Page 241 - Plant-Based Remediation Processes
P. 241
11 Flax (Linum usitatissimum L.) and Hemp (Cannabis sativa L.)... 233
ˇ
Fojta M, Fojtova M, Havran L, Pivon ˇkova H, Dorc ˇa ´kV, Sesta ´kova ´ I (2006) I. Electrochemical
monitoring of phytochelatin accumulation in Nicotiana tabacum cells exposed to sub-cytotoxic
and cytotoxic levels of cadmium. Anal Chim Acta 558:171–178
Fu YB (2005) Geographic patterns of RAPD variation in cultivated flax. Crop Sci 45:1084–1091
Gambus H, Mikulec A, Gambus F, Pisulewski P (2004) Perspectives of linseed utilization in
baking. Pol J Food Nutr Sci 13(54):21–27
Gaudchau M, Marquard R (1990) Untersuchungen zum cadmium-Gehalt von zwei Leinsorten in
Abha ¨ngigkeit von der Bodenkontamination. VDLUFA—Schriftenreihe 32:867–873
Gaudchau M, Schneider M (1996) Investigation of heavy metal accumulation in various medicinal
plants and linseed. Beitr Zu ¨chtungsforsch 2:381–384
Gill KS (1987) Linseed. Indian Council of Agricultural Research, New Delhi
Gilmore S, Peakall R (2003) Isolation of microsatellite markers in Cannabis sativa L. (marijuana).
Mol Ecol Notes 3:105–107
Gorlach E (1994) Phytoavailability of heavy metals as affected by liming and plant species. Pol J
Soil Sci XXVII:59–67
Gorlach E, Gambus ´ F (1992) A comparison of sensitivity to the toxic action of heavy metals in
various plant species. Pol J Soil Sci XXV:207–213
Grabowska L, Baraniecki P (1997) Three year results on utilization of soil polluted by copper-
producing industry. Nat Fibres (Spl edn.): 123–132
Grant CA, Bailey LD (1997) Effects of phosphorus and zinc fertilizer management on cadmium
accumulation in flaxseed. J Sci Food Agric 73:307–314
Grant CA, Buckley WT, Bailey LD, Selles F (1998) Cadmium accumulation in crops. Can J Plant
Sci 78:1–17
Grant CA, Dribnenki JCP, Bailey LD (2000) Cadmium and zinc concentrations and ratios in
seed and tissue of solin (cv. Linola™ 947) and flax (cvs. McGregor and Vimy) as affected by
nitrogen and phosphorus fertiliser and provide (Penicillium bilaji). J Sci Food Agric 80:
1735–1743
Grant CA, Monreal MA, Irvine RB, Mohr RM, McLaren DL, Khakbazan M (2010) Preceding crop
and phosphorus fertilization affect cadmium and zinc concentration of flaxseed under conven-
tional and reduced tillage. Plant Soil 333:337–350
Griga M, Bjelkova ´ M, Tejklova ´ E (2003a) Potential of flax (Linum usitatissimum L.) for heavy
metal phytoextraction and industrial processing of contaminated biomass – a review. In:
Mench MJ, Mocquot B (eds) Risk assessment and sustainable land management using plants
in trace element-contaminated soils. Centre INRA Bordeaux - Aquitaine, Villenave d’Ornon,
France, pp 174–180
Griga M, Bjelkova ´ M, Tejklova ´ E (2003b) Phytoextraction of heavy metals by fibre crops: Linum
usitatissimum L. case study. In: Proceedings of 2nd European bioremediation conference,
Chania, Crete, pp 337–340
Grzebisz W, Chudzinski B, Diatta JB, Barlog P (1997a) Phytoremediation of soils contaminated
by copper smelter activity. Part I – Evaluation of soils contaminated by heavy metals. Nat
Fibres (Spl edn.): 111–117
Grzebisz W, Chudzinski B, Diatta JB, Barlog P (1997b) Phytoremediation of soils contaminated
by copper smelter activity. Part II – Usefulness of non-consumable crops. Nat Fibres (Spl edn.):
118–122
Helal HM, Rietz E, Sauerbeck D (1991) Aufnahme und Verlagerung von Schwermetallen in
Leinpflanzen. VDLUFA—Schriftenreihe 33:757–760
Heyn J, Janssen E (1991) Ergebnisse eines Gefa ¨ssversuches zur Reduzierung des Cd-Gehaltes in
¨
Ollein (Linum usitatissimum). VDLUFA—Schriftenreihe 33:761–766
Hillig KW (2005) Genetic evidence for speciation in cannabis (Cannabaceae). Genet Res Crop
Evol 52:161–180
Hocking PJ, McLaughlin MJ (2000) Genotypic variation in cadmium accumulation by seed of
linseed, and comparison with seeds of some other crop species. Aust J Agric Res 51:427–433