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Survival of an Endangered Orchid Liparis loeselii in Habitats with Different Water Level Fluctuations

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Liparis loeselii (L.) Rich. is an endangered orchid species which occurs in wetland habitats. For successful conservation of this orchid it is necessary to recognize its adaptive traits and special habitat requirements. Therefore, we examined morphological and anatomical traits in relation to the water level, cover of vascular plants and seed viability of L. loeselii in habitats with different water level fluctuations. Field studies of L. loeselii were carried out in nine localities and four habitat types: alkaline fen, calcareous fen with Cladium mariscus, transition mire and quaking bog. The fluctuations of seasonal water level were defined in the range from dry substrate to short time flooding (up to two weeks). Leaf length and width of 30 flowering specimens of L. loeselii as well as angle between the leaf blade and the axis of the inflorescence were measured at each locality. Seed viability and root anatomy were examined in the laboratory. The leaf angle was significantly affected (P < 0.05) by water level in the studied habitat. The leaf length to width ratio in each population of L. loeselii did not show significant differences between the years, but was characteristic for the habitat type. L. loeselii sensitivity to the long-term flooding in the habitat is associated with a lack of aerenchyma in its roots. During short-term flooding specimens of L. loeselii can survive due to a shallow root system and hyponastic leaf movements. As evidenced by seed viability, the most favourable growth conditions for L. loeselii are in the habitats with partially water saturated substrate with balanced water supply.
Rocznik
Strony
126--138
Opis fizyczny
Bibliogr. 47 poz., mapa, rys., tab., wykr.
Twórcy
autor
  • National Botanic Garden, 1 Miera str. Salaspils, LV2169, Latvia
autor
  • National Botanic Garden, 1 Miera str. Salaspils, LV2169, Latvia
autor
  • National Botanic Garden, 1 Miera str. Salaspils, LV2169, Latvia
  • Institute of Biology, University of Latvia, 3 Miera str. Salaspils, LV-2169, Latvia
autor
  • National Botanic Garden, 1 Miera str. Salaspils, LV2169, Latvia
autor
  • National Botanic Garden, 1 Miera str. Salaspils, LV2169, Latvia
Bibliografia
  • [1] Arditti J., Ghani A. 2000 – Numerical and physical properties of orchid seeds and their biological implications – New Phytol. 145: 367-421.
  • [2] Bailey-Serres J., Fukao T., Gibbs D. J., Holdsworth M. J., Lee S. C., Licausi F., Perata P., Voesenek L., van Dongen J. T. 2012 – Making sense of low oxygen sensing – Trends Plant Sci. 17: 129-138.
  • [3] Bednorz L. 2003 – Population dynamics of Liparis loeselii (L.) L. C. Rich, in the nature reserve „Mielno” – some results from 8 year study – EJPAU 6: 1-6.
  • [4] Blonska A., Halabowski D. 2016 – Population structure of Liparis loeselii (L.) Rich, in relation to habitat conditions in the Warta River valley (Poland) – Biodiv. Res. Conserv. 43: 41-52.
  • [5] Braune W., Leman A., Taubert H. 1999 – Pflanzenanatomisches Praktikum I – Spektrum Akademischer Verlag, Heidelberg, 392 pp.
  • [6] Briede A. 2016 – [ The climate of Latvia and its variability[ (In: [Climate change and sustainable development], Eds: M. Kļaviņš, J. Zaļoksnis) – LU Akadēmiskais apgāds, Rīga, pp. 55-96 (in Latvian).
  • [7] Brown P. 2006 – Wild Orchids of the Pacific Northwest and Canadian Rockies – University Press of Florida, Gainesville, 287 pp.
  • [8] Bzdon G., Ciosek M. 2006 – Fen orchid Liparis loeselii (L.) Rich. in abandoned gravel pit in Dabrówka Stany near Siedlce (Poland) – Biodiv. Res. Conserv. 1-2: 193-195.
  • [9] Buttler K. 2007 – Field Guide to Orchids of Britain and Europe – The Crowood Press, Ramsbury, 232 pp.
