Ethnobotany and phytochemistry of plants dominant in salt marshes of the Lower Saxonian Wadden Sea, southern North Sea
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Abdel-Mogib, M. (2001): New 9,10-dihydrophenanthrene derivative from twoJuncus species. — Alexandria Journal of Pharmaceutical Science,15: 13–14.
Abegaz, B. &Yohannes, P.G. (1982): Constituents of the essential oilArtemisia rehan. — Phytochemistry,21: 1791–1793.
Adrian-Romero, M., Wilson, S.J., Blunden, G., Yang, M.-H., Carabot-Cuervo, A. &Bashir, A.K. (1998): Betaines in coastal plants. — Biochemical Systematics and Ecology,26: 535–543.
van Agtmael, M., Bouchaud, O., Malvy, D., Delmont, J., Dennis, M., Barette, S., Gras, C., Bernard, J., Touze, J.E., Gathmann, I. &Mull, R. (1999): The comparative efficacy and tolerability of CGP 56697 (artemether + lumefantrine) versus halofantrine in the treatment of uncomplicated falciparum malaria in travellers returning from the Tropics to The Netherlands and France. — International Journal of Antimicrobial Agents,12: 159–169.
van Agtmael, M., Eggelte, T.A. &van Boxtel, C.J. (1999): Artemisinin drugs in the treatment of malaria: from medicinal herb to registered medication. — Trends in Pharmacological Sciences,20: 199–205.
Ahmad, R. andMalik, K.A. (Eds), (1999): Prospects for Saline Agriculture. — 480 pp.; Berlin (Springer Verlag).
Ahmad, I., Larher, F. &Stewart, G.R.S. (1979): Sorbitol, a compatible osmotic solute inPlantago maritima. — New Phytologist,82: 671–678.
Ahmad, I., Larher, F. &Stewart, F.R. (1981): The accumulation of Δ′-acetylornithine and other solutes in the salt marsh grassPuccinellia maritima. — Phytochemistry,20: 1501–1504.
Aldunate, C., Armesto, J.J., Castro, V. &Villagrán, C. (1983): Ethnobothany of pre-altiplanic community in the Andes of North Chile. — Economic Botany,37: 120–135.
Al-Harbi, M.M., Qureshi, S., Ahmed, M.M., Raza, M., Miana, G.A. &Shah, A.H. (1994): Studies on the antiinflammatory, antipyretic and analgesic activities of santonin. — Japanese Journal of Pharmacology,64: 135–139.
Ali-Shtayeh, M.S., Yaniv, Z. &Mahajna, J. (2000): Ethnobotanical survey in the Palestinian area: a classification of the healing potential of medicinal plants. — Journal of Ethnopharmacology,73: 221–232.
Ali-Shtayeh, M.S., Yaniv, Z. &Mahajna, J. (2002): Reconstructed materia medica of the Medieval and Ottoman al-Sham. — Journal of Ethnopharmacology,80: 167–179.
Al-Meshal, I.A., Mossa, J.S., Al-Yaya, M.A., Khatibi, A. &Hammouda, Y. (1982): Phytochemical and biological screening of Saudi medicinal plants. Part I. — Fitoterapia,53: 79–85.
Al-Shamma, A. &Mitscher, L.A: (1979): Comprehensive survey of indigenous Iraqui plants for potential economic value. I. Screening results of 327 species for alkaloids and antimicrobial agents. — Journal of Natural Products,42: 633–642.
Al-Yahya, M.A., Al-Meshal, I.A., Mossa, J.S., Khatibi, A. &Hammouda, Y. (1983): Phytochemical and biological screening of Saudi medicinal plants. Part II. — Fitoterapia,54: 21–24.
Andrzejewska-Golec, E. &Swiatek, L. (1984): Chemotaxonomic studies on the genusPlantago. — Herba Polonica,30: 9–16.
Anet, E.F.,Lythgoe, J.B.,Silk, M.H. &Trippett, S. (1953): Oenanthotoxin and cicutoxin. Isolation and structures. Journal of the Chemical Society: 309–322.
Anger, J.P., Anger, F., Chauvel, Y., Girre, R.L. Curtes, N. &Curtes, J.P. (1976): Intoxication mortelle par Oenanthe safranéeOenanthe crocata). — European Journal of Toxicology and Environmental Hygiene,9: 119–125.
Arakawa, Y., Asada, Y., Ishida, H., Chiji, H. &Izawa, M. (1982): Structures of new two isoflavones and one flavanone from glass-wort (Salicornia europaea L.). — Journal of the Faculty of Agriculture Hokkaido University,61: 1–12.
Arakawa, Y., Chiji, H. &Izawa, M. (1983): Structural elucidation of two new chromones isolated from glasswort (Salicornia europaea L.). — Agricultural and Biological Chemistry,47: 2029–2034.
Arnason, T., Hebda, R.J. &Johns, T. (1981): Use of plants for food and medicine by native peoples of Eastern Canada. — Canadian Journal of Botany,59: 2189–2325.
Aslam, Z. (1999):Aster tripolium: A winter forage: Introduction for salt-affected soils. In:Hamdy, A.,Lieth, H.,Todorovtć, M. &Moschenko, M. (Eds), Halophyte Uses in Different Climates. Progress in Biometeorology14: 95–103. Leiden (Backhuys Publishers).
Austenfeld, F.-A. (1986): Nutrient reserves ofSalicornia europaea seeds. — Physiologia Plantarum,68: 446–450.
Bärlocher, F. &Newell, S.Y. (1994): Phenolics and proteins affecting palatability ofSpartina leaves to the gastropodLittoraria irrorata. — Marine Ecology,15: 65–75.
Baker, J.T., Borris, R.B., Carté, B., Cordell, G.A., Soejarto, D.D., Cragg, G.M., Gupta, M.P., Iwum, M., Madulid, D.R. &Tyler, V.E. (1995): Natural product drug discovery and development: New perspectives on international collaboration. — Journal of Natural Products58: 1325–1357.
Balandrin, M.F., Klocke, J.A., Wurtele, E.S. &Bollinger, W.H. (1985): Natural plant chemicals: sources of industrial and medicinal materials. — Science,228: 1154–1160.
Balasubramanian, R., Schmidt, A. &Papenbrock, J. (2001): Investigation of sulfolipid contents and their rate of biosynthesis in halophytes treated with different salt concentrations. — Developments in Plant Soil Science,92: 434–435.
Balint, G.A. (2001): Artemisinin and its derivatives: an important new class of antimalarial agents. — Pharmacology and Therapeutics,90: 261–265.
Bandoni, A.L., Mendiondo, M.E., Rondina, R.V.D. &Coussio, J.D. (1976): Survey of Argentine medicinal plants — Folklore and phytochemical screening. II. — Economic Botany,30: 161–185.
Banthorpe, D.V., Baxerndale, D., Gatford, C. &Williams, S.R. (1971): Monoterpenes of someArtemisia andTanacetum species grown in England. — Planta Medica,20: 147–152.
Barton, D.H.R. &Overton, K.H. (1955): Triterpenoids. Part XX. The constitution and stereochemistry of a novel tetracyclic triterpenoid. — Journal of the Chemical Society Perkin Transactions I, 2639–2652.
Barrett, T., Suresh, C.G., Tolley, S.P., Dodson, E.J: &Hughes, M.A. (1995): The crystal structure of a cyanogenic ß-glucosidase from white clover, a family 1 glycosyl hydrolase. — Structure,3: 951–960.
Bastien, J,W. (1982): Herbal curing by Quollahuaya Andeans. — Journal of Ethnopharmacology,6: 13–28.
Baztan, J.M., Rebuelta, M. &Vivas, J.M. (1981): Aislamiento e indentificación de derivados flavónicos delOnonis spinosa L. — Anales de la Real Academia de Farmacia,47: 303–310.
Beerhues, L. &Berger, U. (1994): Xanthones in cell suspension cultures of twoCentaurium species. — Phytochemistry,35: 1227–1232.
Beier, R.C. &Oertli, E.H. (1983): Psoralen and other linear furanocoumarins as phytoalexins in celery. — Phytochemistry,22: 2595–2598.
Belal, I.E.H. &Al-Dosari, M. (1999): Replacement offish meal withSalicornia meal in feeds for Nile tilapiaOreochromis niloticus. — Journal of the World Aquaculture Society,30: 285–289.
Bhakuni, R.S., Jain, D.C., Sharma, R.P. &Kumar, S. (2001): Secondary metabolites ofArtemisia annua and their biological activity. — Current Science,80: 35–48.
Bianco, A., Bolli, D. &Passacantilli, P. (1981a): A new iridoid ester: the 2′-0-benzoylaucubin. — Gazzetta Chimica Italiana,111: 479–482.
Bianco, A., Bolli, D. &Passacantilli, P. (1981b): Two new iridoid glycosides fromOdontites verna. — Gazzetta Chimica Italiana,111: 91–93.
Bianco, A., Francesconi, A. &P. Passacantilli, P. (1981c): Iridoid glucosides fromOdontites verna. — Phytochemistry,20: 1421–1422.
Bianco, A. & P.Passacantilli, P. (1981): 8-Epiloganin, an iridoid glucoside fromOdontites verna. — Phytochemistry,20: 1873–1876.
BiBi, H., Anwer, S., Miana, G.A., Ahmad, S. &Atta-ur-Rahman (2000): Two new triterpene lactones fromCentaurium pulchellum. — Fitoterapia,71: 130–133.
