REFERENCES
- Agegnehu M, Honermeler B 1997: Effects of seeding rates and nitrogen fertilization on seed yield, seed quality and yield components of false flax (Camelina sativa Crtz). Bodenkultur., 48, 15–20.
- Chapman DJ, De-Felice J, Barber J 1983: Growth temperature effects on thylakoid membrane lipid and protein content of pea chloroplasts. Plant Phys.,72, 225–228.
- Cherian G 2012: Camelina sativa in poultry diets: opportunities and challenges. In: Biofuel Co-products as Livestock Feed “Opportunities and Challenges”, Ed. Makkar HPS, pp. 303–651. Food and Agriculture Organization of the United Nations (FAO), Rome. http://www.fao.org/docrep/016/i3009e/i3009e00.htm (December, 2013)
- Crowley JG 1999: Evaluation of Camelina sativa as an Alternative Oilseed Crop. Crops Research Centre, Oak Park, Carlow. Teagasc, Dublin.
- Crowley JG, Frohlich A 1998: Factors affecting the composition and use of Camelina. Irish Agriculture and Food Development Authority. http://www.teagasc,ie/research/reports/crops/4319/eopr-4319.htm.
- Gugel RK, Falk KC 2006: Agronomic and seed quality evaluation of Camelina sativa in western Canada. Can. J. Plant Sci., 86, 1047–1058.
- Iba K 2002: Acclimative response to temperature stress in higher plants: approaches of gene engineering for temperature tolerance. Annu. Rev. Plant Biol.., 53, 225–245.
- Imbrea F, Jurcoane S, Halmajan HV, Duda ML 2011: Camelina sativa: A new source of vegetal oils. Rom. Biotechnol. Lett.., 16, 6263–6270.
- Johnson RR, Willmer CM, Moss DN 1975: Role of awns in photosynthesis, respiration, and transpiration of barley spikes. Crop Sci.,15, 217–221.
- Kariali E, Mohapatra PK 2007: Hormonal regulation of tiller dynamics in differentially-tillering rice cultivars. Plant Growth Regul., 53, 215–223.
- Koncius D, Karcauskiene D 2010: The effect of nitrogen fertilizers, sowing time and seed rate on the productivity of Camelina sativa. Zemdirbyste., 97, 37–46.
- Losak T, Hlusek J, Martinec J, Vollmann J, Peterka J, Filipeik R, Varga L, Ducsay D, Martensson A 2011: Effect of combined nitrogen and sulphur fertilization on yield and qualitative parameters of Camelina sativa [L.]Crtz. (false flax). Acta Agriculturae Scandinavica, Sect.B-Soil & Plant Sci., 61, 313–321.
- Losak T, Vollmann J, Hlusek J, Peterka J, Filipeik R, Praskova L 2010: Influence of combined nitrogen and sulphur fertilization on false flax (Camelina sativa [L.] Crtz.) yield and quality. Acta Alimentaria., 39, 431–444.
- Mohapatra PK, Masamoto Y, Morita S et al. 2004: Partitioning of 13C-labelled photosynthate varies with growth stages and panicle size in high yielding rice. Funct. Plant Biol., 31, 1–9.
- Mohapatra PK, Patel R, Sahu SK 1993: Time of flowering affects grain quality and spikelet partitioning within the rice panicle. Aust. J. Plant Physiol., 20, 231–241.
- Nobuyasu H, Liu S, Adu-Gyamfi JJ, Mohapatra PK, Fujita K 2003: Variation in the export of 13C and 15N from soybean leaf: the effects of nitrogen application and sink removal. Plant and Soil., 253, 331–339.
- Pan X, Lada R, Caldwell CD, Falk KC 2011: Photosynthetic and growth responses of Camelina sativa (L.) Crantz to varying nitrogen and soil water status. Photosynthetica., 49, 316–320.
- Passioura JB 2002: Environmental biology and crop improvement. Funct. Plant Biol., 29, 537–546.
- Patel R, Mohapatra PK 1996: Assimilate partitioning within floret components of contrasting rice spikelets producing qualitatively different types of grains. Aust. J. Plant Physiol., 23, 85–92.
- Putnam DH, Budin JT, Field LA, Breene WM 1993: Camelina: A promising low-input oilseed. In New crops, Eds. Janick J, Simon JE, pp. 314–322. Wiley, New York.
- Sawada O, Ito J, Fujita K 1995: Characteristics of photosynthesis and translocation of 13C-labelled photosynthate in the husk leaves of sweet corn. Crop Sci., 35, 480–485.
- Taiz L, Zieger E 2002: Plant Physiology. 3rd Edn. Sinauer Associates Inc. Publishers, Massachusetts, USA.
- Tanaka A, Fujita K 1974: Nutrio-physiological studies on tomato plant IV. Source sink relationship and structure of source-sink unit. Soil Sci. Plant Nut., 20, 305–315.
- Tanaka A, Fujita K 1980: Growth, photosynthesis and yield components in relation to grain yield of the field bean. J. Fac. Agr. Hokkaido Univ., 59, 145–238.
- Urbaniak SD, Caldwell CD, Zheljazkov VD, Lada R, Luan L 2008: The effect of cultivar and applied nitrogen on the performance of Camelina sativa L. in the Maritime Provinces of Canada. Can. J. Plant Sci., 88, 111–119.
- Vollmann J, Damboeck A, Eckl A, Schrems H, Ruckenbauer P 1996: Improvement of Camelina sativa, an underexploited oilseed. In Progress in new crops, Ed. Janick J, pp. 357–362. ASHS Press, Alexandria, VA.
- Vollmann J, Grausgruber H, Stift G, Dryzhyruk V, Lelley T 2005: Genetic diversity in Camelina germplasm as revealed by seed quality characteristics and RAPD polymorphism. Plant Breed., 124, 446–453.
- Vollmann J, Moritz T, Kargl C, Baumgartner S, Wagentriskl H 2007: Agronomic evaluation of Camelina genotypes selected for seed quality characteristics. Ind. Crops Prod., 26, 270–277.
- Wittkop B, Snowdon RJ, Friedt W 2009: Status and perspectives of breeding for enhanced yield and quality of oilseed crops for Europe. Euphytica., 170, 131–140.
- Yamada K, Sasakura A, Nishiwaki K, Shemy EL-, Mohapatra A, Nguyen PK, Kurosak Kanai NT, Ito J, Fujita K 2011: Effect of terminal locations of pods on biomass production and 13C partitioning in a fascinated stem soybean Shakujyo. J. Zhejiang Univ.-Sci. B Biomed. & Biotechnol., 12, 72–82.
- Yoshida S 1981: Fundamentals of rice crop science. International Rice Research Institute, Phippines.
- Zubr J 2003: Qualitative variation of Camelina sativa seed from different locations. Ind. Crops Prod., 17, 161–169.
- Zubr J 2009: Unique dietary oil from Camelina sativa seed. AgroFood Ind. Hi-tech., 20, 42–46.
- Zubr J, Matthäus B 2002: Effects of growth conditions on fatty acids and tocopherols in Camelina sativa oil. Ind. Crops Prod., 15, 155–162.