Cadmium accumulation and distribution in plants of three durum wheat cultivars under different agricultural environments in Chile

References

1. 1. Baize D.,
   2. Mench M.,
   3. Sappin-Didier V.

   . 2003. Phytodisponibilité des elements traces métalliques dans les grains de blé. Dossier de l'environnement de I'INRA 25:45-62.

   OpenUrl
2. 1. Berg T.,
   2. Licht D.

   . 2002. International legislation on trace elements as contaminants in food: A review. Food Additives and Contaminants 10:916-927.

   OpenUrl
3. 1. Bovet L.,
   2. Rossi L.,
   3. Lugon-Moulin N.

   . 2006. Cadmium partitioning and gene expression studies in Nicotiana tabacum and Nicotiana rustica. Physiologia Plantarum 128:466-477.

   OpenUrlCrossRef
4. 1. Box G.E.P.,
   2. Cox D.R.

   . 1964. Analysis of transformation. Journal of the Royal Statistical Society Series B 26:211-252.

   OpenUrlWeb of Science
5. 1. Cajuste L.,
   2. Cajuste L. Jr..,
   3. García C.,
   4. Cruz J.

   . 2006. Distribution and availability of heavy metals in raw and acidulated phosphate rock-amended soils. Communications in Soil Science and Plant Analysis 37:2541-2552.

   OpenUrl
6. 1. Cuevas G.,
   2. Martinez F.,
   3. Walter I.

   . 2003. Field-grown maize (Zea mays L.) with composted sewage sludge. Effects on soil and grain quality. Spanish Journal of Agricultural Research 1:111-119.

   OpenUrl
7. 1. Chaudri A.M.,
   2. Zhao F.J.,
   3. McGrath S.P.,
   4. Crosland A.R.

   . 1995. The cadmium content of British wheat grain. Journal of Environmental Quality 24:850-855.

   OpenUrl
8. 1. Chen W.,
   2. Krage N.,
   3. Wu L.

   . 2008. Arsenic, cadmium, and lead in California cropland soils: Role of phosphate and micronutrients fertilizers. Journal of Environmental Quality 37:689-695.

   OpenUrlCrossRefPubMed
9. 1. CIREN (Centro de Información de Recursos Naturales)

   . 1996. Descripciones de suelos materiales y símbolos: Estudio Agrológico Región Metropolitana. Publicación Ciren N°115. 464 p. Santiago, Chile: CIREN.
10. 1. CIREN

    . 1999. Descripciones de suelos materiales y símbolos: Estudio Agrológico VIII Región. Publicación Ciren N°121. 583 p. Santiago, Chile: CIREN.
11. 1. CIREN

    . 2002. Descripciones de suelos materiales y símbolos: Estudio Agrológico IX Región. Publicación Ciren N°122. 360 p. Santiago, Chile: CIREN.
12. 1. CIREN

    . 2005. Descripciones de suelos materiales y símbolos: Estudio Agrológico IV Región. Publicación Ciren N°129. 300 p. Santiago, Chile: CIREN.
13. 1. McLaughlin M.J.,
    2. Singh B.R.

    1. Christensen T.H.,
    2. Haung P.M.

    . 1999. Solid phase cadmium and the reactions of aqueous cadmium with soil surfaces. In Cadmium in Soils and Plants, eds. McLaughlin M.J., Singh B.R.. Dordrecht: Kluwer Academic Publishers - The Netherlands.
14. 1. Degryse F.,
    2. Smolders E.,
    3. Parker D.R.

    . 2009. Partitioning of metals (Cd, Co, Cu, Ni, Pb, Zn) in soils: Concepts, methodologies, prediction and applications – a review. European Journal of Soil Science 60:590-612.

    OpenUrlCrossRefGeoRefWeb of Science
15. 1. Egwu G.,
    2. Agbenin J.

    . 2013. Field assessment of cadmium, lead and zinc contamination of soils and leaf vegetables under and peri-urban agriculture in northern Nigeria. Archives of Agronomy and Soil Science 59:875-887.

    OpenUrl
16. 1. Iskandar I.K.,
    2. Hardy S.E.,
    3. Chang A.C.,
    4. Pierzynski G.M.

    1. González S.,
    2. Ite R.,
    3. Gálvez X.

    . 1997. Heavy metal profiles in Chilean agricultural soils: A transect from the III region of Atacama to the XI region of Aysén. In Fourth International Conference on the Biogeomestry of Trace Elements, eds. Iskandar I.K., Hardy S.E., Chang A.C., Pierzynski G.M.. Berkeley, California, June 23-26, 1997.
17. 1. Grant C.A.,
    2. Buckley W.T.,
    3. Bailey L.D.,
    4. Selles F.