Bibi, H., I. Ali, M., Choudhary, I. &Miana, G.A. (2004):13C-NMR data of tetraoxygenated xanthones fromCentaurium pulcbellum Druce. — Journal of the Chemical Society of Pakistan,26: 400–403.
Blindow, H. (1987): Frieslands Salzwiesen Bedeutung und Schutz. — 93 pp.; Jever (C.L. Mettcker & Söhne).
Bohlmann, F., Burkhardt, T. &Zdero, C. (1973): Naturally Occurring Acetylenes. — 547 pp.; New York (Academic Press).
Bolle, P., Faccendini, P., Bello, U., Panziroi, C. &Tita, B. (1993):Ononis spinosa L.: pharmacological effect of ethanol extract. — Pharmacological Research,27: 27–28.
Borges-Argaez, R., Pena-Rodriguez, L.M &Waterman, P.G: (2000): Flavonoids from the stem bark ofLonchocarpus xuul. — Phytochemistry,54: 611–614.
Bork, P.M., Schmitz, M.L., Kuhnt, M., Escher, C. &Heinrich, M. (1997): Sesquiterpene lactone containing Mexican Indian medicinal plants and pure sesquiterpene lactones as potent inhibitors of transcription factor NF-kB. — FEBS Letters,402: 85–90.
Borkowski, B. &Drost, K. (1965): Alkaloide ausSalicornia herbacea L. — Pharmazie,20: 390–393.
Borsani, O., Valpuesta, V. &Botella, M.A. (2003): Developing salt tolerant plants in a new century: a molecular biology approach. — Plant, Cell, Tissue and Organ Culture,73: 101–115.
Borsutzki, H. (1954): Beitrag zur chemischen Kenntnisder Artemisia maritima L. — Ph.D. Thesis Universität Halle.
Borsutzki, H. (1955): Beitrag zur chemischen Kenntnis derArtemisia maritima L. — Archiv für Pharmazie,288: 336–340.
BOSTID —Board on Science and Technology for International Development (1990): Saline Agriculture: Salt-Tolerant Plants for Developing Countries. — 130 pp.; Washington, DC (National Academy Press).
Bouchereau, A., Duhazé, C., Martin-Tanguy, J., Guégan, J.-P. &Larher, F. (1999). Improved analytical methods for determination of nitrogenous stress metabolites occurring inLimonium species. — Journal of Chromatography A,836: 209–221.
Bouillant, M.L., Ferreres de Arce, F., Favre-Bonvtn, J., Chopin, J., Zoll, A, &Mathieu, G. (1984): Structural determination of 6-C-diglycosyl-8-glycosylflavones and 6-C-diglycosylflavones by mass spectrometry of their permethyl ethers. — Phytochemistry,23: 2653–2658.
Bown, D. (1995): Encyclopaedia of Herbs and their Uses. — 424 pp.; London (Dorling Kindersley).
Brevoot, P. (1997): The current status of the U.S. botanical market. — Abstracts, II World Congress on Medicinal and Aromatic Plants for Human Welfare. November 10–15, 1997. Mendoza, Argentine.
Briens, M. &Larher, F. (1983): Sorbitol accumulation in Plantaginaceae; further evidence for a function in stress tolerance. — Zeitschrift für Pflanzenphysiologie,110: 447–458.
Briens, M. &Larher, F. (1982): Osmoregulation in halophytic higher plants: a comparative study of soluble carbohydrates, polyols, betaines and free proline. — Plant, Cell and Environment,5: 287–292.
Brøndegaard, V.J. (1972):Artemisia in der gynäkologischen Volksmedizin. — Ethnomedizin,2: 3–16.
Brooks, R. I. &Pearson, A.M. (1986): Steroid hormone pathways in the pig: with special emphasis on boar odor: A review. — Journal of Animal Science,62: 632–645.
Brown, J.J. &Glenn, E.P. (1999): Reuse of highly saline aquaculture effluent to irrigate a potential forage halophyte,Suaeda esteroa. — Aquacultural Engineering,20: 91–111.
Brown, J.J. &Glenn, E.P., Fitzsimmons, K.M. &Smith, S.E. (1996): Growth, water use and salt uptake of four halophytes irrigated with highly saline water. — Journal of Arid Environments,32: 141–159.
Brown, J.J. &Glenn, E.P., Fitzsimmons, K.M. &Smith, S.E. (1999): Halophytes for the treatment of saline aquaculture effluent. — Aquaculture,175: 255–268.
Budincevic, M., Vrbaški, Z., Turkulov, J. &Dimic, E. (1995): Antioxidant activity ofOenothera biennis L. — Fat Science Technology,97: 277–280. 8033
Burghardt, F., Proksch, P. &Fiedler, K. (2001): Flavonoid sequestration by the common blue butterflyPolyommatus icarus: quantitative intraspecific variation in relation to larval hostplant, sex and body size. — Biochemical Systematica and Ecology,29: 875–889.
Cappelletti, E.M., Trevisan, R. &Caniato, R. (1982): External antirheumatic and antineuralgic herbal remedies in the traditional medicine of North-Eastern Italy. — Journal of Ethnopharmacology,6: 161–190.
Carvalho, C.F., Sargent, M.V. &Stanojevic, E. (1984): Phenan-threne synthesis: The synthesis of effusol, a 9,10-dihydrophenan-threne from the marsh grassJuncus effusus. — Australian Journal of Chemistry,37: 2111–2117.
Cavalieri, A.J. &Huang, A.H.C. (1979): Evaluation of proline accumulation in the adaptation of diverse species of marsh halophytes to the saline environment. — American Journal of Botany,66: 307–312.
Chakravarty, A. K., Das, B. &Pakrashi, S.C. (1987): Triterpenoid prosaponins from leaves ofMaesa chisi var.angustifolia. — Phytochemistry,26: 2345–2350.
Chan-Bacab, M.J. &Peña-Rodríguez, L.M. (2001): Plant natural products with leishmanicidal activity. — Natural Products Reports,18: 674–688.
Chandler, R. F. &Hooper, S.N. (1979a): Herbal remedies of the maritime Indians: A preliminary screening. Part I. — Canadian Journal of Pharmaceutical Sciences,14: 103–106.
Chandler, R. F. &Hooper, S.N. (1979b): Herbal remedies of the maritime Indians: A preliminary screening. Part III. — Journal of Ethnopharmacology,6: 275–285.
Chandler, R.F., Freeman, L. &Hooper, S.N. (1979): Herbal remedies of the maritime Indians. — Journal of Ethnopharmacology,1: 49–68.
Chanphen, R., Y.Thebtaranonth, Y., Wanauppathamkul, S. &Yuthavong, Y. (1998): Antimalarial principles fromArtemisia indica. — Journal of Natural Products,61: 1146–1147.
Chapelle, J.P. (1973): Isolement de derives seco-iridoidesd’Anthocleista zambesiaca. — Phytochemistry,12: 1191 - 1192.
Chapman Turner, N. &Bell, M.A.M. (1971): The ethnobotany of the Coast Salish Indians of Vancouver Island. — Economic Botany,25: 63–104.
Chapman Turner, N. &Bell, M.A.M. (1973): The ethnobotany of the Southern Kwakitul Indians of British Columbia. — Economic Botany,27: 257–310.
Charles, D.J., Simon, J.E., Shock, C.C., Freibert, E.B.G. &Smith, R.M. (1993): Effect of water stress and post-harvest handling on artemisinin content in the leaves ofArtemisia annua L. — In:Janick, J. &Simon, J.E. (Eds): New Crops. — 628–631; New York (Wiley):.
Chen, X. &Ahn, D.U. (1998): Antioxidant activities of six natural phenolics against lipid oxidation induced by Fe2+ or ultraviolet light. — Journal of the American Oil Chemists Society,75: 1717–1721.
Chevallier, A. (1996): The Encyclopedia of Medicinal Plants. — 336 pp.; London (Dorling Kindersley).
Chibnall, A.C., Piper, S.H., Pollard, A., Williams, E.F. &Sahia, P.N. (1934a): The constitution of the primary alcohols, fatty acids and paraffins in plant and insect waxes. — Biochemical Journal,28: 2189–2208.
Chibnall, C.A. & S. H.Piper, S.H. (1934b): The metabolism of plant and insect waxes. — Biochemical Journal,28: 2209–2219.
Chiej, R. (1984): Encyclopaedia of Medicinal Plants. (MacDonald Encyclopaedias). — 448 pp.; Boston (Little, Brown & Company).
Chiji, H. (1976): Studies on betalain pigments of centrospermae plants with special reference to a violet red pigment inSalicornia europaea L. (in Japanese, English abstract). — Journal of the Faculty of Agriculture Hokkaido University,9: 303–372.
Chiji, H., Aiba, T. &Izawa, M. (1978): Isolation and identification of two 2,3-unsubstituted chromones from glasswort (Salicornia europaea L.). — Agricultural and Biological Chemistry,42: 159–165.
Choukr-Allah, R., Malcolm, C.V. &Hamdy, A. (Eds). (1996): Halophytes and Biosaline Agriculture. — 400 pp.; New York (Marcel Dekker).
Cimino, G. D., Camper, H.B., Isaacs, S.T. &Hearst, J.E. (1985): Psoralens as photoactive probes of nucleic acid structure and function: Organic chemistry, photochemistry, and biochemistry. — Annual Review of Biochemistry,54: 1151–1193.
