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Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower

Authorized Users Only
2012
Authors
Balalić, Igor
Zorić, Miroslav
Branković, Gordana
Terzić, Sreten
Crnobarac, Jovan
Article (Published version)
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Abstract
Due to the presence of an interaction, it is often difficult to recommend which sunflower hybrids should be planted based on specific sowing dates or production regions. Through this study, the hybrid x sowing date (H x SD) interaction for sunflower oil content and oil yield was investigated in field trials by a multivariate and multiplicative statistic approach such as site regression (SREG) and partial least squares (PLS) regression model. For the environmental dissection of the H x SD interaction for oil content and oil yield, six climatic variables (minimum, maximum and mean temperature, precipitation, sunshine hours and relative air humidity) in four sunflower developmental stages (V4-6 leaves, R1-budding, R5.8-flowering, and R9-physiological maturity) were used. The three-way ANOVA for both traits indicated that all main effects and first order interactions were highly significant (P lt 0.01) except H x SD interaction for oil content which was significant (P lt 0.05). The sec...ond order interaction for both traits was nonsignificant. The oil content was predominantly influenced by the hybrid (69.6%) followed by the year (10.3%) and sowing date (6.8%), while the oil yield was predominantly influenced by the year (58.8%), followed by the sowing date (12.9%) and hybrid (10.7%). Statistical models revealed that the relative air humidity in flowering and physiological maturity stage, maximum temperature and mean temperature in the budding and flowering stage are the most important causes of the H x SD interaction for the oil content. The most important causes of the interaction for oil yield were relative air humidity in flowering and physiological maturity, maximum temperature, mean temperature, sunshine hours and precipitation in flowering stage.

Keywords:
Sunflower (Helianthus annuus L.) / Oil content / Oil yield / Hybrid x sowing date interaction / Climatic variables
Source:
Field Crops Research, 2012, 137, 70-77
Publisher:
  • Elsevier, Amsterdam
Funding / projects:
  • Development of new varieties and production technology improvement of oil crops for different purposes (RS-31025)

DOI: 10.1016/j.fcr.2012.08.005

ISSN: 0378-4290

WoS: 000312465600008

Scopus: 2-s2.0-84866985207
[ Google Scholar ]
30
20
URI
http://fiver.ifvcns.rs/handle/123456789/1085
Collections
  • Radovi istraživača / Researchers' papers
Institution/Community
FiVeR
TY  - JOUR
AU  - Balalić, Igor
AU  - Zorić, Miroslav
AU  - Branković, Gordana
AU  - Terzić, Sreten
AU  - Crnobarac, Jovan
PY  - 2012
UR  - http://fiver.ifvcns.rs/handle/123456789/1085
AB  - Due to the presence of an interaction, it is often difficult to recommend which sunflower hybrids should be planted based on specific sowing dates or production regions. Through this study, the hybrid x sowing date (H x SD) interaction for sunflower oil content and oil yield was investigated in field trials by a multivariate and multiplicative statistic approach such as site regression (SREG) and partial least squares (PLS) regression model. For the environmental dissection of the H x SD interaction for oil content and oil yield, six climatic variables (minimum, maximum and mean temperature, precipitation, sunshine hours and relative air humidity) in four sunflower developmental stages (V4-6 leaves, R1-budding, R5.8-flowering, and R9-physiological maturity) were used. The three-way ANOVA for both traits indicated that all main effects and first order interactions were highly significant (P  lt  0.01) except H x SD interaction for oil content which was significant (P  lt  0.05). The second order interaction for both traits was nonsignificant. The oil content was predominantly influenced by the hybrid (69.6%) followed by the year (10.3%) and sowing date (6.8%), while the oil yield was predominantly influenced by the year (58.8%), followed by the sowing date (12.9%) and hybrid (10.7%). Statistical models revealed that the relative air humidity in flowering and physiological maturity stage, maximum temperature and mean temperature in the budding and flowering stage are the most important causes of the H x SD interaction for the oil content. The most important causes of the interaction for oil yield were relative air humidity in flowering and physiological maturity, maximum temperature, mean temperature, sunshine hours and precipitation in flowering stage.
PB  - Elsevier, Amsterdam
T2  - Field Crops Research
T1  - Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower
EP  - 77
SP  - 70
VL  - 137
DO  - 10.1016/j.fcr.2012.08.005
UR  - conv_2282
ER  - 
@article{
author = "Balalić, Igor and Zorić, Miroslav and Branković, Gordana and Terzić, Sreten and Crnobarac, Jovan",
year = "2012",
abstract = "Due to the presence of an interaction, it is often difficult to recommend which sunflower hybrids should be planted based on specific sowing dates or production regions. Through this study, the hybrid x sowing date (H x SD) interaction for sunflower oil content and oil yield was investigated in field trials by a multivariate and multiplicative statistic approach such as site regression (SREG) and partial least squares (PLS) regression model. For the environmental dissection of the H x SD interaction for oil content and oil yield, six climatic variables (minimum, maximum and mean temperature, precipitation, sunshine hours and relative air humidity) in four sunflower developmental stages (V4-6 leaves, R1-budding, R5.8-flowering, and R9-physiological maturity) were used. The three-way ANOVA for both traits indicated that all main effects and first order interactions were highly significant (P  lt  0.01) except H x SD interaction for oil content which was significant (P  lt  0.05). The second order interaction for both traits was nonsignificant. The oil content was predominantly influenced by the hybrid (69.6%) followed by the year (10.3%) and sowing date (6.8%), while the oil yield was predominantly influenced by the year (58.8%), followed by the sowing date (12.9%) and hybrid (10.7%). Statistical models revealed that the relative air humidity in flowering and physiological maturity stage, maximum temperature and mean temperature in the budding and flowering stage are the most important causes of the H x SD interaction for the oil content. The most important causes of the interaction for oil yield were relative air humidity in flowering and physiological maturity, maximum temperature, mean temperature, sunshine hours and precipitation in flowering stage.",
publisher = "Elsevier, Amsterdam",
journal = "Field Crops Research",
title = "Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower",
pages = "77-70",
volume = "137",
doi = "10.1016/j.fcr.2012.08.005",
url = "conv_2282"
}
Balalić, I., Zorić, M., Branković, G., Terzić, S.,& Crnobarac, J.. (2012). Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower. in Field Crops Research
Elsevier, Amsterdam., 137, 70-77.
https://doi.org/10.1016/j.fcr.2012.08.005
conv_2282
Balalić I, Zorić M, Branković G, Terzić S, Crnobarac J. Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower. in Field Crops Research. 2012;137:70-77.
doi:10.1016/j.fcr.2012.08.005
conv_2282 .
Balalić, Igor, Zorić, Miroslav, Branković, Gordana, Terzić, Sreten, Crnobarac, Jovan, "Interpretation of hybrid x sowing date interaction for oil content and oil yield in sunflower" in Field Crops Research, 137 (2012):70-77,
https://doi.org/10.1016/j.fcr.2012.08.005 .,
conv_2282 .

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