Identification and Study of Useful Germplasm Resources for Breeding at Climbing Bean

Volume 16(1), 131-135 2012 JOURNAL of Horticulture, Forestry and Biotechnology www.journal-hfb.usab-tm.ro Identification and Study of Useful Germplasm Resources for Breeding at Climbing Bean Brezeanu Creola 1 * 1 Vegetable Research and Development Station Bacau *Corresponding author. Email: creola.brezeanu@yahoo.com Abstract A particularly important treasure for each country is the volume and the genetic value of species, subspecies and plants populations, called germplasm (plant genetic resources). Variability of plant forms today is the result of human activity, by using in breeding wild forms, changing areas and acclimatization of plants in other than their geographic areas. Currently, the collection, study and conservation of genetic resources are topical issues which concern us. The aim of the study is to save precious resources that are endangered, by collecting local native populations, old, primitive varieties, which are under risk in order to reduce genetic erosion and save entire material obtained by breeding. Promising genotypes were identified (superior plant characteristics, such as: seed s size, plant s height, insertion of first-pod, number of pods per plant, number of seeds in pod, resistance to drought and pathogens and early maturation). The study presents all this items for a diverse collection of ten Phaseolus vulgaris varieties used in breeding at Vegetable Research and Development Station, Bacau. Key words local populations, line, variability Variability of today plant forms is the result of human activity, by changing areas and acclimatization of plants in other than their geographic areas. Genetic and biological bases: common bean is an annual species, with a growing season of 80-100 days to 200 days if the time of the first frost occurs later (November). The main organs after selection is made and where the distinction between individuals and variability are clearly manifested are: the flower (color), fruit-pod (shape, size, color at technological maturity, thread presence, pod color at physiological maturity, dehiscence) and seeds (usually at physiological maturity, dehiscence, etc.) and seed s color, shape, and size usually at physiological maturity. The flower is hermaphrodite, actinomorphe, typical for Papilonaceae species: calyx - five united sepals, a corolla of five unequal free petals (two oblong wings, two linear united petals). Corolla s color is yellowish white, greenish white, light purple, purple, and pinkpurple. Flowering occurs during July-September and lasts up to 60 days, but even more during longer autumns. The fruit is a pod, mandatory free of thread or a scroll layer. Pod s shapes, sizes (length, thickness, etc.) vary depending on variety. Pod characters have special importance for breeding, being organs after which the most breeding works are accomplished. Seed s shapes, sizes, colors are very different. For exclusive garden bean, seeds do not have great importance for breeding, but the mixed-use forms (for beans and grains / seeds) characters have special importance for breeding, which constitute major criteria for selection. Material and Methods Collection study: the climbing bean collection includes runner bean varieties and local populations of common bean (Phaseolus vulgaris). In the present study are presented ten varieties and local populations of climbing bean. There were made morphological observations regarding: color of flower, pod s color and shape, presence of thread, seed s color and shape. Phenological observations regards: number of days till flowering, appearance to first pod, end of the vegetation, number of days from appearance of first flowers to end of vegetation, appearance of first pods to end of vegetation, resistance to diseases. Other determinations in order to asses characterization of assortment were: number of pods /plant, pod s size (length, width, thickness), number of seeds in pod, MMB (g), insertion of first pods (cm), yield pods (t/ha), seeds (t/ha) Results and Discussions Morphological characterization of collection is presented in Table 1 Flower color in the assortment was white, dark pink or light purple. 131

