This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Baskin, C.C. and J.M. Baskin (2014): Seeds: Ecology, Biogeography, and Evolution of Dormancy and Germination. 2nd ed., Academic Press, San Diego, USA.BaskinC.C.BaskinJ.M.2014Seeds: Ecology, Biogeographyand Evolution of Dormancy and Germination2ndAcademic PressSan Diego, USASearch in Google Scholar
Baskin, J.M. and C.C. Baskin (2004): A classification system for seed dormancy. Seed Science Research 14, 1–16.BaskinJ.M.BaskinC.C.2004A classification system for seed dormancySeed Science Research1411610.1079/SSR2003150Search in Google Scholar
Bauböck, R., Karpenstein-Machan, M. and M. Kappas (2014): Computing the biomass potentials for maize and two alternative energy crops, triticale and cup plant (Silphium perfoliatum L.), with the crop model Bio-STAR in the region of Hannover (Germany). Environmental Sciences Europe 26, 1–12.BauböckR.Karpenstein-MachanM.KappasM.2014Computing the biomass potentials for maize and two alternative energy crops, triticale and cup plant (Silphium perfoliatum L.), with the crop model Bio-STAR in the region of Hannover (Germany)Environmental Sciences Europe2611210.1186/s12302-014-0019-0Search in Google Scholar
Bewley, J.D. (1997): Seed Germination and Dormancy. The Plant Cell 9, 1055–1066.BewleyJ.D.1997Seed Germination and DormancyThe Plant Cell91055106610.1105/tpc.9.7.1055Search in Google Scholar
Daniel, P. and R. Rompf (1994): Possibilities and limits in the utilization of Silphium perfoliatum as a fodder plant, renewable raw material and a landscape conservation plant. Agribiological research 47, 345–353.DanielP.RompfR.1994Possibilities and limits in the utilization of Silphium perfoliatum as a fodder plant, renewable raw material and a landscape conservation plantAgribiological research47345353Search in Google Scholar
Finch-Savage, W.E. and G. Leubner-Metzger (2006): Seed dormancy and the control of germination. New Phytologist 171, 501–523.Finch-SavageW.E.Leubner-MetzgerG.2006Seed dormancy and the control of germinationNew Phytologist17150152310.1111/j.1469-8137.2006.01787.xSearch in Google Scholar
Franzaring, J., Holz, I., Kauf, Z. and A. Fangmeier (2015): Responses of the novel bioenergy plant species Sida hermaphrodita (L.) Rusby and Silphium perfoliatum L. to CO2 fertilization at different temperatures and water supply. Biomass and Bioenergy 81, 574–583.FranzaringJ.HolzI.KaufZ.FangmeierA.2015Responses of the novel bioenergy plant species Sida hermaphrodita (L.) Rusby and Silphium perfoliatum L. to CO2 fertilization at different temperatures and water supplyBiomass and Bioenergy8157458310.1016/j.biombioe.2015.07.031Search in Google Scholar
Franzaring, J., Schmid, I., Bäuerle, L., Gensheimer, G. and A. Fangmeier (2014): Investigations on plant functional traits, epidermal structures and the ecophysiology of the novel bioenergy species Sida hermaphrodita Rusby and Silphium perfoliatum L. Journal of Applied Botany and Food Quality 87, 36–45.FranzaringJ.SchmidI.BäuerleL.GensheimerG.FangmeierA.2014Investigations on plant functional traits, epidermal structures and the ecophysiology of the novel bioenergy species Sida hermaphrodita Rusby and Silphium perfoliatum LJournal of Applied Botany and Food Quality873645Search in Google Scholar
Gansberger, M., Montgomery, L.F.R. and P. Liebhard (2015): Botanical characteristics, crop management and potential of Silphium perfoliatum L. as a renewable resource for biogas production: a review. Industrial Crops and Products 63, 362–372.GansbergerM.MontgomeryL.F.R.LiebhardP.2015Botanical characteristics, crop management and potential of Silphium perfoliatum L. as a renewable resource for biogas production: a reviewIndustrial Crops and Products6336237210.1016/j.indcrop.2014.09.047Search in Google Scholar
ISTA (2015): International Rules for Seed Testing 2015. Chapter 5: The germination test. i–5-56.ISTA2015International Rules for Seed Testing 20155The germination testi556Search in Google Scholar
Hilhorst, H.W.M. (1995): A critical update on seed dormancy. I. Primary dormancy. Seed Science Research 5, 61–73.HilhorstH.W.M.1995A critical update on seed dormancy. I. Primary dormancySeed Science Research5617310.1017/S0960258500002634Search in Google Scholar
Hilhorst, H.W.M. (1998): The regulation of secondary dormancy. The membrane hypothesis revisited. Seed Science Research 8, 77–90.HilhorstH.W.M.1998The regulation of secondary dormancy. The membrane hypothesis revisitedSeed Science Research8779010.1017/S0960258500003974Search in Google Scholar
Koornneef, M., Bentsink, L. and H. Hilhorst (2002): Seed dormancy and germination. Current Opinion in Plant Biology 5, 33–36.KoornneefM.BentsinkL.HilhorstH.2002Seed dormancy and germinationCurrent Opinion in Plant Biology5333610.1016/S1369-5266(01)00219-9Search in Google Scholar
