Dependence of the grain filling intensity and moisture-yielding ability on valuable economic features in corn
DOI:
https://doi.org/10.30835/2413-7510.2023.293891Ключевые слова:
Zea mays, lines, morphological features, moisture-yielding ability, grain filling intensityАннотация
Purpose. To analyze the dependence of the corn grain filling intensity and moisture-yielding ability of corn grain on morphological and economic characteristics in each ripeness group of corn lines.
Material and Methods. The study was carried out in the Laboratory of Introduction and Preservation of Plant Genetic Resources and the Laboratory of Corn Breeding and Seed Production of the Yuriev Plant Production Institute of NAAS in 2017-2019. The accessions were sown by the standard method in two-row plots of 9.8 m2 in three replications. The reference accessions were placed after every 20 plots: early ripening - F2 line; medium-early – UKh 52; medium-ripening - DS 103, UKhS 126, and SO 125; medium-late - А 619, Kharkivska 215, and KhА 408. During the growing period, the accessions were evaluated in the field 24 times for typicality. In the laboratory, the grain moisture was determined thermogravimetrically four times for each line during its ripening period, every ten days, starting on day 30 after pollination. For comparison, the moisture content in grain was also determined in the field using an AVD 6100 needle moisture meter for wood.
Results and Discussion. Lines with the maximum yield of moisture per day were selected: six medium-early lines (LPL 79 A, UKhK 5, UChS 85, UKhK 590, UChS 85, SL 73-85-2 (Ukraine), СО 190 (Canada), and B 267 (Russia)), 24 medium-ripening lines (of them, 20 lines were bred in Ukraine; one line is from Russia (B 321), and three lines are from the USA (W 83, A 619, and B 143)), and 25 medium-late lines (20 Ukrainian lines (UKhK 472, KhLH 78, LNAU 18, ОV 1248, UKh 804, and others), two Russian lines, 1 Kazakhstanian line, and 1 line from the USA). We noted the dependences of the grain filling intensity, moisture release during ripening, and grain drying rate on morphobiological and so-called "specific" characteristics (peduncle length, sheath number, density of sheath adhesion to the ear, grain consistency). Corn lines with intensive grain filling and a set of valuable economic features were distinguished.
Having studied inbred corn lines, we found a strong positive correlation between dry matter accumulation and performance (r = 0.90) and moderate positive correlations between dry matter accumulation and kernel number per ear (r = 0.45), between dry matter accumulation and plant height (r = 0.40), and between dry matter accumulation and ear attachment height (r = 0.39).
Conclusions. The best lines were selected in each group of ripeness according to the intensity of moisture egress from grain and valuable economic characteristics. In the medium-early group, eight best lines were selected. However, only 6 lines had good economic characteristics. Most of the medium-early lines were superior to the reference accession, UKh 52, in terms of performance and thousand kernel weight. In the medium-ripening group, 24 best lines were selected in comparison with UChS 126 (reference accession).
Библиографические ссылки
Cherchel V.Yu., Stasiv O.F., Bodenko N.A., Kupar Yu.Yu. Environmental stability of grain yield in corn hybrids is a pacing factor for increasing gross production. Silske Hospodarstvo i Lisivnytstvo. 2020; 12(19): 177—196. DOI: 10.37128/2707-5826-2020-4 [in Ukrainian]
Dziubetskyi B.V., Cherchel V.Yu., Antoniuk S.P. Corn breeding. Genetics and breeding in Ukraine on the verge of millennia. K.: Lohos. Vol. 2. 2001. 571–589. [in Ukrainian]
Baktash, F.Y.; Alkazaali, H.A. Effect of Grain Moisture of Corn at Harvesting on Some Agronomic Traits. The Iraqi Journal of Agricultural Sciences. 2016; 74(5): 4337–4331.