Claus, R. &Hoppen, H.O. (1979): The boar-pheromone steroid identified in vegetables. — Experientia,35: 1674–1675.
Collier, W.A. &van der Pijl, L. (1950): Investigations on the antibiotic activity of the leaves of plants on Java. — Chronica Natura (Djakarta),106: 73–80.
Conn, E.E. (1973): Biosynthesis of cyanogenic glycosides. — Biochemical Society Symposium,38: 277–302.
Conn, E.E. (1980): Cyanogenic glycosides. — In:Bell, E.A. &Chapman, B.V. (Eds): Encyclopedia of Plant Physiology, 461–492; Berlin (Springer).
Cooper, A. (1984): A comparative study of the tolerance of salt marsh plants to manganese. — Plant Soil,81: 47–59.
Cutler, A.J., Hösel, W., Sternberg, M. &Conn, E.E. (1981): TheIn vitro biosynthesis of taxiphyllin and the channeling of intermediates inTriglochin maritima. — Journal of Biological Chemistry,256: 4523–4528.
DaSilva, E.J.,Baydoun, E. &Badran, A. (2002): Biotechnology and the developing world. — EJB Electronic Journal of Biotechnology, 5 (http://www.ejb.Org/content/voI5/issuel/full/l).)
Davy, A.J., Bishop, G.F. &Costa, C.S.B. (2001):Salicornia L. (Salicornia pusilla J. Woods,S. ramosissima J. Woods,S. europaea L.,S. obcscura P. W. Ball & Tutin,S. nitens P. W. Ball & Tutin,S. fragilis P.W. Ball & Tutin andS. dolichostachya Moss). — Journal of Ecology,89: 681–707.
de Bettencourt, A.M., Duarte, M.F., Facchetti, S., Florencio, M.H., Gomes, Van’t Klooster, H.A., Montanarella, L., Ritsema, R. & &Vilas-Boas, L.F. (1997): Evidence of the presence of dimethylated, trimethylated and “refractory” arsenic compounds in estuarine salt-marsh halophytes. — Applied Organometallic Chemistry,11: 439–450.
de Rijke, E., Zafra-Gomez, A., Ariese, F., Brinkman, U.A.T. &Giijer, C. (2001): Determination of isoflavone glucoside malonates inTrifolium pratense L. (red clover) extracts: quantification and stability studies. — Journal of Chromatography,A 932: 55–64.
DellaGreca, M., Fiorentino, A., Mangoni, L., Molinaro, A., Monaco, P. &Previtera, L. (1992): 9,10-Dihydrophenan-threne metabolites fromJuncus effusus L. — Tetrahedron Letters,33: 5257–5260.
DellaGreca, M., Fiorentino, A., Mangoni, L., Molinaro, A., Monaco, P. &Previtera, L. (1993): Cytotoxic 9,10-dihydrophenanthrenes fromJuncus effusus L. — Tetrahedron,49: 3425–3432.
DellaGreca, M., Fiorentino, A., Monaco, P. &Previtera, L. (1994): Cycloartane triterpenes fromJuncus effusus. — Phytochemistry,35: 1017–1022.
DellaGreca, M., Fiorentino, A., Molinaro, A., Monaco, P. &Previtera, L. (1995): 9,10-Dihydrophenanthrene glucosides fromJuncus effusus. — Natural Products Letters,6: 111–117.
DellaGreca, M., Fiorentino, A., Monaco, P., Previtera, L. &Zarrelli, A: (1995b): Effusides I–IV: 9,10-dihydrophenanthrene glucosidesfrom Juncus effusus. — Phytochemistry,40: 533–535.
DellaGreca, M., Monaco, P., Previtera, L. &Zarrelli, A: 81997): Minor bioactive dihydrophenanthrene fromJuncus effusus. — Journal of Natural Products,60: 1265–1268.
DellaGreca, M., Fiorentino, A., Monaco, P., Previtera, L. &Sorrentino, M. (1998): Antialgal phenylpropane glycerideshorn Juncus effusus. — Natural Products Letters,12: 263–270
DellaGreca, M.,Fiorentino, A.,Monaco, P.,Pollio, A.,Previtera, L. &Zarrell, A. (200): Dihydrophenanthrene and phenanthrene mimics of natural compounds — Synthesis and antialgal activity. — Journal of Chemical Ecology, 26: 587–600.
DellaGreca, M., Fiorentino, A., Monaco, P., Pinto, G., Previtera, L. &Zarrelli, A. (2001): Synthesis and antialgal acticity of dihydrophenanthrenes II: Mimics of naturally occurring compounds inJuncus effusus. — Journal of Chemical Ecology,27: 257–271.
DellaGreca, M., Fiorentino, A., Monaco, P., Previtera, L. &Zarrelli, A. (2002): A new dimeric 9,10-dihydrophenanthrenoid from the rhizomeof Juncus acutus. — Tetrahedron Letters,43: 2573–2575.
Dewick, P.M. (1977): Biosynthesis of pterocarpan phytoalexins inTrifolium pratense. — Phytochemistry,16: 93–97.
Dieterle, H., Salomon, A. &Gartner, A. (1934): Über Onocerin, das Phytosterol der HauhechelOnonis spinosa L. — Archiv für Pharmazie,272: 142–151.
Dikshit, A. &Husain, A. (1984): Antifungal action of some essential oils against animal pathogens. — Fitoterapia,55: 171–176.
Dinan, L., Riseborough, S., Brading, M., Clément, C., Witts, D.J.l, Smith, J.D., Colombe, S., Pettitt, V., Wheeler, D.A. &Greenwood, D.R. (1991): Phytoecdysteroids in the Chenopodiaceae (Goosefoots). — In:Hrdy, I. (Ed): Insect Chemical Ecology, 215–220; Prague (Academia).
Dinan, L., Whiting, P. &Scott, A.J. (1998): Taxonomic distribution of phytoecdysteroids in seeds of members of the chenopodiaceae — a new genus in the Chenopodiaceae. — Biochemical Systematics and Ecology,26: 553–576.
Dogra, S. &Kanwar, A.J. (2004): Narrow band UVB phototherapy in dermatology. — Indian Journal of Dermatology, Venereology and Leprology,70: 205–209.
Duke, J.A. (1992a): Handbook of Biologically Active Phytochemicals and Their Activities. — 183 pp.;
Duke, J.A. (1992b): Handbook of Phytochemical Constituents of GRAS Herbs and Other Economic Plants. — 654 pp.; Boca Raton (CRC Press).
Duke, J.A. &Ayensu, E.S. (1985): Medicinal Plants of China. — 705 pp.; Algonac, MI (Reference Publications Inc.).
Dweck, A.C. (1992): Lecture to the Society of Cosmetic Scientists. — http://www.dweckdata.com/Lectures/SCS_Nov_1992.pdf, visited 13 July 2007
El Nehir, S. &Karakaya, S. (2004): Radical scavenging and iron-chelating activities of some greens used as traditional dishes in Mediterranean diet. — International Journal of Food Science and Nutrition,55: 67–74.
Ernst, W.H.O. (1993): Geobotanical and biogeochemical prospecting for heavy metal deposits in Europe and Africa. — Plants as Biomonitors: 107–126.
Ettlinger, M.G. &Eyjólfsson, R. (1972): Revision of the structure of the cyanogenic glucoside triglochinin. — Journal of the Chemical Society Chemical Communications,572: 572–573.
Eyjólfsson, R. (1970): Recent advances in the chemistry of cyanogenic glycosides. — Fortschritte in der Chemie Organischer Naturstoffe,28:74–108.
Facciola, S. (1990): Cornucopia — A Source Book of Edible Plants. — 713 pp.; Vista, CA (Kampong Publications).
Fehr, D. (1974): Über das ätherische Ol von Sellerieblättern (Apium graveolens L). — Pharmazie,29: 349.
Ferreira, J.F.S. &Janick, J. (1996): Distribution of artemisinin inArtemisia annua. — In:Janick, J. (Ed): Progress in New Crops, 579–584; Arlington, VA (ASHS Press).
Fikenscher, L.H., Hegenauer, R. &Ruijgrok, H.W.L. (1980): Die Verbreitung der Blausäure bei den Cormophyten. 14. Mitteilung. Neue Beobachtungen zur Cyanogenese bei den Compositen. — Planta Medica,40: 202–211.
Flowers, T.J., Troke, P.F. &Yeo, A.R. (1977): The mechanism of salt tolerance in halophytes. — Annal Review of Plant Physiology,28:89–121.
Foo, L.Y., Lu, Y., Molan, A.L., Woodfield, D.R. &McNabb, W.C. (2001): The phenols and prodelphinidins of white clover flowers. — Phytochemistry,54: 539–548.
Fournier, G. (1667): Hydrographie contenant la théorie et la pratique des toutes les parties de la navigation. Composé par Georges Fournier de la Compagnie de Jesus. Revue et corrigée & augmenté par l’Autheur avant son deceds. Plus, la Navigation du Roy d’Ecosse Jacoue cinquiesme de Nom, autour de son Royaume, & Isle herbrides et Orchades, sous la conduite d’Alexandre Lyndsay excellent Pilot Ecossois. — 706 pp.; Paris (Jean Dupuis).
Fowden, L. (1958b): Some observations on a hydroxypipecolic acid from thrift (ArmerÌa maritima). — Biochemical Journal,70: 629–633.
