botanique. Paris. Vol. 1. p. 334.
Baker, J. G. 1887. Handbook of the Fern-Allies. 2.Azolla. pp. 137–138. West, Newton, London.
Becking, J. H. 1972. Va. Symbiosen: stickstoff-bindung. Fortschr. Bot. (Berlin) 34: 459–467.
—. 1976a. Contribution of plant-algae associations, pp. 556–580.In W. E. Newton and C. J. Nyman, eds. Proceedings of the First International Symposium on Nitrogen Fixation. Vol. 2, Washington State Univ. Press, Pullman.
-Becking, J. H.. 1976b. Nitrogen fixation in some natural ecosystems in Indonesia, pp. 539–557.In P. S. Nutman, ed. Symbiotic Nitrogen Fixation in Plants. Cambridge Univ. Press.
Benedict, R. C. 1923. The mosquito fern. Amer. Fern J. 13: 48–52.
—. 1924. Spring growth ofAzolla. Amer. Fern J. 14: 23–24.
Bergad, R. D. 1972. An ultrastructural comparison of walls of living and fossil salviniaceous and marsileaceous megaspores. Amer. J. Bot. 59: 659.
Berggren, M. S. 1882. Le prothalle et I’embryon de I’Azolla. Ann. Sci. Nat. Bot. Series 6. 13: 239–249.
Bierhorst, D. W. 1971. The Morphology of Vascular Plants. Salviniales. pp. 341–349. Macmillan, New York.
Birkenbeil, H. 1974.Azolla filiculoides Lamk. im Nordheimer Altrhein. Hess. Florist. Briefe 23: 14–16.
Blackburn, R. D., and L. W. Weldon. 1965. The sensitivity of duckweed (Lemnaceae) andAzolla to diquat and paraquat. Weeds 13: 147–149.
de Bolos, O., and F. Masclans. 1955. La vegetacion de los arrozales en la region mediterranea. Collect. Bot. 4: 415–434.
Bonetto, A. A. 1970. Principles rasgos limnologicos del ne Argentino. Bol. Soc. Argent. Bot. Il: 185–209.
Bonnet, A. L. M. 1957. Contribution I’etude des hydropteridees III. Recherches surAzolla filiculoides. Rev. Cytol. Biol. Veg. 18: 1–85.
Bortels, H. 1940. Uber die bedeutung des molybdans fur sticksoffbindende Nostocaceen. Arch. Mikrobiol. 11: 155–186.
Bottomley, W. B. 1920. The effect of organic matter on the growth of various water plants in culture solution. Ann. Bot. (London) 34: 353–365.
Braemer, P. 1927a. La culture desAzolla au Tonkin. Rev. Int. Bot. Appl. Agric. Trop. 7: 815–819.
—. 1927b. Les engrais verts dans la riziculture Tonkinoise. Riz & Rizi. 2: 335–341.
Brill, W. nJ. 1977. Biological nitrogen fixation. Sci. Amer. 236: 68–81.
Brotonegoro, S., and S. Abdulkadir. 1976. Growth and nitrogen-fixing activity ofAzolla pinnata. Ann. Bogor. 6: 69–123.
Buckingham, K., S. Ela, J. Morris, and C. Goldman. 1977. Protein quality evaluation and proximate analysis ofAzolla filiculoides. FASEB Fed. Proc. Abstr., 61st Annual Meeting, Chicago. 36: 1179.
Bui Huy Dap. 1966. Planting and cultivation of spring rice. Khoa Hoc Ky Thuat Nong Nghiop (Agricultural Science and Technology) 59: 645–653.
—. 1967. Some characteristic features of rice growing in Vietnam. Vietnamese Studies 13, Agricultural Problems. Rice. 2: 67–73.
—. 1971. Agronomic research. Vietnamese Studies 27, Agricultural Problems, Some Technical Aspects 3: 73–88.
—. 1976. The xuan (spring) rice as revolutionary factor in the rice production in North Vietnam. Sel’Skokhoziastvennia Biologiia (Moscow) 11: 299–303.
-, and Tan Nhu Nguyen. 1976. Practice ofAzolla fertilization in Vietnam. Unpublished IRRI Memo based on visit to IRRI between April 15–24.
Burkill, I. H. 1966 (original 1935).Azolla. pp. 278–279. A Dictionary of the Economic Products of the Malay Peninsula. Ministry of Agric. and Cooperatives, Kuala Lumpur, Malaysia.
Campbell, D. H. 1893. On the development ofAzolla filiculoides Lam. Ann. Bot. (London) 7: 155–187.
