Biomedical Engineering Reference
In-Depth Information
93. Easson DL, Molloy RM. A study of the plant, fibre and seed development in flax and linseed
(Linum usitatissimum
L.) grown at a range of seed rates. J Agric Sci. 2000;135:361-9.
94. Foster R, Pooni HS, Mackay IJ. Quantitative evaluation of
Linum usitatissimum
varieties for
dual purpose traits. J Agric Sci. 1997;129(2):121-4.
95. Foster R, Pooni HS, Mackay IJ. Quantitative analysis of
Linum usitatissimum
crosses for
dual-purpose traits. J Agric Sci. 1997;131:285-92.
96. Foster R, Pooni HS, Mackay IJ. Quantitative analysis of
Linum usitatissimum
crosses for dual
purpose traits. J Agric Sci. 1998;131(3):285-92.
97. Sankari HS. Bast fibre content, fibre yield and fibre quality of different linseed genotypes.
Agric Food Sci Finland. 2000;9:79-87.
98. Sankari HS. Linseed (
Linum usitatissimum
L.) cultivars and breeding lines as stem biomass
producers. J Agron Crop Sci-Zeitschrift Fur Acker Und Pflanzenbau. 2000;184:225-31.
99. Foster R, Pooni HS, Mackay IJ. The potential of selected
Linum usitatissimum
L. crosses for
producing recombinant inbred lines with dual purpose characteristics. J Agric Sci. 2000;134
(4):399-404.
100. Scheer-Triebel M, Bartsch C. Selektion in fr¨hen Generationen des Leins in Hinblick auf das
Zuchtziel einer gleichzeitigen Nutzung von Faser und
¨
l. Die Bodenkultur. 1992; 43:
147-59. ISSN 0006-5471.
101. Keijzer P, Metz P. Breeding of flax for fibre production in Western Europe. In: Sharma HSS,
van Sumere C, editors. Biology and processing of flax. Belfast: M Publications; 1990.
p. 33-66.
102. Dimmock JPRE, Bennett SJ, Wright D, Edwards-Jones G, Harris IM. Agronomic evaluation
and performance of flax varieties for industrial fibre production. J Agric Sci. 2005;143:1-12.
103. Green AG. Genetic modification of seed fatty acid composition in
Linum usitatissimum
L. J
Aust Inst Agric Sci. 1986;52(3):175-6.
104. Green AG. The evaluation of Linola as a new oilseed crop for Australia. In: Proceedings of
6th Australian Society of agronomy conference. Armidale; 1992. p. 471-4
105. Dribnenki JCP, Mceachern SF, Green AG, Kenaschuk EO, Rashid KY. LinolaTM '1084'
low-linolenic acid flax. Can J Plant Sci. 1999;79(4):607-9.
106. Dribnenki JCP, Mceachern SF, Chen Y, Green AG, Rashid KY. LinolaTM '2047'
low-linolenic acid flax. Can J Plant Sci. 2003;83(1):81-3.
107. Dribnenki JCP, Mceachern SF, Chen Y, Green AG, Rashid KY. LinolaTM '2090'
low-linolenic acid flax. Can J Plant Sci. 2004;84(3):797-9.
108. Pavelek M, Tejklov´ E.
Linum usitatissimum
L., Linseed Amon. Czech J Genet Plant Breed.
2007;43(4):149-55.
109. Tejklov´ E, Bjelkov´ M, Pavelek M. Medium-linolenic linseed (
Linum usitatissimum
L.)
Raciol. Czech J Genet Plant Breed. 2011;47(3):128-30.
110. Pavelek M, Tejklov
´
E, Bjelkov
´
M. Results of linseed breeding in the Czech Republic. 61.
Tagung der Vereinigung der Pflfl anzenz¨chter und Saatgutkauflfleute
¨
sterreichs 2010, 1-3.
ISBN 978-3-902559-53-1, @ 2011.
111. Rosenberg L. Haploidn
´
rostliny
Linum usitatissimum
L. Len a konop
´
. 1974;2:107-14.
112. Nichterlein K, Nickel M, Umbach H, Friedt W. New methods and recent progress in the
breeding of flax. In: Proceedings of European regional workshop on flax. 2. Brno; 18-20 June
1991. p. 175-83.
113. Nichterlein K, Friedt W. Plant regeneration from isolated microspores of linseed (
Linum
usitatissimum
L.). Plant Cell Rep. 1993;12:426-30.
114. Bartoˇov´ Z, Pre
ˇ
ov´ A. Induction of callogenesis in ovary and anther cultures of flax. In:
Proceedings of the 10. scientific seminar. November 2003. Pieˇ
ˇ
any; 2003. p. 25-8.
115. Bartoˇov´ Z, Roux N, Pre
ˇ
ov´ A. Ovary culture in
Linum usitatissimum
L. In: Proceedings of
the XI international conference on plant embryology. Brno; Sept 2003. p. 116.
116. Bartoˇov´ Z, Roux N, Pre
ˇ
ov´ A. Green plants regenerated from ovary culture in flax (
Linum
usitatissimum
L.). In: Book of abstracts, 5th international symposium in the series recent
advances in plant biotechnology, Star´ Lesn´; 7-13 Sept 2003. p. 65.
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