folia biologica et geologica 57/2, 41–43, ljubljana 2016 VIVIPARy IN FAGOPYRUM ESCULENTUM ŽIVORODNOST PRI AJDI (FAGOPYRUM ESCULENTUM) Tanveer Bilal PIRZADAH1, Bisma MALIK1, Inayatullah TAHIR1 & Reiaz ul REHMAN1 Received August 27, 2016; accepted December 16, 2016. Delo je prispelo 27. avgusta 2016, sprejeto 16. decembra 2016. 1 Department of Bioresources, University of Kashmir, Srinagar, India-190006 * reiazrehman@yahoo.com, pztanveer@gmail.com iZVleČeK Živorodnost pri ajdi (Fagopyrum esculentum) Navadna ajda (Fagopyrum esculentum Moench) je gosp- odarsko pomembna poljščina, pri kateri je opazen edinstven pojav živorodnosti (viviparija), ki je običajno lastnost rast- lin, ki rastejo na mokrih, suhih in poplavnih območjih. Živorodnost so opazili pri zrelih in nezrelih (zelenih) se- menih na socvetju. Izražanje te lastnosti pri ajdi zmanjša uporabno vrednost pridelka. Ključne besede: Fagopyrum, ajda, živorodnost, kalitev abStRact Vivipary in Fagopyrum esculentum Common buckwheat (Fagopyrum esculentum Moench) is an economically important crop, exhibiting a unique phe- nomenon of vivipary, which is usually a trait shown by plants growing in wet, arid and flodded conditions. Vivipa- ry was observed in both ripe and un-ripe (green) seeds on the inflorescence. The expression of this trait in buckwheat is detrimental for the crop yield. Key words: Fagopyrum, buckwheat, vivipary, germina- tion Tanveer Bilal PirZaDaH, Bisma maliK, inayaTullaH TaHir & reiaZ ul reHman: viviPary in FaGOPyrum esCulenTum 42 folia biologica et geologica 57/2 – 2016 Buckwheats (Fagopyrum spp.) a dicot pseudocereal is a crop of short duration, grown in many places around the world. It’s economic and health promoting effects are due to its bioactive constituents. It has abundant rutin (flavonoid) content and has a potential for be- coming main industrial source of rutin. These proper- ties have put it among the functional foods and thera- peutic medicines. 1 INTRODUCTION 2 RESULTS AND DISCUSSION Here we report that Fagopyrum esculentum Moench exhibited seed germination within the inflorescence, a well known phenomenon, known as vivipary. Predom- inantly vivipary is the trait of mangroves but there are reports of vivipary in some members of the family Polygonaceae, however buckwheat belonging to the same family usually does not show such characteristic. There has been an earlier report by Katoch et al. (1979), however, the illustrations are vague. Vivipary has been documented in alpine, arctic (Lee & Harmer 1980, Elmqvist & Cox 1996) and tropical (Farn- sworth & Farrant 2004) plants in arid and wet or flooded environments. Usually the phenomenon of vi- vipary is exhibited by ripe seeds but in our present in- vestigation, some unripe seeds, green in colour, also shows this unique feature (Figure 1 C). However, no such phenomenon could be observed in other species of buckwheat. Vivipary is also significant from an ag- A B C D ricultural perspective because it would cause loss in yield. The lack of seed dormancy is highly undesirable because the premature sprouting of grains creates a major challenge in maintaining food supplies (Tsian- tis 2006). There are few studies that have evaluated germination and vivipary in buckwheat. Cormack (1952) found that the removal of the pericarp and seed coat resulted in the germination of dormant seeds of Tartary buckwheat. Vanden Born & Corns (1958) re- ported that gibberellic acid (GA) improved partially the germination of after ripening seeds, but not of fully dormant seeds. It has been reported that in buckwheat the VP (viviparous) 1/ABI (Abscisic Acid-Insensitive) 3 gene is responsible for controlling seed development and germination (McCarty 1995, Jones 1997, Naka- mura & Toyama 2001) and the induced mutation in this gene have been shown to cause vivipary (Naka- mura & Toyama 2001). Figure 1: Panels A, B: F. esculentum Moench. showing vivipary, Panel C: green viviparous seed, Panel D: mature viviparous seed. Slika 1: Podokni A, B: prikaz živorodnosti pri navadni ajdi (F. esculentum Moench), Podokno C: zeleno živorodno seme, Podo- kno D: zrelo živorodno seme. Tanveer Bilal PirZaDaH, Bisma maliK, inayaTullaH TaHir & reiaZ ul reHman: viviPary in FaGOPyrum esCulenTum 43folia biologica et geologica 57/2 – 2016 Ajda (Fagopyrum spp.) je dvokaličnica, ki se uvršča med neprava (psevdo) žita. Je poljščina, ki jo pridelu- jejo v številnih krajih po svetu. V tem članku bomo predstavili dobro znan pojav živorodnosti (viviparije) pri opazovani kalitvi semen navadne ajde (Fagopyrum esculentum Moench) na socvetju. Živorodnost je pretežno lastnost mangrove, obstajajo pa tudi poročila o živorodnosti nekaterih vrst družine Polygonaceae, vendar ajda, ki tudi pripada k tej družini, običajno ne kaže te lastnosti. O tem so v preteklosti že poročali Katoch et al. (1979), vendar slike niso bile primerno razločne. Živorodnost so do- kumentirali pri alpskih, arktičnih (Lee & Harmer 1980, Elmqvist & Cox 1996) in tropskih (Farn- sworth & Farrant, 2004) rastlinah v sušnih in mokrih ali poplavljenih okoljih. Običajno je pojav živorodnosti ugotovljen pri zrelih semenih, vendar v naši sedanji raziskavi tudi nekatera nezrela semena, ze- lene barve, kažejo ta edinstven pojav (slika 1 C). Ven- 3 POVZETEK dar o tem pojavu še niso poročali pri drugih vrstah ajde. Živorodnost je s kmetijskega vidika neželjena zaradi izgube kakovosti pridelka. Pomanjkanje miro- vanja semen (dormanca) je zelo nezaželeno, ker se zaradi prezgodnje kalitve zrn nastaja problem skladiščenja in ohranjanja zalog hrane (Tsiantis 2006). Obstaja nekaj študij, ki so ugotavljale kalitev in živorodnost pri ajdi. Cormack (1952) je odkril, da je odstranitev perikarpa in luščin povzročila kalitev mirujočih semen tatarske ajde. Vanden Born & Corns (1958) sta poročala, da je giberelinska kislina (GA) delno izboljšala kalitev po zorenju semena, razen pri popolnoma mirujočih semenih. Ugotovljeno je bilo, da je pri ajdi gen VP (živorodna) 1 / ABI (Abscisic Acid-Insensitive) 3 odgovoren za razvoj semen ter ka- litev (McCarty 1995, Jones 1997, Nakamura & To- yama 2001) in da inducirane mutacije v tem genu povzročajo živorodnost (Nakamura & Toyama 2001). 4 REFERENCES - LITERATURA Cormack, R. G. H., 1952: A note of the dormancy of Tartary buckwheat seeds. Scient. Agr. (Rio de Janeiro) 32: 170- 172. Cota-Sánchez, J. H., 2004: Vivipary in the Cactaceae: its taxonomic occurrence and biological significan- ce. Flora (Jena) 199: 481-490. Elmqvist, T. & P. A. Cox, 1996: The evolution of vivipary in flowering plants. Oikos (Copenhagen) 77: 3-9. Farnsworth, E. & J. M. Farrant, 1998: Reductions in abscisic acid are linked with viviparous reproduction in mangroves. Am. J.Bot. (Baltimore) 85: 760-769. Jones, R. D., N. C. Peters & M. J. Holdsworth, 1997: Genotype and environment interact to control dormancy and differential expression of the VIVIPAROUS I homologue in embryos of Avena fatua. Plant J. (Oxford) 12: 911-920. Katoch, P. C., S. Baksh, S. D. Bhardwaj & A. N. Kaushal, 1979: A report of Vivipary in buckwheat (Fagopyrum sp.). Curr. Sci. (Bengaluru) 48 (10): 446. Lee, J. A. & R. Harmer, 1980: Vivipary: a reproductive strategy in response to environmental stress? Oikos (Cope- nhagen) 35: 254-265. McCarty, D. R., 1995: Genetic control and integration of maturation and germination pathways in seed deve- lopment. Ann. Rev. Physiol. Plant Mol. Biol. (Palo Alto) 46: 71-93. Nakamura, S. & T. Toyama, 2001: Isolation of a VPI homologue from wheat and analysis of its expression in emb- ryos of dormant and non-dormant cultivars. J. Exp. Bot. (Oxford) 52: 875-876. Toyama, T., S. Nakamura & M. yamamori, 2004: Isolation of a VIVIPAROUS l/ABSCISIC ACID-INSENSITIVE 3 homologue from common buckwheat. Fagopyrum (Kyoto) 21: 27-34. Tsiantis, M., 2006: Plant development: multiple strategies for breaking seed dormancy. Curr. Biol. (Amsterdam) 16: R25-R27. Vanden Born, W. H. & W. G. Corns, 1958: Studies on seed dormancy, plant development, and chemical control of Tartary buckwheat (Fagopyrum tataricum (L.) Gaertn.). Can. J. Plant Sci. (Ottawa) 38: 357-366.