Chauveaud, G. 1901. Sur la structure de la racine de I’Azolla. Bull. Mus. Hist. Nat. (Paris) 7: 366–372.
Chauveaud, M. G. 1911. Sur une interpretation recente de la structure attribuee a la racine de I’Azollafiliculoides. Bull. Soc. Bot. France 58: 79–82.
Chevalier, A. 1926. La culture desAzolla pour la nourriture des animaux de basse-cour et comme engrais vert pour les rizieres. Rev. Int. Bot. Appl. Agric. Trop. 6: 356–360.
Chomchalow, N., and S. Pongpangan. 1973. Types of aquatic weeds, pp. 43–50.In C. K. Varshney and J. Rzoska, eds. Aquatic Weeds in S. E. Asia. Dr. W. Junk, The Hague.
Christensen, C. F. A. 1906. Index Filicum. Hafniae. pp. 147–148.
Christensen, C. 1938. Filicinae. p. 550.In F. Verdoorn, ed., Manual of Pteridology. Martinus Nijhoff, The Hague.
Clausen, R. T. 1940.Azolla filiculoides on Long Island. Amer. Fern J. 30: 103.
Cohn, J., and R. N. Renlund. 1953. Notes onAzolla caroliniana. Amer. Fern J. 43: 7–11.
Copeland, E. B. 1947. Genera Filicum. p. 232. Chronica Botanica, Waltham, Massachusetts.
Copeland, E. B.. 1960. Fern Flora of the Philippines. Vol. 3. Salviniaceae. p. 555. Manila Bureau of Printing.
Correll, D. S. 1956.Azolla Lam.In The Ferns and Fern Allies of Texas. Texas Research Foundation, Texas.
—, and I. W. Knobloch. 1962. Ferns and Fern Allies of Chihuahua Mexico, pp. 50–51. Texas Research Foundation, Texas.
Dao The Tuan, and Tran Quang Thuyet. 1966. IntroducingAzolla into the crop rotation of rice growing areas as a major crop. Khoa Hoc Ky Thuat Nong Nghiep (Agricultural Science and Technology). 59: 654–658.
Demalsy, P. 1953. Le sporophyte d’Azolla nilotica. Cellule 56: 5–60.
—. 1958. Nouvelles recherches sur le sporophyte d’Azolla. Cellule 59: 235–268.
Duckett, J. G., R. Toth, and S. L. Soni. 1975a. An ultrastructural study of theAzolla, Anabaena azollae relationship. New Phytol. 75: 111–118.
—, A. K. Prasad, and R. Toth. 1975b. Ultrastructure studies on the blue-green algae associated with the bryophytesAnthoceros andBlasia and the heterosporous fernAzolla. Brit. Phycol. J. 10: 310.
Duncan, R. E. 1940. The cytology of sporangium development inAzolla filiculoidex. Bull. Torrey Bot. Club 67: 391–412.
Duncan, W. H. 1960.Azolla caroliniana Willd. in Georgia. Amer. Fern J. 50: 266–267.
Duong Binh. 1973. Water control in agriculture. Vietnamese Studies 38, Agricultural Problems. Agronomical Data. 4: 91–118.
Duong Hong Hien. 1971. Crop multiplication. Vietnamese Studies 27, Agricultural Problems. Some Technical Aspects 3: 7–36.
—. 1973. Structuring of Crops. Vietnamese Studies 38, Agricultural Problems. Agron. Data 4: 7–50.
Dusek, W. A., and E. K. Bonde. 1965. Effects of gibberellic acid, indoleacetic acid and maleic hydrazide onAzolla mexicana. Phyton 22: 51–54.
Duthu, G. S., and R. H. Kilgen. 1975. Aquarium studies on the selectivity of 16 aquatic plants as food by fingerling hybrids of the cross betweenCtenopharyngodon idella andCyprinus carpio. J. Fish Biol. 7: 203–208.
Eady, F. 1974. The aquatic weed problem. 1. Identification. New Zealand J. Agric. 8: 40–45.
Edwards, D. J. 1974. Weed preference and growth of young grass carp in New Zealand. New Zealand J. Marine Freshwater Res. 8: 341–350.
—. 1975. Taking a bite at the waterweed problem. New Zealand J. Agric. 130: 33–36.
Ferakova, V. 1972. Floristic observations from the surroundings of the town of Hlohovec in Slovakia, pt. 3. Acta Fac. Rerum Nat. Univ. Comenianae Bot. 20: 149–158.
de Ferradas, B. R. 1973. Notes about Argentine hydracarina. III. Arrenuridae. Physis: Seccion B, Las Aquas Continentales y Sus Organismos Argentina 32: 199–205.