Pod color represents a character with a particular importance, on which consumer preferences depends. In our assortment were three variants: yellow, light purple and green, sometimes spotted (small elongated spots) of different color than the background color. Pod shape is another character that depends on consumer preference towards. In our local area the pods are preferred fat pods, which are wide and thick. Presence of thread is a key character, giving quality and suitability for use of pods. In our studied collection, eight variants had no thread or a scroll layer pods, and two have a thread when the pods begin to age. Seed color is the character with the highest variability. In general we observed that the range includes two basic types of colors: white and brown (light or dark). Shape seed is a very stable character and distinction within the same cultivar / population. Dominant forms are oval and elliptical. Resistance to disease is a criteria used in selection of varieties. Producers are interested in reducing costs for maintenance treatment of bean plants in good health for a long period and also in obtaining a proper yield. No. Genotype Flower color Morphological characterization of collection Pod color Pod shape Presence of thread Seed color Seed shape 1 L-AB/3 dark pink yellow wide a Brown throated reniforme 2 L-V/1 white green wide a white ovale 3 L-V1/5 violet violet cylindrical wide a light beige ovale reniforme 4 L-D white green cylindrical wide a (Aa) white ovale 5 L-1 white yellow wide linear a (Aa) brown reniforme 6 L-3 dark pink green wide a brown-throated ovale 7 L-8 dark pink green spotted wide a beige spotted ovale 8 L-20 violet yellow wide a light brown ovale 9 L-46 white yellow wide Aa light brown elliptical 10 L-57 violet yellow pink wide a light brown reniforme A = presence of thread; a = free of thread; Aa = the thread are formed at the end of technological maturity Table 1 Phenological characterization (Table 2) highlights the main elements of earliness / delay harvest. Flowering occurs earliest at L-V1 / 5 after 29 days from springing and latest after 45 days at the population L-3 Bacau. This character is indicative of earliness, and versatility/ suitability at lower temperatures. Appearance of the first flower occurs after 40-56 days sowing; extreme limits were properly recorded at the same population. The vegetation period occurs from 120 to 130 days. The shortest vegetation period was recorded variant L-1 Bacau and longer at L-8 Bacau. Periods from the early flowers to the end of vegetation have special importance in terms of applied technology. Number of days from the early pod appearance to the end of vegetation varies between 70 days (at L-1 and L-3 Bacau) and 82 days at L-D. Disease resistance, quality expressed by the symbols R, MR and S represents a reduced variability, most variants being resistant environment. The least damaged by disease were plants of variants: L-V1/5 with grade 7-8, L-AB / 3 with grade 6-7, and LV / 1 and L-20 Bacau, with grade 6. The most susceptible to disease proved to be plants of L-57 Bacau) with note 3. The main pathogens detected in culture were Xanthomonas campestris pv. phaseoli and Coletotrichum lindemuthianum. 132

No Variant Tabel 2 Phenological characterization and disease resistance of studied assortment Resistance to Number of days till Number of days from - to diseases flowering first pods end of the vegetation first flowers end of vegetation first pods end of vegetation note symbol 1 L- AB/3 38 52 129 90-92 80-82 6-7 MR 2 L-V/1 31 40 120 91-94 80-82 6 MR 3 L- V1/5 29 40 125 90-92 82-84 7-8 MR (R) 4 L- D 38 53 129 93-95 82-84 5-6 MR 5 L -1 36 50 120 83-86 70-74 4 MR 6 L -3 45 55 126 81-84 70-74 6 MR 7 L - 8 44 55 131 86-88 73-75 3-4 MR 8 L - 20 40 55 128 88-90 74-76 6 MR 9 L - 46 43 54 130 84-86 72-74 4 MR 10 L - 57 40 50 126 84-86 76-80 3 S * R = rezistent; MR = medium rezistent; S = sensitive Characterization of assortment regarding the main features of productivity is presented in Figure 1, 2 and 3. The total number of pods per plant varies between 56 at L-46 and 107 at L-D. The variation of total number of seeds in pod registers a low level. The smallest number of seeds in pods was four, in case of L-D and the highest was seven at L-AB/3 and at L57. Number of pods per plant varied in very wide limits from 56 pods / plant in version LV / 1 up to 107 pods / plant at variant L-D. It is worth mentioning that the individual variables varied in the range quite large. Pod size varies very high. Length ranged from 12 to 26 cm average values, the largest pods from this point of view occurring in variants LV / 1 (26 cm), L-AB / 3 (20 cm) and L-V1 / 5 ( 19 cm). Width was generally high, giving the character varieties of fat varieties. This character has varied between 1.2 and 2.1 cm, the widest pods (2.1 cm) were at the variants LV / 1 Bacau, 20 L Bacau and L-46 Bacau. Pods thickness varied between 0.5 and 0.9 cm. MMB registered values between 230g at L-3 and 710g at L-V1. The highest level of seeds yield was at L-V/1, 2.8 tones/ha. Opposites the lowest level of seeds production was obtained at L-D with one tone less comparing with L-V/1. A similar variation was registered in case of pods production. The highest production, 42 t/ha was obtained at L-V/1 and the lowest yield, 8 t/ha at L-3. 120 100 80 60 73 60 66 107 65 67 103 68 56 59 40 20 0 28 30 25 18 18,5 18,5 20,5 19,5 14 7 6 6 4 6 6 6 5 6 L-AB/3 L-V/1 L-V1/5 L- D L-1 L-3 L-8 L-20 L-46 7 17 L-57 Number of seeds in pod Insertion of first pods (cm) No of pods /plant Fig 1 Number of seeds in pod, pods per plant and insertion of the first pod Fig 2 Pod size (length, width, thickness) 133

