Open Access

Counter Agronomic Systems and Maize Seed Vigour

Jelena Golijan Pantović
Jelena Golijan Pantović
, 
Dušica Jovičić
Dušica Jovičić
, 
Slavoljub Lekić
Slavoljub Lekić
 and 
Mile Sečanski
Mile Sečanski
   | Dec 07, 2022
Contemporary Agriculture's Cover Image
About this article
Previous Article
Next Article
Cite
Published Online: Dec 07, 2022
Page range: 172 - 178
Received: Jan 31, 2022
Accepted: May 13, 2022
DOI: https://doi.org/10.2478/contagri-2022-0023
Keywords
© 2022 Jelena Golijan Pantović et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Andrade G.C.D., Coelho C.M.M., Padilha M.S. (2019): Seed reserves reduction rate and reserves mobilization to the seedling explain the vigour of maize seeds. Journal of Seed Science, 41: 488-497.10.1590/2317-1545v41n4227354 Search in Google Scholar

AOSA (2002): Seed vigour testing handbook. U: Handbook of seed testing, Association of Official Seed Analysts, NE, USA, Contribution No. 32. Search in Google Scholar

Babić V., Ivanović M., Babić M. (2012): Nastanak i evolucija kukuruza i putevi uvoĎenja u naše krajeve. Ratarstvo i povrtarstvo, 49: 92-104. Search in Google Scholar

Finch-Savage W.E. & Bassel G.V. (2016): Seed vigour and crop establishment: extending performance beyond adaptation. Journal of Experimental Botany, 67(3): 567–591.10.1093/jxb/erv49026585226 Search in Google Scholar

Hussein H.A., Shaheed A.I., Yasser O.M. (2012): Effect of accelerated aging on vigor of local maize seeds in term of electrical conductivity and relative growth rate (RGR). Iraqi Journal of Science, 53(2): 285-291. Search in Google Scholar

Iqbal N., Shahzad Basra M.A., Ur Rehman K. (2002): Evaluation of Vigor and Oil Quality in Cottonseed during Accelerated Aging. International Journal of Agriculture & Biology, 4(3): 318-322. Search in Google Scholar

ISTA Rules (2016): International Rules for Seed Testing 2016 Edition. International Seed Testing Association, ISTA Bassersdorf, Switzerland. Search in Google Scholar

Jovičić D. (2014): Antioksidativni kapacitet, tolerantnost na oksidativni stres i životna sposobnost uljane repice. Doktorska disertacija. Univerzitet u Novom Sadu, Poljoprivredni fakultet. Search in Google Scholar

Kapoor N., Arya A., Siddiqui M.A., Kumar H., Amir A. (2010): Seed deterioration in chickpea (Cicer arietinum L.) under accelerated aging. Asian Journal of Plant Sciences, 9(3): 158-162.10.3923/ajps.2010.158.162 Search in Google Scholar

Kavitha S., Menaka C., Srinivasan S., Yuvaraja A. (2017): Accelerated Ageing Test in Maize: Pattern of Seed Deterioration. Madras Agricultural Journal, 104(1-3): 41-44. Search in Google Scholar

Kravić N., Dragičević V., Milivojević M., Babić V., Žilić S. (2021): Antioxidants from maize seeds and accelerated ageing. Selekcija i semenarstvo, 27(2): 47-57.10.5937/SelSem2102047K Search in Google Scholar

Lekić S. (2009): Ispitivanje semena. Beograd. Search in Google Scholar

Marcos-Filho, J. (2015): Seed vigor testing: an overview of the past, present and future perspective. Scientia Agricola, 72(4): 363-374.10.1590/0103-9016-2015-0007 Search in Google Scholar

Milivojević M. (2016): Kvalitet semena ZP samooplodnih linija kukuruza različitih grupa zrenja i genetičke osnove. Doktorska disertacija. Poljoprivredni fakultet, Univerzitet u Novom Sadu. Search in Google Scholar

Radić V. & Milošević M. (2004): Ustanovljavanje pokazatelja kvaliteta semena kukuruza primenom raznih metoda ispitivanja. Selekcija i semenarstvo, 10(1-4): 51-59. Search in Google Scholar

Radosavljević M. (2010): Cereals: Production, properties and organic food. Journal on Processing Energy in Agriculture, 14 (3): 131-134. Search in Google Scholar

Ranum P., Peña-Rosas J. P., Garcia-Casal M.N. (2014): Global maize production, utilization, and consumption. Annals of the New York Academy of Sciences, 1312(1): 105-112.10.1111/nyas.1239624650320 Search in Google Scholar

Rastegar Z., Sedghi M., Khomari S. (2011): Effects of accelerated aging on soybean seed germination indexes at laboratory conditions. Notulae Scientia Biologicae, 3: 126.10.15835/nsb336075 Search in Google Scholar

Santipracha W., Santipracha Q., Wongrodom V. (1996): Hybrid corn seed quality and accelerated aging. Seed Science and Technology, 25: 203-208. Search in Google Scholar

Statistical Office of the Republic of Serbia (2021): Available at: https://www.stat.gov.rs/oblasti/poljoprivreda-sumarstvo-iribarstvo/biljna-proizvodnja/ (accessed 28.10.2021.) Search in Google Scholar

TeKrony D.M. (1996): Accelerated ageing test conditions for hybrid corn seed. Iowa seed science. The newsletter of the Seed science center, 16: 3-4. Search in Google Scholar

Vanzolini S. & Carvalho N.M. (2002): Effects of soybean seed vigor on field plant performance. Revista Brasileira de Sementes, 24(1): 33-41. Search in Google Scholar

Vaz Mondo V.H., Neves Dias M.A., Moure Cicero S. (2015): Maize seed vigor and its effects on crop cultivation cycle. Revista de Agricultura, 90(2): 168-178. Search in Google Scholar

Vujošević B., Čanak P., Babić M., Mirosavljević M., Mitrović B., Stanisavljević D., Tatić M. (2018): Field performance of abnormal maize seedlings. Ratarstvo i povrtarstvo, 55(1): 34-38.10.5937/ratpov55-15198 Search in Google Scholar

Wu X., Ning F., Hu X., Wang W. (2017): Genetic modification for improving seed vigor is transitioning from model plants to crop plants. Frontiers in Plant Science, 8.10.3389/fpls.2017.00008524128728149305 Search in Google Scholar

eISSN:
2466-4774
Language:
English
Publication timeframe:
2 times per year
Journal Subjects:
Business and Economics, Business Management, Industries, Agribusiness, Food Industry, Life Sciences, Plant Science, Zoology, Medicine, Veterinary Medicine
Journal RSS Feed