References
- Bateman, A. S., and S. D. Kelly. 2007. Fertilizer nitrogen isotope signatures. Isotopes in Environmental and Health Sciences 43 (3):237–47. doi:10.1080/10256010701550732
- Bateman, A. S., S. D. Kelly, and M. Woolfe. 2007. Nitrogen isotope composition of organically and conventionally grown crops. Journal of Agricultural and Food Chemistry 55:2664–70. doi:10.1021/jf0627726
- Beerling, D. J., and F. I. Woodward. 1995. Leaf stable carbon isotope composition records increased water-use efficiency of C3 plants in response to atmospheric CO2 enrichment. Functional Ecology 9 (3):394–401. doi:10.2307/2390002
- Bontempo, L., R. Larcher, F. Camin, S. Holzl, A. Rossmann, P. Horn, and G. Nicolini. (2011). Elemental and isotopic characterisation of typical Italian alpine cheeses. International Dairy Journal 21:441–46. doi:10.1016/j.idairyj.2011.01.009
- Brencic, M., and P. Vreca. 2006. Identification of sources and production processes of bottled waters by stable hydrogen and oxygen isotope ratios. Rapid Communications in Mass Spectroscopy 20:3205–12. doi:10.1002/rcm.2726
- Buchmann, N., J. R. Brooks, K. D. Rapp, and J. R. Ehleringer. 1996. Carbon isotope composition of C4 grasses is influenced by light and water supply. Plant, Cell and Environment 19:392–402. doi:10.1111/j.1365-3040.1996.tb00331.x
- Camin, F., R. Larcher, M. Perini, L. Bontempo, D. Bertoldi, G. Gagliano, G. Nicolini, and G. Versini. 2010. Characterisation of authentic Italian extra-virgin olive oils by stable isotope ratios of C, O and H and mineral composition. Food Chemistry 118:901–09. doi:10.1016/j.foodchem.2008.04.059
- Camin, F., M. Perini, L. Bontempo, S. Fabroni, W. Faedi, S. Magnani, G. Baruzzi, M. Bonoli, M. R. Tabilio, S. Musmeci, A. Rossmann, S. D. Kelly, and P. Rapisarda. 2011. Potential isotopic and chemical markers for characterizing organic fruits. Food Chemistry 125:1072–82. doi:10.1016/j.foodchem.2010.09.081
- Capuano, E., R. Boerrigter-Eenling, G. van der Veer, and S. M. van Ruth. 2013. Analytical authentication of organic products: An overview of markers. Journal of the Science of Food and Agriculture 93:12–28. doi:10.1002/jsfa.5914
- Cerling, T. E., J. M. Harris, B. J. MacFadden, M. G. Leakey, J. Quade, V. Eisenmann, and J. R. Ehleringer. 1997. Global vegetation change through the Miocene/Pliocene boundary. Nature 389:153–58.
- Choi, W. J., S. M. Lee, H. M. Ro, K. C. Kim, and S. H. Yoo. 2002. Natural 15N abundances of maize and soil amended with urea and composition pig manure. Plant Soil 245:223–32.
- Ferrio, J. P., J. Voltas, and J. L. Araus. 2003. Use of carbon isotope composition in monitoring environmental changes. Management of Environmental Quality 14 (1):82–98. doi:10.1108/14777830310460405
- Flores, P., A. Lopez, J. Fenoll, P. Hellin, and S. Kelly. 2013. Classification of organic and conventional sweet peppers and lettuce using a combination of isotopic and bio-markers with multivariate analysis. Journal of Food Composition and Analysis 31:217–25. doi:10.1016/j.jfca.2013.05.015
- Gat, J. R. 1981. Stable isotope hydrology. In Groundwater, ed. J. R. Gat and R. Gonfiantini. IAEA Vienna: Technical Reports Series no. 210. International Atomic Energy Agency (IAEA) http://www.iaea.org/inis/collection/NCLCollectionStore/_Public/13/677/13677657.pdf?r=1
- Georgi, M., S. Voerkelius, A. Rossmann, J. Grassmann, and W. H. Schnitzler. 2005. Multielement isotope ratios of vegetables from integrated and organic production. Plant Soil 275:93–100. doi:10.1007/s11104-005-0258-3
- Gundersen, V., I. E. Bechmann, A. Behrens and S. Sturup. 2000. Comparative investigation of concentrations of major and trace elements in organic and conventional Danish agricultural crops. 1. Onions (Allium cepa Hysam) and peas (Pisum sativum Ping Pong). Journal of Agricultural and Food Chemistry 48 (12):6094–102. doi:10.1021/jf0009652
