Winter camelina root characteristics and yield performance under contrasting environmental conditions

Winter camelina root characteristics and yield performance under contrasting environmental conditions

•Joelle winter camelina adapted well to diverse environmental conditions.•Above and belowground biomass was 1.7 times greater in Italy than USA.•Warmer Mediterranean winter temperatures promoted camelina productivity.•Seed yield and oil content were greater in Italy, but protein was greater in USA....

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Bibliographic Details
Published in:Field crops research Vol. 252; p. 107794
Main Authors: Zanetti, Federica, Gesch, Russ W., Walia, Maninder K., Johnson, Jane M.F., Monti, Andrea
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2020
Subjects:
Belowground biomass
Harvest index
Rooting depth
Seed oil content
Seed yield
Harvest index
Seed oil content
Rooting depth
Seed yield
Belowground biomass
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Summary:•Joelle winter camelina adapted well to diverse environmental conditions.•Above and belowground biomass was 1.7 times greater in Italy than USA.•Warmer Mediterranean winter temperatures promoted camelina productivity.•Seed yield and oil content were greater in Italy, but protein was greater in USA. A need exists across Europe and the USA for alternative crops to help diversify agricultural systems and promote ecosystem services. Winter camelina is a multipurpose oilseed crop that can be incorporated with staple crops to add biodiversity and other environmental benefits. Little is known about winter camelina productivity across diverse environments, and even less is known about its rooting characteristics under different soils and climates. Therefore, a field study was conducted at Bologna Italy and Morris, Minnesota USA over two growing seasons while applying two seeding rates (500 and 250 seeds m−2) and two sowing dates (early and late) to evaluate the above and belowground productivity of Joelle winter camelina. Winter camelina growth was highly influenced by environmental conditions. Seed yield and oil content were considerably greater at Bologna, averaging 1518 kg ha-1 and 419 g kg-1, respectively, as compared with Morris, which averaged 743 kg ha-1 and 385 g kg-1 during the study. The milder climate of northern Italy was associated with prolonged vegetative growth during winter resulting in root and shoot biomass 1.7-fold greater than in Morris. Plant density at harvest tended to be greater at Bologna but had a negligible effect on productivity at either location. Sowing date only affected seed oil content at Morris, where it was greater in the later sowing. Results confirmed that winter camelina is highly adaptable and can serve as a viable crop in a Mediterranean as well as temperate climate.
ISSN:0378-4290
1872-6852
DOI:10.1016/j.fcr.2020.107794