Fjerdingstad, E. 1976.Anabaena variabilis statusazollae. Arch. Hydrobiol. Suppl. 49. Algol. Studies 17: 377–381.
Florida Dept. of Nat. Resources. 1973. Aquatic Weed Identification and Control Manual. Edited by Staff, p. 37. Bur. Aquatic Plant Res. Control.
Fogg, G. E., W. D. P. Stewart, P. Fay, and A. E. Walsy. 1973. The Blue Green Algae. Academic Press, London and New York.
Follieri, M. 1977. Classification and phylogeny of living and fossil water ferns of the genus “Azolla”. Webbia 31: 97–104.
Fosberg, F. R. 1942. Uses of Hawaiian ferns. Amer. Fern J. 32: 15–23.
Fowler, K. 1975. An escape mechanism for spermatozoids inAzolla massulae. Amer. Fern J. 65: 7–10.
Fremy, P. 1930. Les Myxophycees de l’Afrique Equatoriale Francaise. Arch. Bot. (Paris) 3: 373.
Fritsch, F. E. 1904. Studies on Cyanophyceae. III. Some points in the reproduction ofAnabaena. New Phytol. 3: 216–228.
Fugiwara, A., I. Tsuboe, and F. Yoshida. 1947. On free living nitrogen fixation of Akaukikusa. Nogaku (Agric. Sci. [Tokyo]) 1: 361–363.
Galston, A. W. 1975. The water fern-rice connection. Nat. Hist. 84: 10–11.
Garcia Novo, F. 1969. Four new clovers from Extremadura (Spain). Bol. Soc. Esp. Hist. Nat. 67: 233–242.
Geitler, L. 1925. Cyanophyceae. p. 329.In L. Geitler and A. Pascher, eds. Die Susswasser-Flora. Verlag Von Gustav Fischer, Jena.
Gigineishvili, P. L. 1973.Azolla, green manure. Subtrop. Kul’T 1: 167–168.
Godfrey, R. K., G. W. Reinert, and R. D. Houk. 1961. Observations on microsporocarpic material ofAzolla caroliniana. Amer. Fern J. 51: 89–92.
Gopal, B. 1967. Contribution ofAzolla pinnata R. Br. to the productivity of temporary ponds at Varanasi. Trop. Ecol. 8: 126–130.
Gregor, M. J. F. 1938. Associations with fungi, pp. 156–157.In F. Verdoorn, ed. Manual of Pteridology. The Hague.
Griffith, W. 1845. OnAzolla andSalvinia. Calcutta J. Nat. Hist. 5: 227.
Grilli, M. 1964. Infrastrutture diAnabaena azollae vivente nelle foglioline deAzolla caroliniana. Ann. Microbiol. Enzimol. 14: 69–90.
Gunning, G., and W. M. Lewis. 1957. The fish population of a spring-fed swamp in the Mississippi bottoms of Illinois. Ecology 36: 552–558.
Gunning, B. E. S., and J. S. Pate. 1969. “Transfer Cells,” plant cells with wall ingrowths specialized in relation to short distance transport of solutes—their occurrence, structure, and development. Protoplasma 68: 107–133.
—, A. R. Hardham, and J. E. Hughes. 1976. Morphogenesis and microtubules inAzolla root apices. J. Cell Biol. 70: 56a.
Haller, W. T., D. L. Sutton, and W. C. Barlowe. 1974. Effects of salinity on the growth of several aquatic macrophytes. Ecology 55: 891–894.
Hannig, E. 1911. Die bildung der massulae vonAzolla. Flora 102: 243–278.
Hardham, A. R., and B. E. S. Gunning. 1977. The length and disposition of cortical micro-tubules in plant cells fixed in glutaraldehyde—osmium tetroxide. Planta 134: 201–203.
Herklots, G. A. C. 1940. Water-ferns. Hong Kong Naturalist. 10: 71.
Herter, G. 1928. Las dos especies Americanas deAzolla en la Republica del Uruguay. Darwiniana 2: 14–18.
Hill, D. J. 1975. The pattern of development ofAnabaena in theAzolla-Anabaena symbiosis. Planta 122: 179–184.
—. 1977. The role ofAnabaena in theAzolla-Anabaena symbiosis. New Phytol. 78: 611–616.
Hills, L. V., and B. Gopal. 1967.Azolla primaeva and its phylogenetic significance. Canad. J. Bot. 45: 1179–1191.