Fig 3 MMB, Yield (tones of pods and seeds/ha) Conclusions Solving the problem of creating new varieties is possible only on knowledge and use of complex mechanisms of heredity. The main organs after selection is made and where the distinction between individuals and variability are clearly manifested: the flower (color), fruit-pod (shape, size, color at technological and physiological maturity, thread presence, dehiscence) and seeds (usually at physiological maturity, dehiscence, color, shape, size, etc.) Number of pods per plant varied in very wide limits from 56 pods / plant in V2 (LV /1) up to 107 pods / plant at V4 (L-D). Pod size varies very high. Length ranged from 12 to 26 cm average values, the largest pods from this point of view occurring in variants LV / 1 (26 cm), L- AB / 3 (20 cm) and L-V1 / 5 ( 19 cm). Width was generally high, giving the character varieties of fat varieties. This character has varied between 1.2 and 2.1 cm, the widest pods were at the variants LV / 1 Bacau, 20 L Bacau and L-46 Bacau and to 2.1 cm. Pods thickness varied between 0.5 and 0.9 cm. The least damaged by disease were plants of the following variants: V3 (L-V1/5) with grade 7-8, V1 - (L-AB / 3) with grade 6-7, and V2 (LV / 1) and V8 (L- 20 Bacau), with grade 6. The most susceptible to disease proved to be plants of V10 (L-57 Bacau) with note 3. The main pathogens detected in culture were Xanthomonas campestris pv. phaseoli (causing disease called burning common of bean and Coletotrichum lindemuthianum. Acknowledgements This work was cofinanced from the European Social Fund through Sectorial Operational Programme Human Resources Development 2007-20013 project number POSDRU/I.89/1.5/S62371 Postdoctoral School in agriculture and Veterinary Medicine area. References 1.Ambăruş Silvica, Brezeanu PM, Brezeanu Creola, 2010, Producerea seminţelor şi a materialului săditor la speciile legumicole Ed. Alma Mater Bacau, pag 97-100 2.Brezeanu Creola, Brezeanu PM, Ambarus Silvica, Sansheng G, Barbu Diana, 2011 - Perlata, a new Phaseolus vulgaris L. variery obtained at V.R.D.S Bacau - Studii şi Cercetări Biologie Universitatea Vasile Alecsandri din Bacău, 20/1 pag 79-81 3.Brezeanu Creola, Robu T., Brezeanu P.M, Ambăruş Silvica Maria Calin, Cristea Tina Oana, Sansheng G, 2011 Studies on the Potential Culture of Species Phaseolus aureus- Lucrări Ştiinţifice vol. 54 nr. 1seria Horticultură Editura Ion Ionescu de la Brad Iaşi 2011 ISSN l=1454-7376, pg 275-280 4.Brezeanu Creola, Brezeanu P. M. 2010 Resurse Genetice Legumicole Cultivate în România, Editura Alma Mater din Bacau, pag 87-92 5.Brezeanu P.M., Brezeanu Creola, Ambăruş Silvica Verdana, a new Phaseolus vulgaris L. variery obtained at V.R.D.S Bacau, 2010, Lucrari stiintifice - Seria B- LIV - Horticultura Bucuresti, pg 46-50 ISSN 1222-5312 6.Brezeanu P.M., Brezeanu Creola, Ambăruş Silvica, Avasiloaiei D.I. Cultura leguminoaselor în agricultura biologic, 2010 Editura Alma Mater din Bacau, pag 1-9. 134

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