  • [10] Clymo R. S., Hayward P. M. 1982 – The Ecology of Sphagnum (In: Bryophyte ecology, Ed: A. Smith) – Chapman and Hall, London, pp. 229-289.
  • [11] Colmer T. D., Voesenek L. A. C. J. 2009 – Flooding tolerance: Suites of plant traits in variable environments – Funct. Plant. Biol. 36: 665-681.
  • [12] Cronk J., Fennesy M. 2001 – Wetland plants. Biology and ecology – Lewis Publishers, Boca Raton, 482 pp.
  • [13] Gignac L., Vitt D., Zoltai S., Bayley S. 1991 – Bryophyte response to surfaces along climatic, chemical and physical gradient of Western Canada – Nova Hedwigia, 53:27-71.
  • [14] Grootjans A. P., Adema E. B., Bleuten W., Joosten H., Madaras M., Janáková M. 2006 – Hydrological landscape settings of base-rich fen mires and fen meadows: an overview – Appl. Veg. Sci. 9: 175-184.
  • [15] Huber M., Linder H. P. 2012 – The evolutionary loss of aerenchyma limits both realized and fundamental ecohydrological niches in the Cape reeds (Restionaceae) – J. Ecol. 100: 1338-1348.
  • [16] IUCN 2011 – IUCN Red List Categories and Criteria. Version 3.1. – Website http://www.iucnredlist.org/details/full/161960/1 [accessed 10 October 2017].
  • [17] Jones P. S. 1998 – Aspects of the population biology of Liparis loeselii (L.) Rich. var. ovata Ridd. ex Godfery (Orchidaceae) in the dune slacks of South Wales, UK – Bot. J. Linn. Soc. 126: 123-139.
  • [18] Justin S. H., Armstrong W. 1987 – The anatomical characteristics of roots and plant response to soil flooding – New Phytol. 106: 465-495.
  • [19] Keddy P. 2010 – Wetland Ecology – Cambridge University Press, Cambridge, 497 pp.
  • [20] Kopec D., Michalska-Hejduk D. 2012 – How threatened is the Polish wetland flora? – Oceanol. Hydrobiol. St. 41: 79-89.
  • [21] Kołodziejek J., Michlewska S. 2015 – Effect of soil moisture on morpho-anatomical leaf traits of Ranunculus acris (Ranunculaceae) – Pol. J. Ecol. 63: 400-413.
  • [22] Kull T., Sammul M., Kull K., Lanno K., Tali K., Gruber B., Schmeller D., Henle K. 2008 – Necessity and reality of monitoring threatened European vascular plants – Biodiv. Conserv. 17: 3383-3402.
  • [23] Kuusk V., Tabaka L., Jankevičiene R. 2003 – Flora of the Baltic countries III – Estonian Academy of Sciences Institute of Zoology and Botany, Tartu, 375 pp.
  • [24] McMaster R. 2001 – The population biology of Liparis loeselii, Loesel's twayblade, in a Massachusetts wetland – Northeast Nat. 8: 163-178.
  • [25] Milanovič D. 2012 – Liparis loeselii (L.) Rich. - a plant rediscovered in the Balkan peninsula – Botanica Serbica, 36: 85-89.
  • [26] Moore D. M. 1980 – Liparis L. C. M. Richard. (In: Flora Europaea, Vol. 5, Eds: T. G. Tutin, V. H. Heywood, N. A. Burges, D. M. Moore, D. H. Valentine, S. M. Walters, D. A. Webb) – Cambridge University Press, Cambridge, pp. 350.
  • [27] Mueller-Dubois D., Ellenberg H. 2002 – Aims and Methods of Vegetation Ecology – The Blackburn Press, Caldwell, 547 pp.
  • [28] Niklas K. 1997 – The Evolutionary Biology of Plants – The University of Chicago Press, Chicago, 449 pp.
  • [29] Nilsson S. 1979 – Orchids of Northern Europe – Penguin Books, Harmondsworth, pp. 62-63.