Fowles, W. L., Griffith, D.G. &Oginsky, E.L. (1958): Photosensitization of bacteria by furocoumarins and related compounds. — Nature,181:571–572.
Freethy, R. (1985): From Agar to Zenery. — 152 pp.; Ramsbury (The Crowood Press).
Fri’as, E.A., Aurich, O., Ferrerer, L.E., Vasques, M.G., Horstmann, C., Rendueles, J.L., Graquitena, E.R., Casabella, E.R. &Schreiber, K. (1972): Phytochemische Untersuchungen der Pflanzen der kubanischen Flora. — Kulturpflanze,19: 359–425.
Fröhlich, R. &Pauli, G.F. (2000): α-Onocerin chloroform hemisolvate. — Acta Crystallographica C-Crystal Structure Communications,56: 1476–1477.
Frohne, D. &Jensen, U. (1998): Systematik des Pflanzenreichs. Unter besonderer Berücksichtigung chemischer Merkmale und pflanzlicher Drogen. — 372 pp.; Stuttgart (Wissenschaftliche Verlagsgesellschaft).
Fujise, Y., Toda, Y. &Itô, S. (1965): Isolation of trifolirhizin fromOnonis spinosa L. — Chemical & Pharmaceutical Bulletin,13: 93–95.
Fujita, T., Kadoya, A., Aota, A. &Nakayama, M. (1995): A new phenylpropanoid glucoside and other constituents ofOenanthe javanica. — Bioscience, Biotechnology and Biochemistrry,59: 526–528.
Gärtner, R. (1932): Zur Konstitution des Onocerins, dem Phytosterin der Hauhechel,Ononis spinosa, L. — Dissertation Universität Frankfurt/Main: 1–30.
Geissman, T. A. &Irwin, M.A. (1970): Chemical contributions to taxonomy and phylogeny in the genusArtemisia. — Pure and Applied Chemistry,21: 167–180.
Geslin, M. &Verbist, J.-F. (1985): Flavonoides deSalicornia europaea. — Journal of Natural Products,48: 111–113.
Gilani, A. H. &Janbaz, K.H. (1993): Protective effect ofArtemisia scoparia extract against acetaminophen-induced hepatotoxicity. — General Pharmacology,24: 1455–1458.
Gilani, A. H. &Janbaz, K.H. (1995): Preventive and curative effects ofArtemisia absinthium on acetaminophen- and CCl4-induced hepatotoxicity. — General Pharmacology,26: 309–315.
Glahn, H. v., Dahmen, R., Lemm, R. v. &Wolff, D. (1989): Vegetationssytematische Untersuchungen und großmaßstäbliche Vegetationskartierungen in den Außengroden der niedersächsischen Nordseeküste. — Drosera,89: 145–168.
Glenn, E.P., O’Leary, J.W., Watson, C., Thompson, T.L. &Kuehl, R.O. (1991):Salicornia bigelovii Torr.: An oilseed halophyte for seawater irrigation. — Science,251: 1065–1067.
Glenn, E., Miyamoto, S., Moore, D., Brown, J.J., Thompson, T.L. &Brown, P. (1997): Water requirements for cultivatingSalicornia bigelovii Torr with seawater on sand in a coastal desert environment. — Journal of Arid Environments,36: 711–730.
Glenn, E.P.,Brown, J.J. &O’Leary, J.W. (1998): Irrigating crops with seawater. — Scientific American, 56–61.
Glenn, E.P., Pitelka, L.F. &Olsen, M.W. (1992): The use of halophytes to sequester carbon. — Water, Air and Soil Pollution,64: 251–263.
Glenn, E.P., Brown, J.J. &Blumwald, E. (1999): Salt tolerance and crop potential of halophytes. — Critical Reviews in Plant Sciences,18: 227–255.
Gonzalez, A.G., Bermejo, J., Mansilla, H., Massanet, G.M., Cabrera, I., Amaro, J.M. &Galindo, A. (1977): The structure and stereochemistry of artemin. — Phytochemistry,16: 1836–1837.
Gonzalez, A.G., Bermejo, J., Mansilla, H., Galindo, A., Amaro, J.M. &Massanet, G.M. (1978): Chemistry of the Compositae. Part 38. Structure and absolute configuration of gallicin, a new germacranolide fromArtemisia. — Journal of the Chemical Society Perkin Transaction1: 1243–1246.
Gonzalez, A.G., Galindo, A:, Mansilla, H. &Gutierrez, A. (1981): Structure of maritimin, a sesquiterpene lactone fromArtemisia maritima gallica. — Phytochemistry,20: 2367–2370.
Gorham, J., Hughes, L. &Wyn Jones, R.G. (1980): Chemical composition of salt-marsh plants from Ynys Mon (Anglesey): the concept of physiotypes. — Plant, Cell & Environment,3: 309–318.
Gottlieb, O.R. (1982): Ethnopharmacology versus chemosystematics in the search for biologically active principles in plants. — Journal of Ethnopharmacology,6: 227–238.
Graham, J.G., Quinn, M.L., Fabricant, D.S. &Farnsworth, N.R. (2000): Plants used against cancer — an extension of the work of Jonathan Hartwell. — Journal of Ethnopharmacology,73: 347–377.
Grieve, M. (1971): A Modern Herbal (reprint of the 1931 edition vol. 1 and 2). — 919 pp.; New York (Dover Publications). —
Gromova, A.S., Lutskii, V.I., Semenov, A.A., Slavyanov, E.A., Biyushkin, V.N. &Malinovskii, G.I. (1982): Triterpene saponins fromThalictrum minus II. Structure of an artefact. — Chemistry of Natural Compounds,18: 680–684. [Engl. Translation]
Groot, M.J. (2004): Phyto-estrogenic activity of protein-rich feeds for pigs. — RIKILT — Institute of Food Safety Report,2004.014: 1–14. (available under http://www.rikilt.wur.nl/NR/rdonlyres/BDEEDD31-F58C-47EB-A0AA-23CB9956CE18/10721/R2004014.pdf, visited 24.07.2007)
Grossi, V. &Raphel, D. (2003): Long-chain (C19–C29) 1-chloro-n-alkanes in leaf waxes of halophytes of the Chenopodiaceae. — Phytochemistry,63: 693–698.
Guggolz, J., Livingston, A.L. &Bickoff, E.M. (1961): Forage estrogens, detection of daizein, formononetin, genistein, and biochanin A in forages. — Journal of Agricultural and Food Chemistry,9: 330–332.
Guil, J.L., Torija, M.E., Gimenez, J.J. &Rodriguez, I. (1996): Identification of fatty acids in edible wild plants by gas chromatography. — Journal of Chromatography A,719: 229–235.
Guil, J.L., Rodriguez-Garcia, I. &Torija, E. (1997): Nutritional and toxic factors in selected wild edible plants. — Plant Foods for Human Nutrition,51: 99–107.
Gundidza, M. (1993): Antifungal activity of essential oil fromArtemisia afra Jacq. — Central African Journal of Medicine,39: 140–142.
Gusseva-Badmaeva, A. P., Hammermann, A.F. &Sokolov, W.S. (1972): Heilmittel der tibetischen Medizin. — Planta Medica,21: 161–172.
Gustine, D.E. (1981): Evidence for sulfhydryl involvement in regulation of phytoalexin accumulation inTrifolium repens callus tissue cultures. — Plant Physiology,68: 1323–1326.
Gustine, D.L., Sherwood, R.T., Moyer, B.G. &Lukezic, F.L. (1990): Metabolites fromPseudomonas corrugata elicit phytoalexin biosynthesis in white clover. — Phytopathology,80: 1427–1432.
Güth, M. (2001): Halophyte Uses in Different Climates III Computer-Aided Analysis of Socio-Economie Aspects of the Sustainable Utilisation of Halophytes. — 99 pp.; Leiden (Backhuys Publishers).
Haddad, R.I., Newell, S.Y., Martens, C.S. &Fallon, R.D. (1992): Early diagenesis of lignin-associated phenolics in the salt marsh grassSpartina alterniflora. — Geochimica et Cosmochimica Acta,56:3751–3764.
Hahn, G. &Hahn, M. (2003): Gänsefußgewächse (Chenopodiaceae) von pharmazeutischer und wirtschaftlicher Bedeutung. — Österreichische Apotheker-Zeitung,26: http://www.oeaZeitschriftat/zeitung/3aktuell/2003/26/haupt/haupt26_2003gaen.html.
Harborne, J.B. (1986): The natural distribution in angiosperms of anthocyanins acylated with aliphatic dicarboxylic acids. — Phytochemistry,25: 1887–1894.
Hall, J.L., Harvey, D.M.R. &Flowers, T.J. (1978): Evidence for cytoplasmic localization of betaine in leaf cells ofSuaeda maritima. — Planta,140: 59–62.
Hamdy, A.H., Lieth, H., Todorovic, M. &Moschenko, M. (Eds) (1999): Halophyte Uses in Different Climates. II. Halophyte Crop Development: Pilot Studies. — 160 pp.; Leiden (Backhuys Publishers).
Hamon, N. W. &Hindmarsh, K.W. (1978): Phytochemical screening of indigenous Saskatchewan plants: Alkaloids — Part I. — Canadian Journal of Pharmaceutical Sciences,13: 39–42.