Holst, R. W. 1977. Anthocyanins ofAzolla. Amer. Fern J. 67: 99–100.
—, and J. H. Yopp. 1976. Effect of light quantity, osmotic stress, temperature and pH on nitrogen fixation and nitrate reduction by theAzolla-Anabaena symbiosis. PI. Physiol. 57: 103.
Howard, L. O. 1910. Preventive and remedial work against mosquitoes. Bull. U.S.D.A. Bur. Entomol. 88: 28–29.
Huneke, A. 1933. Beitrage zur Kenntnis der Symbiose zwischen Azolla undAnabaena. Beitr. Biol. Pflanzen 20: 315–341.
Inamdar, J. A., R. C. Patel, and D. C. Bhatt. 1971. Structure and development of stomata in some leptosporangiate ferns. Ann. Bot. (London) 35: 643–651.
Jalas, J., and J. Suominen. 1972. Atlas Florae Europaeae. Azollaceae. p. 120. Suomalaisen Kirjallisuuden Kirjapaino Oy, Helsinki.
Johnson, G. V., P. A. Mayeux, and H. J. Evans. 1966. A cobalt requirement for symbiotic growth ofAzolla filiailoides in the absence of combined nitrogen. PI. Physiol. 41: 852–855.
Karamyshev, V. P. 1957.Azolla fertilizer for rice. Naukai Peredovoi Opyt. Sel’skom Khoz 7: 75–77.
Kawamatu, S. 1960. On the granules in the root hairof Azolla imbricata Nakai. Bull. Aichi Gakugei Univ. Nat. Sci. 9: 105–116.
—. 1961. Electronmicrographs on the plastids in the rootsof Azolla imhrkata. Experientia 15: 313–315.
—. 1962. Electronmicroscopy of the root-capof Azolla imbricata Nakai. Bot. Mag. (Tokyo) 75: 114.
—. 1963. Electron microscope observations on the root hair cell ofAzolla imbricata Nakai. Cytologia 28: 12–20.
—. 1965a. Electron microscope observations on blue-green algae in the leaf ofAzolla imbricata Nakai. Cytologia 30: 75–79.
—. 1965b. Electron microscope observations on the leaf ofAzolla imbricata Nakai. Cytologia 30: 80–87.
King, W. V., G. H. Bradley, and T. E. McNeel. 1942. The mosquitoes of the southeastern states. U.S.D.A. Misc. Publ. 336: 21.
Kleinschmidt, H. E. 1969. Effect of granular 2,4-D on some waterweeds and its persistence. Queens-land J. Agric, Anim. Sci. 26: 587–592.
Knopf, K. W., and D. H. Habeck. 1976. Life history and biology ofSamea multiplicalis. Environ. Entomol. 5: 539–542.
Konar, R. N., and R. K. Kapoor. 1972. Anatomical studies onAzolla pinnata. Phytomorphology. 22: 211–223.
—. 1974. Embryology ofAzolla pinnata. Phytomorphology. 24: 228–261.
Komas, J. 1974. The Pteridophyta new to Zambia. Bull. Acad. Polon. Sci. 22: 713–718.
Kulasooriya, S. A., and R. S. Y. de Silva. 1977. Effect ofAzolla on yield of rice. Int. Rice Res. Newslett. 2: 10.
Lahdesmaki, P. 1968. Free amino acids in the leaves ofSalvinia natans andAzolla filiculoides grown in light and dark. Physiol. PI. (Copenhagen) 21: 1097–1103.
Lahser, C. W. 1967.Tilapia mossambica as a fish for aquatic weed control. Progr. Fish Cult. 29: 48–50.
Lang, N. J. 1965. Electron microscopic study of heterocyst development inAnabaena azollae Strasburger. J. Phycol. 1: 127–134.
—, and D. E. Seaman. 1964. Ultrastructure effects of herbicides onLemna andAzolla. PI. Physiol. 31:671.
-, and B. A. Whitton. 1973. Arrangement and structure of thylakoids.In N. G. Carr and B. A. Whitton, eds. The Biology of Blue-Green Algae, pp. 66–70. Univ. Calif. Press.
Lawalree, A. 1964. Azollaceae. p. 25.In T. G. Tutin, V. H. Heywood, N. A. Burges, D. H. Valentine, S. M. Walters, D. A. Webb, eds. Flora Europaea I. Cambridge Univ. Press.
Leavitt, R. G. 1902. The root hairs, cap, and sheath ofAzolla. Bot. Gaz. 34: 414–419.
