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Food Additives & Contaminants: Part A Volume 40, 2023 - Issue 6
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Review

Impact of environmental factors on the presence of quinolizidine alkaloids in lupins: a review

Clàudia Rodés-Bachsa Wageningen Food Safety Research, Wageningen, The Netherlands;b Basque Centre for Climate Change (BC3), Leioa, SpainCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-6696-7685View further author information
ORCID Icon &
H. J. Van der Fels-Klerxa Wageningen Food Safety Research, Wageningen, The NetherlandsORCID Iconhttps://orcid.org/0000-0002-7801-394XView further author information
ORCID Icon
Pages 757-769 | Received 15 Mar 2023, Accepted 14 May 2023, Published online: 26 May 2023

References

  • Adhikari K, Buirchell B, Sweetingham M. 2012. Length of vernalization period affects flowering time in three lupin species. Plant Breed. 131(5):631–636.
  • Australia New Zealand Food Authority. 2001. Lupin alkaloids in food a toxicological review and risk assessment technical report series no. 3. www.foodstandards.gov.ausrc.filestr3.pdf.
  • Beyer H, Schmalenberg AK, Jansen G, Jürgens HU, Uptmoor R, Broer I, Huckauf J, Dietrich R, Michel V, Zenk A, et al. 2015. Evaluation of variability, heritability and environmental stability of seed quality and yield parameters of L. angustifolius. Field Crops Res. 174:40–47.
  • Boland A, Cherry G, Dickson R. 2017. Doing a systematic review: a student’s guide. 2nd ed. Los Angeles: SAGE.
  • Boschin G, Annicchiarico P, Resta D, D'Agostina A, Arnoldi A. 2008. Quinolizidine alkaloids in seeds of lupin genotypes of different origins. J Agric Food Chem. 56(10):3657–3663.
  • Boschin G, Resta D. 2013. Alkaloids derived from lysine: quinolizidine (a focus on lupin alkaloids). In: Ramawat KG, Merillon JM, editors. Natural products: phytochemistry, botany and metabolism of alkaloids, phenolics and terpenes. Berlin (Heidelberg): Springer; p. 381–403.
  • Cely-Veloza W, Quiroga D, Coy-Barrera E. 2022. Quinolizidine-based variations and antifungal activity of eight lupinus species grown under greenhouse conditions. Molecules. 27(1):305.
  • Chludil H, Vilariño M, Franco M, Leicach S. 2009. Changes in Lupinus albus and Lupinus angustifolius alkaloid profiles in response to mechanical damage. J Agric Food Chem. 57(14):6107–6113.
  • Christiansen JL, Jornsgard B. 2002. Influence of day length and temperature on number of main stem leaves and time to flowering in lupin. Ann Appl Biol. 140(1):29–35.
  • Ciesiolka D, Muzquiz M, Burbano C, Altares P, Pedrosa MM, Wysocki W, Folkman W, Popenda M, Gulewicz K. 2005. An effect of various nitrogen forms used as fertilizer on Lupinus albus L. yield and protein, alkaloid and α-galactosides content. J Agron Crop Sci. 191(6):458–463.
  • Cowling WA, Tarr A. 2004. Effect of genotype and environment on seed quality in sweet narrow-leafed lupin (Lupinus angustifolius L.). Aust J Agric Res. 55(7):745–751.
  • De Cortes Sánchez M, Altares P, Pedrosa MM, Burbano C, Cuadrado C, Goyoaga C, Muzquiz M, Jiménez-Martínez C, Dávila-Ortiz G. 2005. Alkaloid variation during germination in different lupin species. Food Chem. 90(3):347–355.
  • Direction générale de la santé. 1998. Bulletin Officiel n° 98/27 du Conseil superieurd’hygiene publique de France. Paris (France): Bernard Kouchner, Journal officiel de la République française.
  • FAO. 2020. Crops and livestock products. License: CC BY-NC-SA 3.0 IGO; [accessed 2022 Dec 14]. https://www.fao.org/faostat/en/#data/QCL/visualize.
  • Frick KM, Foley RC, Kamphuis LG, Siddique KHM, Garg G, Singh KB. 2018. Characterization of the genetic factors affecting quinolizidine alkaloid biosynthesis and its response to abiotic stress in narrow-leafed lupin (Lupinus angustifolius L.). Plant Cell Environ. 41(9):2155–2168.
  • Frick KM, Kamphuis LG, Siddique KHM, Singh KB, Foley RC. 2017. Quinolizidine alkaloid biosynthesis in lupins and prospects for grain quality improvement. Front Plant Sci. 8:87.
  • ACNFP Annual Report. 1996. Appendix IX. ACNFP report on seeds from the narrow leaved lupin (Lupinus angustifolius). Ministry of Agriculture, Fisheries and Food and Department of Health; p. 14–15, 107–123.
  • Gremigni P, Hamblin J, Harris D, Cowling WA. 2003. The interaction of phosphorus and potassium with seed alkaloid concentrations, yield and mineral content in narrow-leafed lupin (Lupinus angustifolius L.). Plant Soil. 253(2):413–427.
  • Gremigni P, Wong MTF, Edwards NK, Harris D, Hamblin J. 2001. Potassium nutrition effects on seed alkaloid concentrations, yield and mineral content of lupins (Lupinus angustifolius). Plant Soil. 234(1):131–142.
  • Griffiths MR, Strobel BW, Hama JR, Cedergreen N. 2021. Toxicity and risk of plant-produced alkaloids to daphnia magna. Environ Sci Eur. 33(1):10.