- Hogberg, P., C. Johannosson, M. Hog, T. Nasholm, and J. E. Hallgren. 1995. Measurement of abundances of N-15 and C-13 as tools in retrospective studies of N balances and water-stress in forest. A discussion of preliminary-results. Plant Soil 169:125–33. doi:10.1007/978-94-011-0455-5_14
- Jakab, S. 2007. Chrono-toposequences of soils on the river terraces in Transylvania (Romania). Catena 71:406–10. doi:10.1016/j.catena.2007.03.016
- Kara, D. 2009. Evaluation of trace metal concentrations in some herbs and herbal teas by principal component analysis. Food Chemistry 114:347–54. doi:10.1016/j.foodchem.2008.09.054
- Kelly, S. D., and A. S. Bateman. 2010. Comparison of mineral concentrations in commercially grown organic and conventional crops – tomatoes (Lycopersicon esculentum) and lettuces (Lactuca sativa). Food Chemistry 119 (2):738–45. doi:10.1016/j.foodchem.2009.07.022
- Kelly, S. D., and C. Rhodes. 2002. Emerging techniques in vegetable oil analysis using stable isotope ratio mass spectrometry. Grasas y Aceites 53 (1):34–44. doi:10.3989/gya.2002.v53.i1.288
- Kruzlikova, D., Ž. Fiket, and G. Kniewald. 2013. Classification of Croatian wine varieties using multivariate analysis of data obtained by high resolution ICP-MS analysis. Food Research International 54:621–26. doi:10.1016/j.foodres.2013.07.053
- Luykx, D. M. A. M., and S. M. van Ruth. 2008. An overview of analytical methods for determining the geographical origin of food products. Food Chemistry 107:897–911. doi:10.1016/j.foodchem.2007.09.038
- Magdas, D. A., A. Dehelean, I. Feher, G. Cristea, R. Puscas, S. D. Dan, and D. V. Cordea. 2016. Discrimination markers for geographical and species origin of raw milk within Romania. International Dairy Journal 61:135–41. doi:10.1016/j.idairyj.2016.06.003
- O’Leary, M. H. 1981. Carbon isotope fractionation in plants. Phytochemistry 20:553–67. doi:10.1016/0031-9422(81)85134-5
- Osorio, M. T., A. Koidis, and P. Papademas. 2015. Major and trace elements in milk and Halloumi cheese as markers for authentication of goat feeding regimes and geographical origin. International Journal of Dairy Technology 68:573–81. doi:10.1111/1471-0307.12213
- Polley, H. W., H. B. Johnson, B. D. Marino, and H. S. Mayeux. 1993. Increase in C3 plant water use efficiency and biomass over glacial to present CO2 concentrations. Nature London 361 (6407):61–64. doi:10.1038/361061a0
- Rapisarda, P., M. L. Calabretta, G. Romano, and F. Intrigliolo. 2005. Nitrogen metabolism components as a tool to discriminate between organic and conventional citrus fruits. Journal of Agricultural and Food Chemistry 53:2664–69. doi:10.1021/jf048733g
- Rogers, K. 2008. Nitrogen isotopes as a screening tool to determine the growing regimen of some organic and nonorganic supermarket produce from New Zealand. Journal of Agricultural and Food Chemistry 56:4078–83. doi:10.1021/jf800797w
- Rosmann, A. 2001. Determination of stable isotope ratios in food analysis. Food Reviews International 17:347–81. doi:10.1081/fri-100104704
- Schmidt, H.-L., A. Roßmann, S. Voerkelius, W. H. Schnitzler, M. Georgi, J. Graßmann, G. Zimmermann, and R. Winkler. 2005. Isotope characteristics of vegetables and wheat from conventional and organic production. Isotopes in Environmental Health Studies 41:223–28. doi:10.1080/10256010500230072
- Worthington, V. 2001. Nutritional quality of organic versus conventional fruits, vegetables, and grains. Journal of Alternative and Complementary Medicine 7 (2):161–73. doi:10.1089/107555301750164244
- Zhou, W., C. Hu, J. Li, P. Christie, and X. Ju. 2012. Natural 15N abundance of tomato and soil amended with urea and compost. Journal of Food Agriculture and Environment 10:287–93.