Press Enter to search, Esc to cancel

Archive
Last news:
Read all news

WINTER PEA (PISUM L.) TRAIT COLLECTION OF NCPGR

Download Article

WINTER PEA (PISUM L.) TRAIT COLLECTION OF NCPGR

Article language

українська

Print date

13.08.24

Date posted online

23.11.2024

Institution

Yuriev Plant Production Institute of NAAS

Bibliography

  1. Chen C, Miller P, Muehlbauer F, Neill K, Wichman D, McPhee K. 2006. Winter pea and lentil response to seeding date and micro- and macroenvironments, Agronоmy Journal. 98(6): 1655-1663. doi:10.2134/agronj2006.0085
  2. FAOSTAT URL: http:/3,2/www.fao.org/faostat/en/#dat74,9a/QC (retrieved on 20.05.24)
  3. Vadez V, Berger JD, Warkentin T, Assend S, Ratnakumar P, Rao KPC, Gaur PM, MunierJolain N, Larmure A, Voisin A-S, Sharma HC, Pande S, Sharma M, Krishnamurthy L, Zaman MA. 2012. Adaptation of grain legumes to climatic changes: a review. Agronomy of Sustain Development. 32(1): 31-44. doi: 10.1007/s13593-011-0020-6
  4. Brisson N, Gate P, Gouache D, Charmet G, Oury F-X, Huard F. 2010. Why are wheat yields stagnating in Europe? A comprehensive data analysis for France, Field Crops Research. 119. (1): 201-212. doi:10.1016/j.fcr.2010.07.012
  5. Zholobetskyi H. 2017. Will winter pea be on the bean Olympus? Propozytsiia. 9: 82-85.
  6. Winter Field Peas Cover Crop Seeds [Internet]. [cited 2024 May 10]. Available from: https://www.westcoastseeds.com/products/winter-field-peas-5?srsltid= AfmBOortjoKZjb7WGE2LK_TfMY00HfjMz_uz9-9EZoBmnHii_qVzpVA8
    1. Schwarz AF. 1899. Flora von Nurnberg-Erlangen. Phanerogamen- und Gefässkryptogamen-Flora der Umgegend von Nurnberg-Erlangen und des angrenzenden Teiles des Fränkischen Jura um Freistadt, Neumarkt, Hersbruck, Muggendorf, Hollfeld. II Specialer Teil. Folge. Die Calycefloren. Nürnberg:Druck und Ferlag von U. E. Sebald. 417 s.
    2. Sichkar VI. Solomonov RV. 2019. Genetic features and breeding strategy for pre-winter pea sowing. Avtokhtonni ta Introdukovani Roslyny. 15: 133-143.
    3. Sichkar V, Kryvenko A, Solomonov R, Karpuk L. The effective method of the yield of pea increasing in the steppe zone of Ukraine. Plant Archives. 2020. 20(2): 4595-4600.

10.  Sichkar VI, Kryvenko AI, Solomonov RV. 2021. An effective method of increasing pea production in the steppe zone of Ukraine. Tavriiskyi Naukovyi Visnyk. Series: Silskohospodarski Nauky. 117: 149-157. doi: 10.32851/2226-0099.2021.117.20

11.  Turley DB, Welburn DB. 1998. Evalution of the yield potential of winter pea cultivars. Ann. Appl. Biol. 132. Suppl. P. 62-63. [Internet]. [cited 2024 May 11]. Available from: https://www.academia.edu/15576177/Agronomic_analysis_of_the_performance_of_spring_and_winter_cereal_legume_intercrops_in_organic_farming

12.   Lavinia F. 2020. The first Romanian winter pea cultivar created at national agricultural research and development institute fundulea, Romania. Ancuţa BĂRBIERU Scientific Papers Series Management, Economic Engineering in Agriculture and Rural Development. 20(4): 89-93.

13.  Klysha AI. 1970. Biological characteristics, productivity and prospects for breeding overwintering fodder peas in the steppe of the Crimean and Dnepropetrovsk Regions. Thesis for the Academic Degree of Candidate of Agricultural Sciences. Klepinino-Sinelnikovo. 192 p.

14.   Kobyzieva LN, Bezuhla OM, Sylenko SI, Kolotilov VV, Sokol TV, Dokukina KI, Vasylenko AO, Bezuhlyi IM, Vus NO. Methodological recommendations for studying genetic resources of grain legumes. AT. Kharkiv, PE "Styl-Izdat. 2016. 84 p.

15.   Kyrychenko VV, Kobyzieva LN, Petrenkova VP, Riabchun VK., Bezuhla OM, Markova TYu; . Kyrychenko VV, editor. 2009. Identification of traits in grain legumes (pea, soybean): Training guide.. Kharkiv: IR im. V.Ya. Yurieva UAAN. 172 p.

 

Section

Abstract

Aim. To evaluate the variability of morphobiological traits, to select among the studied collection pea material sources suitable for pre-winter sowing in the Eastern Forest-Steppe of Ukraine, and to compile a trait collection.

Results and Discussion. One hundred and ninety-eight accessions of two species of the genus Pisum L. were analyzed: 37 Pisum sativum L. accessions and 161 Pisum arvense L. accessions of different eco-geographical origins from the core pea collection of the National Center for Plant Genetic Resources of Ukraine. The collection accessions were assessed for suitability for pre-winter sowing within two timeframes and under controlled conditions when grown in boxes and further frozen in Danfoss freezers at critical temperatures of -7°С, -10°С, and -14°С. The accessions were differentiated by frost tolerance under controlled conditions upon freezing at -7 °С. Valuable starting materials, which combine excellent overwintering with increased productivity in their genotypes were distinguished: accessions of the subspecies Pisum sativum L. – ‘NS Moroz’ (UD0101850), ‘Enduro’ (UD0101855), ‘12.05.04’ (UD0102803), and ‘Lehion’ (UD0102117); accessions of the subspecies Pisum arvense L. – ‘ADS 85’ (UD0101346), ‘Zymuyuchyi 406’ (UD0100506), ‘Mistsevyi Ukrainskyi’ (UD0101934), and ‘Myr’ (UD 0102261).

Conclusions. As a result of the research, a trait collection of overwintering peas consisting of 27 accessions of two subspecies (Pisum sativum L. and Pisum arvense L.) was formed and registered with the NCPGRU. The collection is feasible to use for breeding new domestic overwintering pea cultivars.

Keywords

Pisum sativum ssp. sativum L., Pisum sativum ssp . arvense L., overwintering accessions, trait collection,, overwintering , freezing tolerance