Hamon, N.W., Bassendowski, D.L. &Stonkus, A. (1981): Phytochemical screening of indigenous Saskatchewan plants: Alkaloids — Part III. — Canadian Journal of Pharmaceutical Sciences,16: 13–15.
Hanson, A.D., Rathinasabapathi, B., Chamberlin, B. &Gage, D.A. (1991): Comparative physiological evidence that ß-alanine betaine and choline-O-sulfate act as compatible osmolytes in halophyticLimonium species. — Plant Physiology,97: 1199–1205.
Hargis, F. (1998): Use of the exotic plantOenanthe javanica in plant/rock filters for on-site wastewater disposal. — Journal of Environmental Health,60: 18–25.
Harms, H. (1956): Arzneipflanzen im Spiegel des zahnärztlichen Schrifttums. — Planta Medica,4: 111–125.
Haroon, A.M., El-Habibi, A.M. &Szaniawska, A. (1995): Fatty acids, hydrocarbons and sterols in three plant species collected from Burullus Lake [Egypt]. — Studia i Materia Oceanologica,69: 67–76.
Hart, J.A. (1981): The ethnobotany of the Northern Cheyenne Indians of Montana. Journal of Ethnopharmacology,4: 1–55.
Hartwell, J.L. (1968): Plants used against cancer. A survey. — Lloydia,31:71–170.
Hartwell, J.L. (1969a): Plants used against cancer. A survey. — Lloydia,32: 153–205.
Hartwell, J.L. (1969b): Plants used against cancer. A survey. — Lloydia,32: 247–296.
Hartwell, J.L. (1970a): Plants used against cancer. A survey. — Lloydia,33:97–194.
Hartwell, J.L. (1970b): Plants used against cancer. A survey. — Lloydia,33: 288–392.
Hartmann, G., Kappel, I., Grote, K. &Arndt, B. (1997): Chemistry and technology of prehistoric glass from Lower Saxony and Hesse. — Journal of Archaeological Science,24: 547–559.
Havill, D.C., Ingold, A. &Pearson, J. (1985): Sulphide tolerance in coastal halophytes. — Symposium On Coastal Vegetation,62: 279–285.
Hazra, B.R. Sarkar, R., Bhattacharyya, S., Ghosh, P.K., Chel, G. &Dinda, B. (2002): Synthesis of plumbagin derivatives and their inhibitory activities against Ehrlich ascites carcinoma in vivo andLeishmania donovani Promastigotesin vitro. — Phytotherapy Research,16: 133–137.
He, X.-G. (2000): On-line identification of phytochemical constituents in botanical extracts by combined high-performance liquid chromatographic-diode array detection-mass spectrometry. — Journal of Chromatography A,880: 203–232.
Herissey, H. & Gravot, M. (1935): Presence of stachyose (manneotetrose) and aucuboside (aucubin) inPlantago maritima L. andP. carinata Schrad. — Journal de Pharmacie et de Chimie,22: 537–543.
Herzog, P. (1959): Spezifische Phytoagglutinine ausOnonis spinosa-Wurzeln. — Zeitschrift für Immunitätsforschung,117: 53–59.
Herzog, P. &Soucek, J. (1960): Ein Beitrag zur Isolierung und Identifizierung der Phytoagglutinine ausOnonis spinosa-Wurzeia. — Zeitschrift für Immunitätsforschung,119: 469–478.
Hesse, C., Hilp, K., Hating, H. &Schaden, G. (1977): Inhaltsstoffe ausOnonis spinosa L., 2. Mitt. Aromatische Kohlenwasserstoffe aus den ätherischen Olen der Radix und Herbe Ononidis. — Archiv für Pharmazie,310: 792–795.
Hethelyi, E., Eseko, I., Grosz, M., Mark, G. &Palinkas, J. (1995):Artemisia maritima illóolajok kapillar gázkromatograáfiás vizsgálata. — Olaj, Szappan, Kozmetika,44: 117–120. [In Hungarian, English abstract]
Hill, B.E.,Lythgoe, B.,Mirvsh, S. &Trippett, S. (1955): Oenanthotoxin and Cicutoxin. Part II. The synthesis of (±)-cicutoxin and oenanthetol. — Journal of the Chemical Society, 1770–1775.
Hilp, K. (1976): Phytochemische und pharmakologische Untersuchungen der ätherischen Öle aus Wurzel und Kraut vonOnonis spinosa L. — Ph.D. Thesis, University of Marburg, 143pp.
Hirschhorn, H.H. (1982): Natural substances in currently available Chinese herbal and patent medicines. — Journal of Ethnopharmacology,6: 109–119.
Hlasiwetz, H. (1855): Ueber die Wurzel derOnonis spinosa. — Journal für praktische Chemie,65: 419–450.
Hnatyszyn, O., Rondina, R.V.D. &Coussio, J.D. (1976): Phytochemical screening of Argentine plants with potential pharmacological activity. VI. — Planta Medica,29: 234–240.
Hösel, W. &Klewitz, O. (1977): ß-Glucosidases specific for the cyanogenic glucoside triglochinin fromAlocasia macrorrhiza Schott. Further characterization of properties. — Hoppe-Seyler’s Zeitschrift für Physiologische Chemie,358: 959–966.
Hösel, W. &Nahrstedt, A. (1980): In vitro biosynthesis of the cyanogenic glucoside taxiphyllin inTriglochin maritima. — Archiv für Biochemie und Biophysik,203: 753–757.
Hösel, W. &Schiel, O. (1984): Biosynthesis of cyanogenic glucosides:in vitro analysis of the glucosylation step. — Archiv für Biochemie und Biophysik,229: 177–186.
Hofmann, R.W., Swinny, E.E., Bloor, S.J., Markham, K.R., Ryan, K., Campbell, B.D., Jordan, B.R. &Fountain, D.W. (2000): Responses of nineTrifolium repens L. populations to ultraviolet-B radiation: Differential flavonol glycoside accumulation and bio-mass production. — Annals of Botany,86: 527–537.
Holme, D. &Sørensen, N.A. (1954): Studies related to naturally occurring acetylene compounds. XIV. The occurrence of 2-trans:8-trans-deca-2,8-diene-4,6-diyn-1-ol-trans:trans-matricarianol in nature. — Acta Chemica Scandinavica,8: 34–41.
Holtom, J. &Hylton, W. (Eds.) (1979): The Complete Guide to Herbs. — 588 pp.; Emmaus. PA (Rodale Press).
Holst, P.B., Anthon, U., Christophersen, C., Nielsen, P.H. &Bock, K. (1994): A racemic diterpene from the marine bryozoanFlustra foliacea, natural product or artefact? — Acta Chemica Scandinavica,48: 765–768.
Hooper, S.N. &Chandler, R.F. (1981): Herbal remedies of the maritime Indians: A preliminary screening. Part II. — Canadian Journal of Pharmaceutical Sciences,16: 56–59.
Hooper, S.N. &Chandler, R.F. (1984): Herbal remedies of the maritime Indians: Phytosterols and triterpenes of 67 plants. — Journal of Ethnopharmacology,10: 181–194.
Hruska, A.J. (1988): Cyanogenic glucosides as defense compounds. — Journal of Chemical Ecology,14: 2213–2217.
Hudik, J. (1988): Biologische Wirkungen von Flavonoiden. — Pharmazie in unserer Zeit,17: 3–9.
Huggins, R.H., Schwartz, R.A. &Janniger, C.K. (2005): Vitiligo. — Acta Dermatoven APA,14: 137–145.
Hughes, M.A. &Maher, E.P. (1973): Studies on the nature of the Li locus inTrifolium repens L. I. Purification and properties of the enzyme components. — Biochemical Genetics,8: 1–12.
Hughes, M.A., Sharif, A.L., Dunn, M.A. &Oxtoby, E. (1988): The molecular biology of cyanogenesis. — Ciba Foundation Symposium,140: 111–130.
Hultin, E. &Torssell, K. (1965): Alkaloid-screening of Swedish plants. — Phytochemistry,4: 425–433.)
Husband, A.J. (2002): Phytoestrogens and menopause. Published evidence supports a role for phytoestrogens in menopause. — British Medical Journal,324: 52.
Idris, U.E., Adam, S.E.I. &Tartour, G. (1952): The antihelmintic efficacy ofArtemisia herba-alba againstHaemonchus contortus infection in goats. — National Institute of Animal Health,Q 22: 138–143.
Ikram, M. &Haq, U. (1980): Screening of medicinal plants for antimicrobial activity. Part II. — Fitoterapia,51: 281–284.
Ingham, J.L. &Harborne, J.B. (1976): Phytoalexin induction as a new dynamic approach to the study of systematic relationships among higher plants. — Nature,260: 241–243.
Itokawa, H., Takeya, K., Hitotsuyanagi, Y. &Morita, H., (2000): Antitumor compounds isolated from higher plants. — In:A. Rhamn (Ed.): Studies in Natural Product Chemistry. — 269–350; Amsterdam (Elsevier).
Iwashima, T. (2003): Flavonoid function and activity to plants and other organisms. — Biological Sciences in Space,17: 24–44.
Ivanova, A., Nechev, J. &Stefanov, K. (2000): Lipid composition of some halophyte plants from the Black Sea coast of Bulgaria. — Dokladi na Bulgarskata Akademiya na Naukite.,53: 83–86.
Jain, S. K. &Tarafder, C.R. (1970): Medicinal plant-lore of the Santals (A revival of P.O. Boddings’ work). — Economic Botany24: 241–278.