  • Gulisano A, Alves S, Martins JN, Trindade LM. 2019. Genetics and breeding of Lupinus mutabilis: an emerging protein crop. Front Plant Sci. 10:1385.
  • Hama JR, Jorgensen DBG, Diamantopoulos E, Bucheli TD, Hansen HCB, Strobel BW. 2022. Indole and quinolizidine alkaloids from blue lupin leach to agricultural drainage water. Sci Total Environ. 834:155283.
  • Hama JR, Strobel BW. 2020. Natural alkaloids from narrow-leaf and yellow lupins transfer to soil and soil solution in agricultural fields. Environ Sci Eur. 32(1):26
  • Hansen HCB, Hilscherova K, Bucheli TD. 2021. Natural toxins: environmental contaminants calling for attention. Environ Sci Eur. 33(1):. 12
  • Jansen G, Aguilar OM, Jürgens HU, Schliephake E, Ordon F. 2012. Effect of the soil pH on the alkaloid content of Lupinus angustifolius. Int J Agron. 2012:1–5.
  • Jansen G, Jürgens HU, Ordon F. 2009. Effects of temperature on the alkaloid content of seeds of Lupinus angustifolius cultivars. J Agron Crop Sci. 195(3):172–177.
  • Jansen G, Jürgens HU, Schliephake E, Seddig S, Ordon F. 2015. Effects of growing system and season on the alkaloid content and yield of different sweet L. angustifolius genotypes. J Appl Bot Food Qual. 88:1–4.
  • Ku YS, Contador CA, Ng MS, Yu J, Chung G, Lam HM. 2020. The effects of domestication on secondary metabolite composition in legumes. Front Genet. 11:581357.
  • Lee MJ, Pate JS, Harris DJ, Atkins CA. 2007. Synthesis, transport and accumulation of quinolizidine alkaloids in Lupinus albus L. and L. angustifolius L. J Exp Bot. 58(5):935–946.
  • Otterbach SL, Yang T, Kato L, Janfelt C, Geu-Flores F. 2019. Quinolizidine alkaloids are transported to seeds of bitter narrow-leafed lupin. J Exp Bot. 70(20):5799–5808.
  • Philippi J, Schliephake E, Jürgens HU, Jansen G, Ordon F. 2016. Correlation of the alkaloid content and composition of narrow-leafed lupins (Lupinus angustifolius L.) to aphid susceptibility. J Pest Sci. 89(2):359–373.
  • Philippi J, Schliephake E, Jürgens HU, Jansen G, Ordon F. 2015. Feeding behavior of aphids on narrow-leafed lupin (Lupinus angustifolius) genotypes varying in the content of quinolizidine alkaloids. Entomol Exp Appl. 156(1):37–51.
  • Podleśny J, Podlesna A. 2012. The effect of high temperature during flowering on growth, development and yielding of blue lupine – barley mixture. J Food Agric Environ. 10:500–504.
  • Schrenk D, Bodin L, Chipman JK, del Mazo J, Grasl-Kraupp B, Hogstrand C, Hoogenboom L, Leblanc JC, Nebbia CS, Nielsen E, et al. 2019. Scientific opinion on the risks for animal and human health related to the presence of quinolizidine alkaloids in feed and food, in particular in lupins and lupin-derived products. EFSA J. 17:e05860.
  • Shukla PR, Skea J, Slade R, Khourdajie AA, van Diemen R, McCollum D, Pathak M, Some S, Vyas P, Fradera R, Belkacemi M, Hasija A, Lisboa G, Luz S, Malley J, editors. 2022. IPCC, 2022: Climate change 2022: mitigation of climate change. Contribution of working group III to the sixth assessment report of the intergovernmental panel on climate change. Cambridge (UK); New York (NY): Cambridge University Press.
  • Tirdiľová I, Vollmannová A, Čéryová S, Obtulovič P, Árvay J, Zetochová E. 2022. Impact of 3-year period as a factor on the content of biologically valuable substances in seeds of white lupin. Plants. 11(16):2087.
  • Vishnyakova MA, Kushnareva AV, Shelenga TV, Egorova GP. 2020. Alkaloids of narrow-leaved lupine as a factor determining alternative ways of the crop’s utilization and breeding. Vavilovskii Zhurnal Genet Selektsii. 24(6):625–635.
  • Wink M. 1983. Wounding-induced increase of quinolizidine alkaloid accumulation in lupin leaves. Zeitschrift für Naturforschung C. 38(11–12):905–909.
  • Wink M, Hartmann T. 1984. Enzymology of quinolizidine alkaloid biosynthesis. In: Zalewski RI, Skolik JJ, editors. Natural Products Chemistry 1984: A Collection of Invited Section and Colloquium Lectures Presented at the 14th IUPAC International Symposium on the Chemistry of Natural Products, Poznan, Poland; 1984 Jul 9–14. Amsterdam: Elsevier.
  • Wink M, Hartmann T. 1981. Sites of enzymatic synthesis of quinolizidine alkaloids and their accumulation in lupinus polyphyllus. Zeitschrift für Pflanzenphysiol. 102(4):337–344.
  • Wink M, Hartmann T, Rheinheimer J, Ludger W. 1982. Interrelationship between Quinolizidine alkaloid producing legumes and infesting insects: exploitation of the alkaloid- containing phloem sap of Cytisus scoparius by the broom aphid aphis cytisorum. Zeitschrift für Naturforschung C. 37(11-12):1081–1086.
  • Wink M, Meißner C, Witte L. 1995. Patterns of quinolizidine alkaloids in 56 species of the genus Lupinus. Phytochemistry. 38(1):139–153.
  • Wink M, Witte L. 1984. Turnover and transport of quinolizidine alkaloids. Diurnal fluctuations of lupanine in the phloem sap, leaves and fruits of Lupinus albus L. Planta. 161(6):519–524.

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