LeGrand, D., and A. Lombardo. 1958. I. Pteridophyta. Flora Del Uruguay. Museo Nacional de Historia Natural, Montevideo.
Le Van Kan, and A. A. Sobochkin. 1963. The problems of the utilization ofAzolla as a green manure in the Democratic Republic of Vietnam. Timuiyazev Moscow Agric. Acad. 94: 93–97.
Limberger, A. 1925. Zur frage der symbiose vonAnabaena mitAzolla II. Mitteilung. Akad. Wiss. Wien, Math.-Naturwiss., Kl. Denkschr. 34: 1–5.
Litardiere, R. 1921. Recherches sur l’element chromosomique dans la caryocinese somatique des Filicinees. Cellule 31: 255–473.
Loyal, D. S. 1958. Cytology of two species of Salviniaceae. Curr. Sci. 27: 357–358.
—. 1972. Chromosome size and structure in some heterosporous ferns with a bearing on evolutionary problems, pp. 293–299.In P. Kachroo, ed. Advancing Frontiers In Cytogenetics and Improvement of Plants. Hindustan Publ. Corp., Delhi, India.
Lu, S., K. Chen, A. Shen, and S. Ge. 1963. Rice paddy green manure-studies on the biological characteristics of RedAzolla. Zhongguo Nongye Kexue (Chinese Agricultural Science) II: 35–40.
Lumpkin, T. A. 1977.Azolla in Kwangtung Province, People’s Republic of China. Int. Rice Res. Newslett. 2: 18.
Marsh, A. S. 1914.Azolla in Britain and in Europe. J. Bot. 52: 209–213.
Martin, A. R. H. 1976. Some structures inAzolla megaspores and an anomalous form. Rev. Paleobot. Palynol. 21:141–169.
Matthews, L. J. 1963. Weed identification and control:Azolla rubra. New Zealand J. Agric. 106: 297.
McCoy, T. N. 1950.Azolla caroliniana in Kentucky. Amer. Fern J. 40: 211–212.
McLean, R. C, and W. R. Ivimey-Cook. 1960. The Pteridophyta: Filicales, The Ferns, pp. 547–557. A Textbook of Theoretical Botany. Darien Press.
Mettenius, G. 1847. UeberAzolla. Linnaea 20: 259–282.
Meyen, F. J. F. 1836. Beitrage zur kenntniss der Azollen. Nova Acta Leop. Pt. 1. 18: 507–524.
Mitchell, D. S. 1974. The development of excessive populations of aquatic plants, pp. 38–67. Aquatic Vegetation and Its Use and Control. UNESCO, Paris.
Moore, A. W. 1969.Azolla: biology and agronomic significance. Bot. Rev. 35: 17–35.
Mori, T. 1922. An Enumeration of Plants Hitherto Unknown From Korea. Government of Chosen, Seoul, Korea.
Morton, C. V., and I. L. Wiggins. 1971. Flora of the Galapagos Islands, pp. 61–63. Stanford Univ. Press, Palo Alto, California.
Mulay, B. N. 1938. Development of the female prothallium inAzolla pinnata R. Brown, Bombay Univ. J. 6: 118–124.
Neal, M. C. 1965. Gardens of Hawaii, p. 28. Special Publication 50, Bishop Museum Press.
Newton, J. W. 1976. Fertilizer and fuel from tiny plants. Agric. Res. (U.S.D.A.). 7: 7–9.
—, and J. F. Cavins. 1976. Altered nitrogenous pools induced by the aquatic fernAzolla-Ana-baena. PI. Physiol. 6: 798–799.
Ngo Gia Dinh. 1973. The effect ofAzolla pinnata R. Br. on rice growth. Biotrop Report—Second Indonesian Weed Science Conference, Jogjakarta. April 2–5.
Nguyen Cong Tieu. 1930. L’Azolle cultivee comme engrais vert. Bull. Econ. Indochine 33: 335–350.
—, and Nguyen Cong Huan. 1934. Conservation de l’Azolle en saison chaude. Bull. Econ. Indochine 37: 1318–1320.
Nguyen, Yem. 1971. The Thanh Oai District. Vietnamese Studies 27, Agricultural Problems, Some Technical Aspects 3: 179–208.
Nickell, L. G. 1958. Physiological studies withAzolla under aseptic conditions. I. Isolation and preliminary growth studies. Amer. Fern J. 48: 103–108.
—. 1961. Physiological studies withAzolla under aseptic conditions. II. Nutritional studies and the effects of the chemicals on growth. Phyton 17: 49–54.
