EFFECTS OF GROWTH OF SOME CYANOPROKARYOTA AND DIATOM SPECIES ON THE GROWTH OF TWO MOSSES | ||||
Egyptian Journal of Phycology | ||||
Article 2, Volume 15, Issue 1, 2014, Page 11-20 PDF (957.73 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/egyjs.2014.115225 | ||||
View on SCiNiTO | ||||
Authors | ||||
Mohamed Farag; Hesham M. Abd El Fatah ; Hanaa M. Shabaraa; Hanan F. Shaaban | ||||
Botany Department, Faculty of Science, Ain Shams University, Cairo, Egypt | ||||
Abstract | ||||
Cyanoprokaryotic taxa Nostoc paludosum Kützing ex Bornet & Flahault and Nostoc punctiforme (Kützing) Hariot may have allelopathic effects on two moss taxa, Bryum subapiculatum Hampe and Funaria hygrometrica Hedwig, grown in vitro under 66% and 99% percentages of soil water holding capacity. Nostoc filaments destroyed protonema of B. subapiculatum and arrested gametophores development of F. hygrometrica under these conditions. Colonies of the diatom Navicula cryptocephala var. veneta (Kützing) Grun. grew in a large amount and delayed the growth of B. subapiculatum. | ||||
Keywords | ||||
Allelopathy; Bryophytes; Bryum; Funaria; Navicula; Nostoc | ||||
References | ||||
Abe, T.; Lawson, T.; Weyers, J. D. B. and Codd, G. A. (1996). Microcystin-LR inhibits photosynthesis of Phaseolus vulgaris primary leaves: implications for current spray irrigation practice. New Phytol. 133: 651–658.
|
||||
Abou-Elkheir, W. S.; El Saadawi, W. E. and Darwish, M. H. (1986). A peculiar algal-moss association from El- Giza, Egypt. Arab Gulf J. scient. Res., 4 (1): 69-75.
|
||||
Abou-Elkheir, W. S.; El Saadawi, W. E. and Darwish, M. H. (1988). Observations on algal-moss associations. Journ. Hattori Bot. Lab., 65: 303-309.
|
||||
Anderson, D. C. and Rushforth, S. R. (1977). The Cryptogamic flora of desert soil crust in southern Utah: U.S.A. Nova Hedwigia, 28: 691-729.
|
||||
El Saadawi, W. E. and Abou-Elkheir, W. S. (1973). On some Egyptian mosses and the algal flora in their habitats. Proc. Egypt. Acad. Sci., 26:125-136.
|
||||
Fletcher, M. (1991). Moss Grower's Handbook: An Illustrated Beginner's Guide to Finding, Naming and Growing Over 100 Common British Species, Berkshire , UK, Seventy Press.
|
||||
Gehringer, M. M.; Kewada, V.; Coates, N. and Downing, T. G. (2003). The use of Lepidium sativum in a plant bioassay system for the detection of microcystin-LR. Toxicon, 41: 871–876.
|
||||
Gentili, F.; Nilsson, M-C.; Zackrisson, O.; DeLuca, T. H. and Sellstedt, A. (2005). Physiological and molecular diversity of feather moss associative N2-fixing cyanobacteria. Journal of Experimental Botany,56: 3121–3127.
|
||||
Henriksson, L. E. and Henriksson, E. (1974). Studies in the nitrogen cycle of Surtsey in 1972. Surtsey Res. Progr. Rep., 7: 36-44.
|
||||
Ininbergs, K.; Bay, G.; Rasmussen, U.; Wardle, D. A. and Nilsson M-C. (2011). Composition and diversity of nifH genes of nitrogen-fixing cyanobacteria associated with Boreal forest feather mosses. New Phytologist, 192: 507–517.
|
||||
International Allelopathy Society (1996). First World Congress on Allelopathy. A science for the future. Cadiz, Spain.
|
||||
Jüttner, F.; Todorova, A. K.; Walch, N. and Philipsborn W.V. (2001). Nostocyclamide M: A cyanobacterial cyclic peptide with allelopathic activity from Nostoc 31. Phytochemistry, 57: 613–619.
