Kirakosyan A, Kaufman P, Warber S, Zick S, Aaronson K, Bolling S, Chul Chang S (2004)
Applied environmental stresses to enhance the levels of polyphenolics in leaves of hawthorn
plants. Physiolo Plantarum 121:182– 186
Krejci Z )1952) Antibacterial action ofCanabis indica. Lek List 7(20):500– 503
Krejci Z (1970) Changes with maturation in amounts of biologically interesting substances of
Cannabis. In: Joyce CRB, Curry SH (eds) The botany and chemistry of Cannabis. Churchill,
London. Krjci 1952, p 49
Kusari P, Kusari S, Spiteller M, Kayser O (2013) Endophytic fungi harbored inCannabis sativa
L.: diversity and potential as biocontrol agents against host plant-specific phytopathogens.
Fungal Divers 60:137
Kusari P, Kusari S, Lamshöft M, Sezgin S, Spiteller M, Kayser O (2014) Quorum quenching is an
antivirulence strategy employed by endophytic bacteria. Appl Microbiol Biotechnol 98
(16):7173– 7183
Kusari P, Kusari S, Spiteller M, Kayser O (2015) Implications of endophyte-plant crosstalk in light
of quorum responses for plant biotechnology. Appl Microbiol Biotechnol 99(13):5383– 5390
Kuzel S, Vydra J, Triska J, Vrchotova N, Hruby M, Cigler P (2009) Elicitation of
pharmacologically active substances in an intact medical plant. J Agric Food Chem
57:7907– 7911
Lackman P, González-Guzmán M, Tilleman S, Carqueijeiro I, Pérez AC, Moses T, Seo M,
Kanno Y, Häkkinen ST, Van Montagu MCE (2011) Jasmonate signaling involves the abscisic
acid receptor PYL4 to regulate metabolic reprogramming in Arabidopsis and tobacco. PNAS
14:5891– 5896
Latta RP, Eaton BJ (1975) Seasonalfluctuations in cannabinoid content of Kansas marijuana. Econ
Bot 29:153– 163
Ledbetter MC, Krikorian AD (1975) Trichomes ofCannabis sativaas viewed with scanning
electron microscope. Phytomorphology 25:166– 176
Li WD, Hou JL, Wang WQ, Tang XM, Liu CL, Xing D (2011) Effect of water deficit on biomass
production and accumulation of secondary metabolites in roots ofGlycyrrhiza uralensis.
Russ J Plant Physiol 58:538– 542
Linden JC, Phisalaphong M (2000) Oligosaccharides potentiate methyl jasmonate-induced
production of paclitaxel inTaxus canadensis. Plant Sci 158:41– 51
Linger P, Ostwald A, Haensler (2005)Cannabis sativaL. growing on heavy metal contaminated
soil: growth, cadmium uptake and photosynthesis. J Biol Plant 49:567
Loreti E, Povero G, Novi G, Solfanelli C, Alpi A, Perata P (2008) Gibberellins, jasmonate and
abscisic acid modulate the sucrose-induced expression of anthocyanin biosynthetic genes in
Arabidopsis. New Phytol 179:1004– 1016
Lydon J (1985) The effects of Ultraviolet-B radiation on the growth, physiology and cannabinoid
production ofCannabis sativaL. Ph.D. Dissertation, University of Maryland
Mansouri H, Asrar Z (2012) Effects of abscisic acid on content and biosynthesis of terpenoids in
Cannabis sativaat vegetative stage. Biol Plant 56:153– 156
Mansouri H, Asrar Z, Szopa J (2009) Effects of ABA on primary terpenoids and
D9-etrahydrocannabinol inCannabis sativaL. at flowering stage. J Plant Growth Reg
58:269– 277
Marti G, Schnee S, Andrey Y, Simoes-Pires C, Carrupt PA, Wolfender JL, Gindro K (2014) Study
of leaf metabolome modifications induced by UV-C radiations in representative Vitis, Cissus
and Cannabis species by LC-MS based metabolomics and antioxidant assays. Molecules 19
(9):14004– 14021
Matsuda LA, Lolait SJ, Brownstein MJ, Young AC, Bonner TI (1990) Structure of a cannabinoid
receptor and functional expression of the cloned cDNA. Nature 346(6284):561– 564
Mayer BF, Ali-Benali MA, Demone J, Bertrand A, Charron JB (2015) Cold acclimation induces
distinctive changes in the chromatin state and transcript levels of COR genes inCannabis
sativavarieties with contrasting cold acclimation capacities. Physiol Plant 155(3):281– 295
McPartland JM (1984) Pathogenicity of Phomopsis ganjae onCannabis sativaand the fungistatic
effect of cannabinoids produced by the host. Mycopathologia 87:149– 154
21 Chemical and Physical Elicitation... 453