Nishida, M. 1974. Water fern. Heredity 28: 31–36.
Oes, A. 1913. Uber die assimiliation des freien stickoffs durchAzolla. Z. Bot. 5: 145–163.
Ohashi, H. 1975. Flora of Eastern Himalaya. Pteridophyta. p. 205. University Museum, University of Tokyo.
Olsen, C. 1972. On biological nitrogen fixation in nature, particularly in blue-green algae. Compt.- Rend. Trav. Carlsberg Lab. 37: 269–283.
Oosthuizen, G. J., and M. M. Walters. 1961. Control water fern with diesoline. Farming South Africa. 37: 35–37.
Ott, F. D., and A. J. Petrik-Ott. 1973.Azolla and its occurrence in Virginia. Brit. Fern Gaz. 10: 305–309.
Pandit, B. R., and B. N. Mulay. 1931.Azolla at Khandala. Proc. 18th Indian Sci. Congr., Nagpur, Sec. 5: 267.
Patnaik, S. 1976. Control of some aquatic vegetation in fish ponds at Cuttack. J. Inland Fish. Soc. India 8: 219–226.
Peters, G. A. 1975. TheAzolla-Anabaena azollae relationship III. Studies on metabolic capabilities and a further characterization of the symbiont. Arch. Microbiol. 103: 113–122.
—. 1976. Studies on theAzolla-Anabaena azollae symbiosis.In W. E. Newton and C. J. Nylan, eds. Proceedings of the First International Symposium on Nitrogen Fixation. Vol. 2. pp. 592–610. Washington State Univ. Press, Pullman.
—. 1977. TheAzolla-Anabaena azollae symbiosis, pp. 231–258.In Alexander Hollaender, ed. Genetic Engineering for Nitrogen Fixation. Plenum Press, New York and London.
—, and B. C. Mayne. 1974a. TheAzolla-Anabaena azollae relationship I. Initial characterization of the association. PI. Physiol. 53: 813–819.
—. 1974b. TheAzolla-Anabaena azollae relationship II. Localization of nitrogenase activity as assayed by acetylene reduction. PI. Physiol. 53: 820–824.
—, W. R. Evans, and R. E. Toia. 1976.Azolla-Anabaena azollae relationship IV. Photosynthetically driven nitrogenase catalyzed H2 production. PI. Physiol. 58: 119–126.
—, R. E. Toia, Jr., and S. M. Lough. 1977.Azolla-Anabaena azollae relationship: V.15N2 fixation, acetylene reduction, and H2 production. PI. Physiol. 59: 1021–1025.
Peterson, N. F. 1935.Azolla in Nebraska. Torreya 35: 14.
Pfeiffer, W. M. 1907. Differentiation of sporocarps inAzolla. Bot. Gaz. 44: 445–454.
Pham Hoang Ho, and Nguyen Van Duong. 1960. Pteridophyta. pp. 86–87.In Cay-Co Mien Nam Vietnam. Bo Quoc-Gia Giao-Duc Xuat-Ban.
Pham Toan. 1971. The Ngo Xuyen Co-operative. Vietnamese Studies 27, Agricultural Problems, Some Technical Aspects 3: 209–252.
Prescott, G. W. 1951. Algae of the Western Great Lakes Area. Bull. Cranbrook Inst. Sci. 31: 513.
Queva, C. 1910. L’Azollafilicitloides Lam., etude anatomique. Bull. Soc. Hist. Nat. Autun 23: 233–256.
Rao, H. S. 1936. The structure and life-history ofAzolla pinnata R. Brown, with remarks on the fossil history of the Hydropterideae. Proc. Indian Acad. Sci. 2: 175–200.
Reed, C. F. 195I–53.Azolla caroliniana in Maryland. Castanea 16–18, 143–144.
Rao, H. S.. 1954. Index Marsileata et Salviniata. Bol. Soc. Brot., 2a ser. 28: 5–61.
Rao, H. S.. 1962. Marsileaceae, Azollaceae e Isoetaceae de Portugal. Bol. Soc. Brot. 36: 73–94.
Rao, H. S.. 1965. Distribution ofSalvinia andAzolla in South America and Africa, in connection with studies for control by insects. Phytologia 12: 121–131.
Rhodes, D., and G. R. Stewart. 1974. A procedure for the in vivo determination of enzyme activity in the higher plant tissue. Planta 118: 133–144.
Richardson, L. V. 1975. Water level manipulation: A tool for aquatic weed control. J. Hyacinth Control 13: 8–11.