Janbaz, K.H. &Gilani, A.H. (1995): Evaluation of the protective potential ofArtemisia maritima extract on acetaminophen- and CCl4-induced liver damage. — Journal of Ethnopharmacology,47: 43–47.
Jankovic, T., Krstic, D., Savikin-Fodulovic, K., Menkovic, N. &Grubisic, D. (2002): Xanthones and secoiridoids from hairy root cultures ofCentaurium erythraea andC. pulchellum. — Planta Medica,68: 944–946. 9187
Jaroszewski, J.W. &Ettlinger, M.G. (1981): Ring cleavage of phenols in higher plants: Biosynthesis of triglochin. — Phytochemistry,20: 4819–4821.
Pimm, S.L., Russel, G.J., Gittleman, J.L. &Brooks, T.M. (1995): The future of biodiversity. — Science,269: 347–350.
Polasek, J., Queiroz, E.F. &Hostettmann, K. (2007): On-line identification of phenolic compounds of Trifolium species using HPLC-UV-MS and post-column UV-derivatisation. — Phytochemical Analysis,18: 13–23.
Polunin, O. (1969): Flowers of Europe — A Field Guide. — 662 pp.; London (Oxford University Press).
Poulton, J.E. (1983): Cyanogenic compounds in plants and their toxic effects. In:R.F. Keeler andA. Tu (Editors): Handbook of Natural Toxins. — 117–157; New York (Marcel Dekker).
Ramani, B., Zorn, H. &Papenbrock, J. (2004): Quantification and fatty acid profiles of sulfolipids in two halophytes and a glycophyte grown under different salt concentrations. — Zeitschrift für Naturforschung C,59: 835–842.
Rao, R.R. (1981): Ethnobotany of the Meghalaya: Medicinal plants used by by Khasi and Garo tribes. — Economic Botany,35:4–9.
Rao, R.R. &Jamir, N.S. (1982): Ethnobotanical studies in Nagaland: I. Medicinal plants. — Economic Botany,36: 176–181.
Raskin, Y., Nanda Kumar, P.B.A., Dushenkov, S. &Salt, D.E. (1994): Bioconcentration of heavy metals by plants. — Current Opinion in Biotechnology,5: 285–290.
Rauter, A.P., Branco, I., Tostao, Z., Pais, M.S.S., Gonzalez, A.G. &Bermejo, J.B. (1989): Flavonoids fromArtemisia campestris subsp.maritima. — Phytochemistry,28: 2173–2176.
Rebuelta, M., San Roman, L. &Serra Nillos, M. (1981): Étude de l’effet diurétique de différentes préparations de l’Ononis spinosa L. Plantes Medicinales et Phytotherapie.,15: 99–108.
Redmond, J.W., Batley, M., Djordjevic, M.A., Innes, R.W., Kuempel, L.W. &Rolfe, B.G. (1986): Flavones induce expression of nodulation genes inRhizobium. — Nature,623–625: 632.
Reynolds, M.P., Mujeeb-Kazi, A. &Sawkins, M. (2005): Prospects for utilising plant-adaptive mechanisms to improve wheat and other crops in drought- and salinity-prone environments. — Annals of Applied Biology,146: 239–259.
Rhoades, J.D., Kandiah, A. &Mashali, A.M. (1992): The Use of Saline Waters for Crop Production. — FAO Irrigation and Drainage Paper,48: 1–102.
Rietsma, C.S. (1981): Interaction of ferulic acid, nitrogen, pH and salinity on feeding by the salt marsh snail,Melampus bidentatus. — Biological Bulletin,161: 330.
Rischer, M., Adamczyk, M., Ratz, H., Hose, S., Marchesan, M., Paper, D.H., Franz, G., WolfHeuss, E. &Engel, J. (1998): Quantitative determination of the iridoid glycosides aucubin and catalpol inPlantago lanceolata L. extracts by HPTLC and HPLC. — Journal of Planar Chromatography and Modern TLC,11: 374–378.
Robles, M., Arregulin, M., West, J. &Rodriguez, E. (1995): Recent studies on the zoopharmacognosy, pharmacology and neurotoxicology of sesquiterpene lactones. — Planta Medica,61: 199–203.
Rodriguez, E., Towers, G.H.N. &Mitchell, J.C. (1976): Biological activities of sesquiterpene lactones. — Phytochemistry,15: 1573–1580.
Rønsted, N., Göbel, E., Franzyk, H., Jensen, S.R. &Olsen, CE. (2000): Chemotaxonomy ofPlantago. Iridoid glucosides and caffeoyl phenylethanoid glycosides. — Phytochemistry,55: 337–348.
Roth, L.,Daunderer, M. &Kormann, K. (1994): Giftpflanzen — Pflanzengifte. Vorkommen, Wirkung, Therapie, allergische und phototoxische Reaktionen. — 1092 pp.; Landsberg/Lech (ecomed).
Rowan, M.G., Dean, F.D.G. &Goodwin, T.W. (1971): The enzymic conversion of squalene,2(3), 22(23)-diepoxide to α-onocerin by a cell-free extract ofOnonis spinosa. — FEBS Letters,12: 229–232.
Rowan, M.G. &Dean, P.D.G. (1972a): Squalene bisepoxide-onocerin cyclase fromOnonis spinosa. — Phytochemistry,11:3111–3118.
Rowan, M.G. &Dean, P.D.G. (1972b): α-Onocerin and sterol content of twelve species ofOnonis. — Phytochemistry,11: 3263–3265.
Rozema, J., Arp, W, van Diggelen, J., van Esbroek, M., Broekman, R. &Punte, H. (1986): Occurrence and ecological significance of vesicular arbuscular mycorrhiza in the salt marsh environment. — Acta Botanica Neerlandica,35: 457–467.
Rücker, G., Mayer, R. &Manns, D. (1986): Isolierung von Quinghaosu ausArtemisia annua europäischer Herkunft. — Planta Medica,52: 245.
Rücker, G., Breitmaier, E., Mayer, R. &Manns, D. (1987): Peroxide als Pflanzeninhaltsstoffe, 4. Mitt. Ein cyclisches fünfgliedriges Sesquiterpen-Peroxyhalbketal ausArtemisisa maritima. — Archiv für Pharmazie,320: 437–441.
Rüfer, C.E. &Kulling, S.E. (2006): Antioxidant activity of isoflavones and their major metabolites using differentin vitro assays. — Journal of Agricultural and Food Chemistry,54: 2926–2931.
Russell, D.W. &Howard, A.G. (1996): The determination of DMSP in marine algae and salt marsh plants. In:Kiene, R.P. (Ed): Biological and Environmental Chemistry of DMSP and Related Sulfonium Compounds. — 155–163; New York (Plenum Press).
Sakamoto, S., Kouji, S., Kuroyanagi, M., Ueno, A. &Setsuko, S. (1992): Saponins fromTrifolium repens. — Phytochemistry,31: 1773–1777.
Samuel, D.E. (1967): A review of the effecs of plant estrogenic substances on animal reproduction. — The Ohio Journal of Science,67: 308–312.
Sandberg, F., Michel, K.-H., Staf, B. &Tjernberg-Nelson, M. (1967): Screening of plants of the family Chenopodiaceae for alkaloids. — Acta Pharmaceutica Suecida,4: 51–57.
Saxena, H.O. (1975): A survey of the plants of Orissa (India) for tannins, saponins, flavonoids and alkaloids. — Lloydia,38: 346–341.
Saxena, V.K. &Jain, A.K. (1986): Genistein 7-(2″-p-coumaroylglucoside) fromTrifolium repens. — Phytochemistry,25: 2687–2688.
Saxena, V.K. &Jain, A.K. (1989): A new acylated isoflavone glycoside fromTrifolium repens. — Fitoterapia,60: 85.
Saxena, S. &Jain, D.C. (2002): A new acetophenone derivative fromArtemisia maritima. — Journal of the Indian Chemical Society.,79: 970–971.
Schittko, U., Burghardt, F., Fiedler, K., Wray, V. &Proksch, P. (1999): Sequestration and distribution of flavonoids in the common blue butterflyPolyommatus icarus reared onTrifolium repens. — Phytochemistry,51: 609–614.
Schmeil, O. &Fitschen, J. (1988): Flora von Deutschland und seinen angrenzenden Gebieten. — 610 pp.; Heidelberg (Quelle & Meyer Verlag).
Schmidt, J., Voigt, B. &Adam, G. (1995): 2-deoxybrassinolide — A naturally occurring brassinosteroid fromApium graveolens. — Phytochemistry,40: 1041.
Schobel, U., Frenay, M., van Elswijk, D.A., McAndrews, J.M., Long, K.R., Olson, L.M., Bobzin, S.C. &Irth, H. (2001): High resolution screening of plant natural product extracts for estrogen receptor a and f3 binding activity using an online HPLC-MS biochemical detection system. — Journal of Biomolecular Screening,6: 291–303.
SDN —Schutzgemeinschaft Deutsche Nordseeküste (1988): Blühende Phantasien. — 115 pp.; Norden (Soltau-Kurier).
Seibel, M.M. (2003): Treating hot flushes without hormone replacement therapy. — Journal of Family Practise,52: 291–296.
Seidel, K. (1973): Purification of industrial sewage byJuncus maritimus. — Naturwissenschaften,60: 158–159.