|
||||
Leflaive, J and Ten-hage, L. (2007). Algal and cyanobacterial secondary metabolites in freshwaters: a comparison of allelopathic compounds and toxins. Freshwater Biology, 52(2): 199-214.
|
||||
Molisch, H. (1937). Der Einfluss einer Pflanze auf die andere: Allelopathie. G. Fisher Verlag, Jena.
|
||||
Nagornyy, V. D. (2013). A text book: soil and plant Laboratory analysis. Moscow Peoples’ Friendship University of Russia.
|
||||
Opelt, K.; Berg, C. and Berg, G. (2007). The bryophyte genus Sphagnum is a reservoir for powerful and extraordinary antagonists and potentially facultative human pathogens. Fems Microbiology Ecology, 61: 38–53.
|
||||
Pflugmacher, S. (2002). Possible allelopathic effects of cyanotoxins, with reference to microcystin LR, in aquatic ecosystems. Environ. Toxicol., 17: 407–413.
|
||||
Poulíčková, A.; Bogdanová, K.; Hekera, P. and Hájková, P. (2003). Epiphytic diatoms of the spring fens in the flysh area of the Western Carpathians. – Biologia, Bratislava, 58(4): 749-757.
|
||||
Prescott, G. W. (1969). The algae: A review. Nelson and Sons, London.
|
||||
Rice, E. L. (1984). Allelopathy, 2nd ed., Academic Press, London.
|
||||
Sabovljević, M. S.; Papp, B.; Sabovljević, A.; Vujičić, M.; Szurdoki, E. and Segarra-Moragues, J. G. (2012). In vitro micropropagation of rare and endangered moss Entosthodon hungaricus (Funariaceae). Biosci. J., Uberlândia, 28 (4): 632-640.
|
||||
Sahu, V.; Toppo, K.; Suseela, M. R. and Asthana, A. K. (2013a). Allelopathic effect of Stichococcus bacillaris Nageli (Green Alga) on the growth of two bryophytes. Archive for Bryology, 162: 1-4.
|
||||
Sahu, V.; Toppo, K.; Suseela, M. R. and Asthana, A. K. (2013b). Effect of cyanobacterial growth on Bryophytes growing in Conservatory. Archive for Bryology, 172:1-6.
|
||||
Schuster, R. M. (1992). The Hepaticae and Anthocerotae of North America East of the Hundredth meridian. Chicago.
|
||||
Sedmak, B. and Kosi, G. (1998). The role of microcystins in heavy cyanobacterial bloom formation. J. Plankton Res., 20: 691–708.
|
||||
Shaw, A. J. (1990) Intraclonal variation in morphology, growth rate, and copper tolerance in the moss, Funaria hygrometrica. Evolution, 44: 441–447.
|
||||
Solheim, B. and Zielke, M. (2002). Associations between cyanobacteria and mosses. In: Rai A. N., Bergman, B., Rasmussen, eds. cyanobacteria in symbiosis. Dordrecht: Kluwer Academic Publishers 37–152.
|
||||
Todorova, A. K.; Jüttner, F.; Linden, A.; Pluess, T. and Philipsborn, W. V. (1995). Nostocyclamide: A new macrocyclic, thiazole-containing allelochemical from Nostoc sp. 31 (cyanobacteria). J. Org. Chem., 60: 7891–7895.
|
||||
Toppo, K. and Susheela, M. R. (2007). A preliminary report on Bryophyte and algal associations. In: Nath, V. and Asthana, A. K. (eds), Current trends in Bryology. Bishen Singh and Mahendra Pal Singh, Dehra Dun, India, pp. 279-286.
|
||||
Vujičić, M.; Sabovljević, A. and Sabovljević, M. (2009). Axenically culturing the bryophytes: a case study of the moss Dicranum scoparium Hedw. (Dicranaceae, Bryophyta). Botanica Serbica, 33(2): 137-140.
|