Richerson, P. J., and A. A. Grigarick. 1967. The life history ofStenopelmus rufinasus (Coleoptera: Curculionidae). Ann. Entomol. Soc. Amer. 60: 351–354.
Ridley, F. 1930. The Dispersal of Plants Throughout the World. Reeve, Ashford, England.
Rose, M. R. 1883. Contribution a l’etude de la fecondation chez lesAzolla. Bull. Soc. Bot. France 30: 198–206.
-. 1888. Recherches biologiques sur L’Azollafilkuloides Lamarck. Soc. Phil. Paris, Mem. Publ. Cent. Fond. pp. 215–227.
Saccardo, P. A. 1892. De diffusioneAzollae caroliniamie per Europam. Hedwigia 31: 217–218.
Sadebeck, R. 1902. Salviniaceae.In Engler and Prantl, Naturl. Pflanzenfam. I: 383–402.
Saubert, G. G. P. 1949. Provisional communication on the fixation of elementary nitrogen by a floating fern. Ann. Royal Bot. Gard. (Buitenzorg) 51: 177–197.
Saver, G. F. 1947. A List of Plants Growing in the Lingnan University Campus and Vicinity. Canton, China.
Schaede, R. 1947. Untersuchungen uberAzolla und ihre symbiose mit blaualgen. Planta 35: 319–330.
Schimper, A. F. W. 1883. Ueber die entwickelung der chlorophyllkorner und farbkorper. Bot. Zeitung 41: 105–110.
Sculthorpe, C. D. 1967. The Biology of Aquatic Vascular Plants. St. Martin’s Press, New York.
Seto, K., and T. Nasu. 1975. Discovery of fossilAzolla massulae from Japan and some notes on recent Japanese species. Bull. Osaka Mus. Nat. Hist. 29: 51–60.
Shaver, J. M. 1954. The mosquito fern(Azolla caroliniana Willd.) in Tennessee. J. Tennessee Acad. Sci. 29: 99–106.
Shen, C., S. Lu, K. Chen, and S. Ge. 1963. The initial experiment of Azolla’s nitrogen fixing ability. Turang Tongbao (Pedology Bull.), Peking. 4: 46–48.
Shen, E. Y. 1960.Anahaena azollae and its hostAzolla pinnata. Taiwania 7: 1–7.
Shimura, Y., and S. Terada. 1967. Preliminary study on the red pigment appearing inAzolla imbricala (Roxb) Nakai. J. Jap. Bot. 42: 266–271.
Singh, P. K. 1977a. Multiplication and utilization of fern “Azolla” containing nitrogen-fixing algal symbiont a green manure in rice cultivation. II Rizo 26:125–137.
—. 1977b.Azolla plants as fertilizer and feed. Indian Farming. 27: 19–22.
—. 1977c. The useof Azolla pinnata as a green manure for rice. Int. Rice Res. Newslett. 2/77. p. 7.
—. 1977d.Azolla fern plant-rice fertilizer & chicken feed. Kerala Karshakan 26: 5–6.
Sircar, S. M. 1935. The fixation of mitochondria in the root hairs ofAzolla pinnata. J. Roy. Microbiol. Soc. III 55: 238–244.
Smith, G. M. 1955. Salviniaceace. pp. 371–381. Cryptogamic Botany. Vol. II. Bryophytes and Pteridophytes. McGraw-Hill, New York,
de la Sota, E. R. 1976. Sinopsis de las Pteridofitas del noroeste de Argentina, III. Darwiniana 20: 225–232.
Soubert, G. P. 1949. Provisional communication on the fixation of elementary nitrogen by a floating fern. Ann. Royal Bot. Gard. Buitenzorg 51: 177–197.
Sourek, J. 1958.Azolla filiculoides Lam.-novy zavleceny druh pro CSR. Preslia 30: 84–85.
Stapf, O. 1929. Index Londonensis. Vol. 1, p. 374. Royal Hort. Soc. London, Oxford.
Strasburger, E. 1873. Ueber Azolla. Verlag von Ambr. Abel. Jena, Leipzig.
Sud, S. R. 1934. A preliminary note on the study ofAzolla pinnata R. Br. J. Indian Bot. Soc. 13: 189–196.
Svenson, H. K. 1944. The New World species ofAzolla. Amer. Fern J. 34: 69–85.
Sweet, A., and L. V. Hills. 1971. A studyof Azolla pinnata R. Brown. Amer. Fern J. 61: 1–13.
Talley, S. N., B. J. Talley, and D. W. Rains. 1977. Nitrogen fixation byAzolla in rice fields.In Alexander Hollaender, ed. Genetic Engineering for Nitrogen Fixation, pp. 259–281. Plenum Press, New York and London.