Kowalski, R. and B. Kędzia (2007): Antibacterial activity of Silphium perfoliatum extracts. Pharmaceutical Biology 45, 494–500.KowalskiR.KędziaB.2007Antibacterial activity of Silphium perfoliatum extractsPharmaceutical Biology4549450010.1080/13880200701389409Search in Google Scholar
Kowalski, R. and T. Wolski (2005): The chemical composition of essential oils of Silphium perfoliatum L. Flavour and Fragrance Journal 20, 306–310.KowalskiR.WolskiT.2005The chemical composition of essential oils of Silphium perfoliatum LFlavour and Fragrance Journal2030631010.1002/ffj.1418Search in Google Scholar
Kucera, B., Cohn, M.A. and G. Leubner-Metzger (2005): Plant hormone interactions during seed dormancy release and germination. Seed Science Research 15, 281–307.KuceraB.CohnM.A.Leubner-MetzgerG.2005Plant hormone interactions during seed dormancy release and germinationSeed Science Research1528130710.1079/SSR2005218Search in Google Scholar
Long, R.L., Gorecki, M.J., Renton, M., Scott, J.K., Colville, L., Goggin, D.E., Commander, L.E., Westcott, D.A., Cherry, H. and W.E. Finch-Savage (2014): The ecophysiology of seed persistence: a mechanistic view of the journey to germination or demise. Biological Reviews of the Cambridge Philosophical Society 90, 31–59.LongR.L.GoreckiM.J.RentonM.ScottJ.K.ColvilleL.GogginD.E.CommanderL.E.WestcottD.A.CherryH.Finch-SavageW.E.2014The ecophysiology of seed persistence: a mechanistic view of the journey to germination or demiseBiological Reviews of the Cambridge Philosophical Society90315910.1111/brv.1209524618017Search in Google Scholar
Mast, B., Lemmer, A., Oechsner, H., Reinhardt-Hanisch, A., Claupein, W. and S. Graeff-Hönninger (2014): Methane yield potential of novel perennial biogas crops influenced by harvest date. Industrial Crops and Products 58, 194–203.MastB.LemmerA.OechsnerH.Reinhardt-HanischA.ClaupeinW.Graeff-HönningerS.2014Methane yield potential of novel perennial biogas crops influenced by harvest dateIndustrial Crops and Products5819420310.1016/j.indcrop.2014.04.017Search in Google Scholar
Neumerkel, W. and B. Märtin (1982): Silphium (Silphium perfoliatum L.) - a new feed plant. Archives of Agronomy and Soil Science 26, 261–271.NeumerkelW.MärtinB.1982Silphium (Silphium perfoliatum L.) - a new feed plantArchives of Agronomy and Soil Science26261271Search in Google Scholar
Niqueux, M. (1981): A new forage plant: Silphium perfoliatum L. Fourrages 87, 119–136.NiqueuxM.1981A new forage plantSilphium perfoliatum L. Fourrages87119136Search in Google Scholar
Oh, E., Yamaguchi, S., Kamiya, Y., Bae, G., Chung, W.I. and G. Choi (2006): Light activates the degradation of PIL5 protein to promote seed germination through gibberellin in Arabidopsis. The Plant Journal 47, 124–139.OhE.YamaguchiS.KamiyaY.BaeG.ChungW.I.ChoiG.2006Light activates the degradation of PIL5 protein to promote seed germination through gibberellin in ArabidopsisThe Plant Journal4712413910.1111/j.1365-313X.2006.02773.x16740147Search in Google Scholar
Sokolov, V.S. and Z.I. Gritsak (1972): Silphium – a valuable fodder and nectariferous crop. World Crops 24, 299–301.SokolovV.S.GritsakZ.I.1972Silphium – a valuable fodder and nectariferous cropWorld Crops24299301Search in Google Scholar
Trölenberg, S.D., Kruse, M. and A. Jonitz (2012): Verbesserung der Saatgutqualitätbei der Durchwachsenen Silphie (Silphium perfoliatum L.). VDLUFA-Verlag, Darmstadt, Germany.TrölenbergS.D.KruseM.JonitzA.2012Verbesserung der Saatgutqualitätbei der Durchwachsenen Silphie (Silphium perfoliatum L.)VDLUFA-VerlagDarmstadt, GermanySearch in Google Scholar
Troxler, J. and R. Daccord (1982): Silphium perfoliatum L.: An interesting fodder? Revue Suisse d’Agriculture 14, 279–281.TroxlerJ.RDaccord.1982Silphium perfoliatum L.: An interesting fodder?Revue Suisse d’Agriculture14279281Search in Google Scholar
Vetter, A., Conrad, M. and A. Biertümpfel (2010): Optimierung des Anbauverfahrens für Durchwachsene Silphie (Silphium perfoliatum L.) als Kofermentpflanze in Biogasanlagen sowie Überführung in die landwirtschaftliche Praxis. Thüringer Landesanstalt für Landwirtschaft, Jena, Germany.VetterA.ConradM.BiertümpfelA.2010Optimierung des Anbauverfahrens für Durchwachsene Silphie (Silphium perfoliatum L.) als Kofermentpflanze in Biogasanlagen sowie Überführung in die landwirtschaftliche PraxisThüringer Landesanstalt für LandwirtschaftJenaGermanySearch in Google Scholar
Zhang, X., Xia, H., Li, Z., Zhuang, P. and B. Gao (2010): Potential of four forage grasses in remediation of Cd and Zn contaminated soils. Bioresource Technology 101, 2063–2066.ZhangX.XiaH.LiZ.ZhuangP.GaoB.2010Potential of four forage grasses in remediation of Cd and Zn contaminated soilsBioresource Technology1012063206610.1016/j.biortech.2009.11.06520005700Search in Google Scholar