Sekera, A. &Rahm, J. (1953): Natural antihelminthics. III. Helen-in. — Ceskoslovenska Farmacie,2: 22–24. [In Czech]
Senatore, A., Iaccarino, F. &di Donato, S. (1988): Steroli dellaSpergularia ramosa. — Bollettino Societa Italiana Biologia Sperimentale,64: 627–629.
Sezik, E., Yeçilada, E., Honda, G., Takaishi, Y., Takeda, Y. &Tanaka, T. (2001): Traditional medicine in Turkey X. Folk medicine in Central Anatolia. — Journal of Ethnopharmoloy,75: 95–115.
Shaker, K.H., Dockendorff, K., Bernhardt, M. &Seifert, K. (2004): A new triterpenoid saponin fromOnonis spinosa and two new flavonoid glycosides fromOnonis vaginalis. — Zeitschrift für Naturforschung,59b: 124–128.
Shaw, I. &McCully, S. (2002): A review of the potential impact of dietary endocrine disrupters on the consumer. — International Journal of Food Science and Technology,37: 471–476.
Sherif, A. &Hall, R.G. (1984): Effects ofArtemisia cana extracts on the development ofCulex quinquefasciatus. — Proceedings of the Mosquito and Vector Control Assaociation of California,52: 76–79.
Sherif, A., Hall, R.G. &El-Amamy, M. (1987): Drugs, insecticides and other agents fromArtemisia. — Medical Hypotheses,23: 187–193.
Sheth, U.K. (1975): Mechanisms of anthelmintic action. — Progress in Drug Research,19: 147–157.
Sievers, A. (1934): Pharmakognostische Untersuchungen vonOnonis spinosa L. und anderen Ononisarten. — Ph.D. Thesis University of Braunschweig: 79 pp.
Silva, F. &Abraham, A. (1981): The potentiality of the Israeli flora for medicinal purposes. — Fitoterapia52: 195–200.
Silvestre, A.J.D., Silva, A.M.S., Almeida, L.M.P.M., Pereira, C.C.L. &Cavaleiro, J.A.S. (1999): The essential oil ofArtemisia campestris L. subsp.maritima Arcangelis. — Acta Horticulturae,500: 93–96.
Silvestri, S. &Marani, M. (2004): Salt-marsh vegetation and morphology: Basic physiology, modelling and remote sensing observations. In:S. Fagherazzi, S., Blum, L. &Marani, M. (Eds), Ecogeomorphology of Tidal Marshes. Washington (American Geophysical Union): 1–21.
Simmonds, M.S.J. (2001): Importance of flavonoids in insect-plant interactions: feeding and oviposition. — Phytochemistry,56: 245–252.
Simonet, A. M., Stochmal, A., Oleszek, W. &Macias, F.A. (1999): Saponins and polar compounds fromTrifolium resupinatum. — Phytochemistry51: 1065–1067.
Singer, C.E. &Havill, D.C. (1985): Manganese as an ecological factor in salt marshes. — Symposium on Coastal Vegetation,62: 287–292.
Singer, C.E. &Havill, D.C. (1993): Resistance to divalent manganese of salt-marsh plants. — Journal of Ecology,81: 797–806.
Singh, G. &Kachroo, P. (1976): Forest Flora of Srinagar and Plants of Neighbourhood. — 278 pp.; Dehradun, India (Bishen Singh Mahendra Pal Singh).
Singh, A, Kaul, V.K., Malrajan, V.P., Singh, A., Imsra, I.N., Thakur, R.S. &Husain, S. (1986): Introduction ofArtemisa annua in India and isolation of artemisinin, a promising antimalarial drug. — Indian Journal of Pharmaceutical Sciences,5: 137–138.
Singh, B., Srivastava, J.S., Khosa, R.L. &Singh, U.P. (2001): Individual and combined effects of berberine and santonin on spore germination of some fungi. — Folia Microbiologica (Praha),46: 137–142.
Soldati, F. (1997): The registration of medical plant products, What quality of documentation should be required? The industrial point of view. — Abstracts, II World Congress on Medicinal and Aromatic Plants for Human Welfare. November 10–15, 1997. Mendoza, Argentine.
Sood, VK. (1966): Essential oil from the non-santonin yielding [santonin-free]Artemisia maritima. — Perfumery and Essential Oil Record,57: 14–15.
Spiridonov, N.A., Konovalov, D.A. &Arkhipov, V.V. (2005): Cytotoxicity of some Russian ethnomedicinal plants and plant compounds. — Phytotherapy Research,19: 428–432.
Steinegger, E. &Hahn, O. (1953): Santoninbestimmung in kleinen Drogenmengen. — Pharmaceutica Acta Helvetica,28: 206–224.
Steinegger, F. &Weibel, T. (1951): Biologische Untersuchung von Gentianin. — Pharmaceutica Acta Helvetica,26: 333–342.
Stern, R.S., Liebman, E.J., Väkevä, L. & PUVAFollow-up Study (1998): Oral psoralen and ultraviolet-A light (PUVA) treatment of psoriasis and persistent risk of nonmelanoma skin cancer. — Journal of the National Cancer Institute,90: 1278–1284.
Steudler, P.A. &Peterson, B.J. (1985): Annual cycle of gaseous sulfur emissions from a New EnglandSpartina alterniflora marsh. — Atmospheric Environment,19: 1411–1416.
Stochmal, A. &Oleszek, W. (1997): Changes of cyanogenic glycosides in white clover (Trifolium repens L.) during the growing season. — Journal of Agricultural and Food Chemistry,45: 4333–4336.
St. Pyrek, J. (1985): Sesquiterpene lactones ofCichorium intybus andLeontodon autumnalis. — Phytochemistry,24: 186–188.
Strohl, W. E. (2000): The role of natural products in a modern drug discovery program. — Drug Discovery Today,5: 39–41.
Stuart, M. (Ed) (1987): The Encyclopedia of Herbs and Herbalism. — 304 pp.; New York (Crescent).
Su, K. L. &Staba, E.J. (1973): Toxicity, anti-neoplastic, and coagulation effects of aquatic plants from Minnesota. — Lloydia,36: 99–102.
Su, K. L., Abul-Hajj, Y &Staba, E.J. (1973a): Antimicrobial effects of aquatic plants from Minnesota. — Lloydia36: 80–87.
Su, K. L., Staba, E.J. &Abul-Hajj, Y (1973b): Preliminary chemical studies of aquatic plants from Minnesota. — Lloydia,36: 72–79.
Sulaiman, M., Martin, M., Pais, M., Hadi, A.H. &Awang, K. (1998): Desmosine, an artefact alkaloid fromDesmos dumosis. — Phytochemistry,49: 2191–2192.
Susplugas, J., Privat, G., Gal, F. &Pellecuer, J. (1970): Constituents ofSalicornia frutkosa. — Chemical Abstracts,72: 63644.
Tamura, Y. &Nishibe, Y. (2002): Changes in the concentrations of bioactive compounds in plantain leaves. — Journal of Agricultural and Food Chemistry,50: 2514–2518.
Tan, R.X., Zheng, W.F. &Tang, H.Q. (1998): Biologically active substances from the genusArtemisia. — Planta Medica,64: 295–302.
Tani, S., Fukamiya, N. Kiyokawa, H. Musallam, H.A., Pick, R.O. &Lee, K.-H. (1985): Antimalarial agents. 1. α-Santonin-derived cyclic peroxide as potential antimalarial agent. — Journal of Medicinal Chemistry,28: 1743–1744.
Tava, A., Mella, M., Bialy, Z. &Jurzysta, M. (2003): Stability of saponins in alcoholic solutions: Ester formation as artifacts. — Journal Agricultural and Food Chemistry,51: 1797–1800.
Thakur, R. S. &Misra, L.N. (1989): Essential oils of IndiaArtemisia. — Proceedings of the 11th International Congress on Essential Oils, Fragrances and Flavours. — 127–135, Aspect Publishing, (London).
Then, M., Szentmihályi, K., Särközi, A., Ill’s, V. &E. Forgács, E. (2000): Effect of sample handling on alkaloid and mineral content of aqueous exxtracts of greater celandine (Chelidonium majus L.). — Journal of Chromatography A,889: 69–74.
Thomson, R.H. (1971): Naturally Occurring Quinones. — 2nd edition, pp. 734, Academic Press (London).
Tice, J.A., Ettinger, B., Ensrud, K., Wallace, R., Blackwell, T. &Cummings, S.R. (2003): Phytoestrogen supplements for the treatment of hot flashes: the Isoflavone Clover Extract (ICE) Study: a randomized controlled trial. — Journal of the American Medical Association,290: 207–214.
Tinwell, H., Soames, A.R., Foster, J.R. &Ashby, J. (2000): Estradiol-type activity of coumestrol in mature and immature ovariectomized rat uterotrophic assays. — Environmental Health Perspectives,108: 631–634.
Tolley, S.R., Barrett, T.E., Suresh, C.G. &Hughes, M.A. (1993): Crystallization and preliminary crystallographic analysis of the cyanogenic beta-glucosidase from the white cloverTrifolium repens L. — Journal of Molecular Biology,229: 791–793.
Tommasi, N. de, Piacente, S., Gacs-Baitz, S.E., Simone, F. de, Pizza, C. &Aquino, R. (1998): Triterpenoid saponins fromSpergularia ramosa. — Journal of Natural Products,61: 323–327.
Triska, J. edited byH. L. Pursey (1975): The Hamlyn Encyclopaedia of Plants. — 300pp.; London (Hamlyn).