  • [30] Oostermeijer J., Hartman, Y. 2014 – Inferring population and metapopulation dynamics of Liparis loeselii from single-census and inventory data – Acta Oecol. 60: 30-39.
  • [31] Pawlikowski P. 2008 – Distribution and population size of the threatened Fen Orchid Liparis loeselii (L.) Rich, in the Lithuanian Lake district (NE Poland) – Botanika-Steciana 12: 53-59.
  • [32] Pianka E. 2000 – Evolutionary Ecology – Benjamin Cummings Publisher, San Francisco, 512 pp.
  • [33] Pritchard H. 1985 – Determination of orchid seed viability using fluorescein diacetate – Plant Cell Environ. 8: 727-730.
  • [34] Proctor M. C. F. 1982 – Physiological Ecology: Water Relations, Light and Temperature Responses, Carbon Balance (In: Bryophyte ecology, Ed: A. Smith) – Chapman and Hall, London, pp. 333-381.
  • [35] Ramsey M., Dixon K. 2003 – Propagation science, recovery and translocation of terrestrial orchids (In: Orchid Conservation, Eds: K. Dixon, K. Kell, R. Barrett, P. Cribb) – Natural History Publications, Kota Kinabalu, pp. 259-288.
  • [36] Rasmussen H. 1995 – Terrestrial orchids from seed to mycotrophic plant – Cambridge University Press, New York, 444 pp.
  • [37] Rolfsmeier S. 2007 – Liparis loeselii (L.) Rich. (Yellow widelip orchid): technical conservation assessment – USDA Forest Service, Rocky Mountain Region, website http://www.fs.fed.us/r2/projects/scp/assessments/liparisloeselii.pdf [accessed 10 October 2017].
  • [38] Roze D., Jakobsone G., Megre D., Belogrudova I., Karlovska A. 2014 – Survival of Liparis loeselii (L.) Rich, as an early successional species in Engure region described based on ecological peculiarities during the annual cycle – Proc. Latvian Acad. Sci., Section B, 68: 93-100.
  • [39] Roze D., Megre D., Jakobsone G. 2012 – Ecological investigations of Liparis loeselii in addition to the use of anatomical studies (In: Abstract Book of Plant Biology Congress Freiburg 2012) – Albert-Ludwigs-University Freiburg, Freiburg, pp. 616.
  • [40] Roze D., Megre D., Jakobsone G. 2015 – [Study on micro-habitats for understanding the ecology and management requirements of Liparis loeselii population in Latvia] – Latvijas Vegetacija, 24: 5-28 (in Latvian, English summary).
  • [41] Ruzin S. 1999 – Plant Microtechnique and Microscopy – Oxford University Press, Oxford, New York, 322 pp.
  • [42] Sell A., Murrell G. 1996 – Flora of Great Britain and Ireland 5 – Cambridge University Press, Cambridge, 410 pp.
  • [43] Verhoeven J., Koerselman W, Beltman B. 1988 – The vegetation of fens in relation to their hydrology and nutrient dynamics: A case study (In: Vegetation of inland waters, Vol. 15-1, Ed: J. Symoens) – Springer, Houten, pp. 249-282.
  • [44] Vitt D., van Wirdum G., Halsey L., Zoltai S. 1993 – The Effects of Water Chemistry on the Growth of Scorpidium scorpioides in Canada and The Netherlands – Bryologist, 96: 106-111.
  • [45] Wheeler B., Lambley P., Geeson J. 1998 – Liparis loeselii (L.) Rich, in eastern England: constraints on distribution and population development – Bot. J. Linn. Soc. 126: 141-158.
  • [46] Xu F., Guo W, Xu W, Wei Y., Wang R. 2009 – Leaf morphology correlates with water and light availability: What consequences for simple and compound leaves? – Progress in Natural Science 19: 1789-1798.
  • [47] Žalneravičius E., Gudžinskas Z. 2016 – Assessment of the data of distribution, habitats and populations size of Liparis loeselii (Orchidaceae) in Lithuania – Bot. Lith. 22: 3-15.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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