Kyrychenko V.V., Hurieva I. A., Kuzmyshyna N. V., Riabchun V.K., Chernobai L.M. Intensification of the use of the corn gene pool in heterosis breeding. Edited by NAAS Academician V. V. Kyrychenko, NAAS, Plant Production Institute named after V. Ya. Yuriev. Kharkiv, 2019. 326 p. [in Ukrainian]
Adamen F. F. Breeding and seed production is the basis of corn production in Ukraine. Selektsiia i Nassinytstvo. 1998; 80: 3–11. [in Ukrainian]
Satarova T.N. Maize: biotechnological and breeding aspects of haploidy [monograph] T. N. Satarova, V. Yu. Cherchel, A. V. Cherenkov. Dnipropetrovsk: Novaya Ideologiya, 2013. 552 p. [in Russian]
Kitaiova S. S., Ponurenko S. H., Chernobai L. M., Derkach I. B. 2013. The rate of moisture release by corn grain during ripening of hybrids of various ripeness groups. Selektsiia i Nassinytstvo. 2013; 104: 66–72. [in Ukrainian]
From variety to hybrid: corn breeding, seed production, technologies: monograph; ed. by NAAS Academician B.V. Dziubetskyi. Kyiv: Ahrarna Nauka, 2022. 260 p. [in Ukrainian]
Methodological guidelines for field and laboratory studies of corn genetic resources (2nd updated edition). I. A. Hurieva, V. K. Riabchun, P. P. Litun, et al. Kharkiv, 2003. 43 p. [in Ukrainian]
Lv, W.; Zhang, M.; Wang, Y.; Adhikari, B. Online measurement of moisture content, moisture distribution, and state of water in corn kernels during microwave vacuum drying using novel smart NMR/MRI detection system. Drying Technology. 2018; 36(13): 1592–1602. DOI: 10.1080/07373937.2017.1418751.
GOST 13586.5-93 Grain. Method for determination of moisture content. 1995. [in Russian]
Experimentation in agronomy: training. manual: in 2 books. Book 1. Theoretical aspects of experimentation/ A.O. Rozhkov, V.K. Puzik, S.M. Kalenska, et al.; ed. by A.O. Rozhkov. Kh.: Maidan, 2016. 316 p. [in Ukrainian]
Khoroshilov S. A. Genetic patterns of moisture loss by corn grain during ripening. Author's synopsis of the thesis for the Academic Degree of Candidate of Biological Sciences. Ramon 2006. 24 p. [in Russian]
Bybel Yu.A., Chernobai L.N., Ponurenko S.H., Kuzmyshyna N.V., Vakulenko S.N. Dynamics of grain moisture during ripening in corn lines of different ripeness groups. Selektsiia i Nassinytstvo. 2020; 117: 8–16. DOI: 10.30835/2413-7510.2020.206968 [in Ukrainian]
Guide classifier of the Zea mays species (2009). [in Ukrainian]
Hurieva I.A., Kuzmyshyna N.V. Geographical and botanical composition of the corn collection and its breeding value. Selektsiia i Nassinytstvo. 2003. 87: 83–94. [in Ukrainian]
Gonzalez, V.H.; Lee, E. A.; Lukens, L.N.; Swanton, C.J. The relationship between floret number and plant dry matter accumulation varies with early season stress in maize (Zea mays L.). Field Crops Research. 2019; 238: 129–138. https://doi.org/10.1016/j.fcr.2019.05.003.
Sikalova O.V. New starting material for the breeding of high-yielding maize hybrids. Selektsiia i Nassinytstvo. 2012; 101: 108–114. DOI: https://doi.org/10.30835/2413-7510.2012.59739 [in Ukrainian]
Загрузки
Опубликован
Выпуск
Раздел
Лицензия
Copyright (c) 2023 Yu. O. Bibel, L. M. Chernobai
Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.
При размещении текстов статей в электронных ресурсах авторские права сохраняются за автором печатной публикации.
Автор может не соглашаться с правками рецензентов и редакции, мотивируя при этом свою точку зрения.
Автор может требовать от редакции разъяснений или изменений в случае обнаружения существенных ошибок в его статье.
Автор может использовать материалы, опубликованные в журнале «Селекция и семеноводство» в своих работах, обязательно ссылаясь на наш журнал.