Tilden, J. 1910. Myxophyceae. p. 195. Minnesota Algae. Report of the Survey, Botanical Series VIII. Minneapolis, Minnesota.
de Toni, J. B. 1907. Vol. V. Myxophyceae. pp. 457–458. Sylloge Algarum. Patavii, Italy.
Torrey, R. H. 1934.Azolla caroliniana survives in Queen’s Kettle Hole Pond. Torreya 34: 11–12.
Tran Quang Thuyet, and Dao The Tuan. 1973.Azolla: A green compost. Vietnamese Studies 38, Agric. Problems, Agron. Data 4: 119–127.
Tran The Thong. 1973. Pig breeding. Vietnamese Studies 38, Agric. Problems, Agron. Data 4: 134.
Tur, N. M. 1971. Nuevos casos de epifitismo acuatico. Bol. Soc. Argent. Bot. 13: 243–249.
Tuzimura, K., F. Ikeda, and K. Tukamoto. 1957. Studies onAzolla with reference to its use as a green manure for rice-fields. J. Sci. Soil Manure 28: 17–20.
Usher, G. 1974. A Dictionary of Plants Used by Man. Hafner Press, New York.
Varghese, T. J., K. V. Devaraj, and B. Shantharam. 1976. Relative growth of the grass carp,Cten-apharygodon idella (Val.), fed onUtricularia and a mixture ofAzolla andLemna. J. Inland Fish. Soc. India 8: 206–211.
Venkataraman, G. S. 1962. Studies on nitrogen fixation by blue-green algae. J. Ind. Agric. Sci. 32: 22–24.
Venkataraman, G. S., and H. K. Saxena. 1963. Studies on nitrogen fixation by blue-green algae, IV. Liberation of free amino acids in the medium. J. Ind. Agric. Sci. 33: 21–23.
Vergis, P. C. 1976. On the occurrence ofNymphula responsalis Walker as a pest ofSalvinia sp. in Kerala state. Curr. Sci. 45: 117.
de Vol, C. E. 1945. Ferns and Fern Allies of East Central China. Musee Heude, Notes de Botanique Chinoise No. 7. Pub. Shanghai.
Vouk, V., and P. Wellisch. 1931. Zur frage der stickstoffassimiliation einiger symbiontischen Cyanophyceen. Acta Bot. Inst. Bot. Univ. Zagreb. 6: 66–75.
Watanabe, I. 1977.Azolla utilization in rice culture. Int. Rice Res. Newslett. 2: 3.
-, and C. R. Espinas. 1976. Potentiality of nitrogen fixingAzolla-Anabaena complex as fertilizer in paddy soil. Int. Rice Res. Inst. Saturday Seminar. August 14.
-, -, N. S. Berja, and V. B. Alimagno. 1977. Utilization of theAzolla-Anabaena complex as a nitrogen fertilizer for rice. Int. Rice Res. Inst. Res. Paper Ser. No. 11.
West, R. G. 1953. The occurrence ofAzolla in British interglacial deposits. New Phytol. 52: 267–271.
Westermaier, M., and H. Ambronn. 1881. Ueber eine biologische eigenthumlichkeit derAzolla caroliniana. Bot. Zeitung 39: 580–581.
Wieringa, K. T. 1968. A new method for obtaining bacteria-free cultures of blue-green algae. Antonie van Leeuwenhoek Ned. Tijdschr. Hyg. 34: 54–56.
Wild, H. 1961. Harmful aquatic plants in Africa and Madagascar. Kirkia 2: 1–66.
Williams, E. G., and A. A. Dallman. 1940.Azolla filiculoides Lam. and its occurrence in Cheshire. North W. Naturalist 15: 20–28.
Willis, J. C. 1966. Azollaceae. p. 111. A Dictionary of Flowering Plants and Ferns. 7th ed. Revised by H. K. Airy Shaw. Cambridge Univ. Press.
Yabe, Y., and K. Yasui. 1913. Notes on the Japanese species ofAzolla. Bot. Mag. (Tokyo) 27: 379–381.
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Journal Series No. 2294 of the Hawaii Agricultural Experiment Station. This work was in part supported by AID grant/csd 2833.
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Lumpkin, T.A., Plucknett, D.L. Azolla: Botany, physiology, and use as a green manure. Econ Bot 34, 111–153 (1980). https://doi.org/10.1007/BF02858627
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DOI: https://doi.org/10.1007/BF02858627