Trotter, R.T. (1981): Folk remedies as indicators of common illness: Examples from the United States-Mexico border. — Journal of Ethnopharmacology,4: 207–221.
Turner, R.G. (1969): Heavy metal tolerance in plants. In:I.H. Rorison (Ed): Ecological Aspects of the Mineral Nutrition of Plants. — 399–410; Oxford (Blackwell).
Turner, N.J. (1981): A gift for the taking: The untapped potential of some food plants of North American native peoples. — Canadian Journal of Botany,59: 2331–2357.
Turner, N.J. &Kuhnlein, H.V. (1982): Two important “root“ food plants of the Northwest coast Indians: Spring bank clover (Trifolium wormskjoldii) and Pacific silver weed (Potentilla anserina subsp.pacifica). — Economic Botany,36: 411–732.
UNEP (1993): UNEP environmental management guidelines for halophytes for livestock and rehabilitation of degraded land. — 60 pp.; United Nations Environment Programme.
Uphof, J.C.T. (1959): Dictionary of Economic Plants. — pp. 400, J. Cramer (Weinheim).
Utzinger, J., Shuhua, X., N’Goran, E.K., Bergquist, R. &Tanner, M. (2001): The potential of artemether for the control of schistosomiasis. — International Journal of Parasitology,31: 1549–1562.
Valecha, N., Biswas, S., Badoni, V., Bhandari, K.S. &Sati, O.P. (1994): Antimalarial activity ofArtemisia japonica, Artemisia maritima andArtemisia nilegarica. — Indian Journal of Pharmacology,26: 144–146.
van Oosten, H.J. &de Wilt, J.G. (2000): Bioproductie en ecosysteementwikkeling in zoute condities. — Nationale Raad voor Lanbouwkundig Onderzoek, Den Haag, 89 pp.
Vasconcelos, J.M.J., Silva, A.M.S. &Cavaleiro, J.A.S. (1998): Chromones and flavanones fromArtemisia campestris subsp.maritima. — Phytochemistry,49: 1421–1424.
Vetter, J. (1995): Isoflavones in different parts of commonTrifolium species. — Journal of Agricultural and Food Chemistry,43: 106–108.
Viladomat, F., Codina, C., Bastida, J., Galobardes, M. &Serrano, M. (1984): Alkaloid screening of Catalonia (Spain) plants I. — Journal of Natural Products,47: 64–69.
Vincieri, F. E., Coran, S.A., Giannellini, V. &Bambagiotti, M. (1981): Isolation and structural elucidation ofOenanthe aquatica (L.) fruit C15 polyacetylene hydrocarbons. — Chemische Berichte,114: 468–476.
Völker, O. (1954): Über Umwandlungsprodukte pflanzlicher Carotinoide in den Federn von Tangaren, Spechten und Paradiesvögeln. Journal of Ornithology,95: 124–129.
Vogt, T., Ibdah, M., Schmidt, J., Wray, V, Nimtz, M. &Strack, D. (1999): Light-induced betacyanin and flavonol accumulation in bladder cells ofMesembryanthemum crystallinum. — Phytochemistry,52: 583–592.
Vollmer, H. (1940): Ueber die diuretische Wirkung der Radix Ononidis und der Herba Equiseti. — Archiv der Pharmazie,278: 42–44.
Volz, T. J. &Clausen, TP. (2001): Tannins inPuccinellia arctica: possible deterrents to herbivory by Canada geese. — Journal of Chemical Ecology,27: 725–732.
Wagner, E. (1941): Saponine aus einheimischen Pflanzen. — Seifensieder-Zeitung,68: 35.
Wallaart, T. E., Pras, N. &Quax, W.J. (1999a): Isolation and identification of dihydroartemisinic acid hydroperoxide fromArtemisia annua: a novel biosynthetic precursor of artemisinin. — Journal of Natural Products,62: 1160–1162.
Wallaart, T. E., van Uden, W, Lubberink, H.G.M., Woerdenbag, H.J., Pras, N. &Quax, W.J. (1999b): Isolation and identification of dihydroartemisinic acid fromArtemisia annua and its possible role in the biosynthesis of artemisinin. — Journal of Natural Products,62: 430–433.
Wang, C.-Q., Zhao, J.-Q., Chen, M. &Wang, B.-S. (2006): Identification of betacyanin and effects of environmental factors on its accumulation in halophyteSuaeda salsa. — Journal of Plant Physiology and Molecular Biology,32: 195–201.
Watt, J.M. (1967): African plants potentially useful in mental health. — Lloydia,30: 1–22.
Weete, J.D., Rivers, W.G. &Weber, D.J. (1970): Hydrocarbon and fatty acid distribution in the halophyte,Salicornia bigelovii. — Phytochemistry,9: 2041–2045.
Whiting, P., Savchenko, T., Sarker, S.D. &Rees, H.H. (2000): Phytoecdysteroids in the genusLimonium (Plumbaginaceae). — Biochemical Systematics and Ecology,26: 695–698.
Wichmann, G. (1958): Biology of santonin in plants. IV. Nutritional requirements ofArtemisia maritima andArtemisia kurramensis; rapid test for santonin. — Planta Medica,6: 117–139.
Wiermann, R. (1981): Secondary plant products and cell and tissue differentiation. In:Conn, E.E. (Ed): The Biochemistry of Plants. — 85–116, New York (Academic Press)
Woerdenbag, H.J., Lugt, C.B. &Pras, N. (1990):Artemisia annua L.: a source of novel antimalarial drugs. — Pharmaceutisch Weekblad,12: 169–181.
Woldecke, M. &Herrmann, K. (1974): Isolierung und Identifizierung der Flavon[ol]glycoside der Endivien (Cichorium endivia L.) und des Kopfsalates (Lactuca sativa L.). — Zeitschrift für Naturforschung C,29: 355–359.
Wong, E. (1975): The isoflavonoids. In:Harborne, J.B., Mabry, T.J. &Mabry, H. (Eds): The Flavonoids. — 743–800; New York (Academic Press).
Woo, WS., Kang, S.S., Shim, S.H., Wagner, H., Chari, V.M., Seligmann, O. &Obermeier, G. (1979.): The structure of spinosin (2″-O-β-glucosylswertisin) fromZizyphus vulgaris var.Spinosus. — Phytochemistry,18: 353–355.
Woods, J. &Hall, D.O. (1994): — Bioenergy for development. — FAO Environment Energy Paper,13: 1–200.
Wren, R.C., Williamson, E.M. &Evans, F.J. (1988): Potter’s New Cyclopedia of Botanical Drugs and Preparations. — 362 pp.; Saffron Waiden (C.W. Daniel Company Ltd.).
Wright, C.W (Ed.) (2002):Artemisia. — 344 pp.; London (Taylor & Francis).
Wuttke, W, Jarry, H., Becker, Schultens, A., Christoffel, V, Gorkow, C. &Seidlova-Wuttke, D. (2003): Phytoestrogens: endocrine disrupters or replacement for hormone replacement therapy? — Maturitas,14, Supplement 1: S9-S20.
Xiao, P. (1981): Some experience on the utilization of medizinal plants in China. — Fitoterapia,52: 65–73.
Xu, X.-X., Zhu, J., Huang, D.-Z. &Zhou, W.-S. (1986): Total synthesis of arteannuin and deoxyarteannuin. — Tetrahedron,42: 819–828.
Xu, H., Fabricant, D.S., Piersen, CE., Bolton, J.L., Pezzuto, J.M., Fong, H., Totura, S., Farnsworth, N.R. &Constantinou, A.I. (2002): A preliminary RAPD-PCR analysis ofCimicifuga species and other botanicals used for women’s health. — Phytomedicine,9: 757–762.
Yilmaz, B.S., Ozbek, H., Citoglu, G.S., Ugras, S., Bayram, I. &Erdogan, E. (2006): Analgesic and hepatotoxic effects ofOnonis spinosa L. — Phytotherapeutical Research,20: 500–503.
Yoshihara, T., Yishokawa, H., Sakumura, S. &Sakuma, T. (1974): Clovamides: L-DOPA conjugated withtrans- andcis-(-)caffeic acids in red clover. — Agricultural and Biological Chemistry,38: 1107–1109.
Young, H. &Paterson, V.J. (1980): Condensed tannins from white clover seed diffusate. — Phytochemistry,19: 159–160.
Zidorn, C. &Stuppner, H. (2001): Evaluation of chemosystematic characters in the genus Leontodon (Asteraceae). — Taxon,50: 115–134.
Zidorn, C., Ellmerer-Müller, E.P., Ongania, K.H., Sturm, S. &Stuppner, H. (2000): New taxonomically significant sesquiterpenoids fromLeontodon autumnalis. — Journal of Natural Products,63:812–816.
Ziffer, H., Highet, R.J. &Klayman, D.L. (1997): Artemisinin: an endoperoxidic antimalarial fromArtemisia annua L. — Fortschritte der Chemie Organischer Naturstoffe,72: 121–214.
Zirvi, K.A., Ikram, M., Dar, M.S., Fakouhi, T. &Erker, E.F. (1978): Chemical and pharmacological screening of some Iranian medicinals plants. — Fitoterapia,49: 213–220.
Zwaving, J.H. (1966):Centaurium umbellatum en de bitterstoffen van de Gentianaceae. — Pharmaceutisch Weekblad,101: 605–619.