    . 1998. Cadmium accumulation in crops. Canadian Journal of Plant Science 78:1-17.

    OpenUrlWeb of Science
18. 1. Grant C.A.,
    2. Clarke J.M.,
    3. Duguid S.,
    4. Chaney R.L.

    . 2008. Selection and breeding of plant cultivars to minimize cadmium accumulation. Science of the Total Environment 390:301-310.

    OpenUrlCrossRefPubMedWeb of Science
19. 1. Greger M.,
    2. Löfstedt M.

    . 2004. Comparison of uptake and distribution of cadmium in different cultivars of bread and durum wheat. Crop Science 44:501–507.

    OpenUrl
20. 1. Herren T.,
    2. Feller U.

    . 1997. Transport of cadmium via xylem and phloem in maturing wheat shoots: Comparison with the translocation of zinc, strontium and rubidium. Annals of Botany 80:623-628.

    OpenUrlAbstract/FREE Full Text
21. 1. Hirzel J.,
    2. Matus I.,
    3. Madariaga R.

    . 2010. Effect of split nitrogen applications on durum wheat cultivars in volcanic soil. Chilean Journal of Agricultural Research 70:590-595.

    OpenUrl
22. 1. Hirzel J.,
    2. Matus I.

    . 2013. Effect of soil depth and increasing fertilization rate on yield and its components of two durum wheat varieties. Chilean Journal of Agricultural Research 73:55-59.

    OpenUrl
23. 1. Instituto de Investigaciones Agropecuarias de Chile

    . 2014. Programa de Mejoramiento genético de durum wheat. Informe técnico N° 1, p. 1-120. Santiago, Chile: Instituto de Investigaciones Agropecuarias de Chile.

    OpenUrl
24. 1. Laporte M.A.,
    2. Sterckeman T.,
    3. Dauguet S.,
    4. Denaix L.,
    5. Nguyen C.

    . 2015. Variability in cadmium and zinc shoot concentration in 14 cultivars of sunflower (Helianthus annuus L.) as related to metal uptake and partitioning. Environmental and Experimental Botany 109:45-53.

    OpenUrl
25. 1. Lehoczky É.,
    2. Kiss Z.

    . 2006. Study of the transfer coefficient of cadmium and lead in ryegrass and lettuce. Communications in Soil Science and Plant Analysis 37:2531-2539.

    OpenUrl
26. 1. Lindsay W.L.,
    2. Norwell W.A.

    . 1978. Development of DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal 42:421-428.

    OpenUrlCrossRefGeoRefWeb of Science
27. 1. Matus I.,
    2. Hirzel J.

    . 2015. Final report FONDECYT Project 1120992. Assessment of cadmium uptake and translocation in corn and durum wheat, and the use of lupine as a phytoremediator crop in agricultural soils, Chile. 40 p.
28. 1. McDowell R.W.,
    2. Taylor M.D.,
    3. Stevenson B.A.

    . 2013. Natural background and anthropogenic contributions of cadmium to New Zealand soils. Agriculture, Ecosystems, and Environment 165:80-87.

    OpenUrl
29. 1. McLaughlin M.J.,
    2. Williams C.M.,
    3. McKay A.,
    4. Kirkham R.,
    5. Gunton J.,
    6. Jackson K.J.,
    7. Thompson R.,
    8. Dowling B.,
    9. Partington D.,
    10. Smart M.K.,
    11. Tiller K.G.

    . 1994. Effect of cultivar on uptake of cadmium by potato tubers. Australian Journal of Agricultural Research 45:1483-1495.

    OpenUrlCrossRef
30. 1. McLaughlin M.J.,
    2. Tiller K.G.,
    3. Smart K.

    . 1997. Speciation of cadmium in soil solutions of saline/sodic soils and relationship with cadmium concentrations in potato tubers (Solanum tuberosum L.). Australian Journal of Soil Research 35:183-98.

    OpenUrlCrossRef
31. 1. McLaughlin M.J.,
    2. Bell M.J.,
    3. Wright G.C.,
    4. Cozens G.D.

    . 2000. Uptake and partitioning of cadmium by cultivars of peanut (Arachis hypogea L.). Plant Soil 222:51-58.

    OpenUrlCrossRef
32. 1. Mellado M.

    2000. Genetic improvement in bread wheats (Triticum aestivum L.) in the South Central area of Chile: Analysis of grain yield and related variables in spring varieties. Chilean Journal of Agricultural Research 60:32-42.

    OpenUrl
33. 1. Pascual I.,
    2. Antolín M.C.,
    3. García C.,
    4. Polo A.,
    5. Sánchez-Díaz M.

    . 2004. Plant availability of heavy metals in a soil amended with a high dose of sewage sludge under drought conditions. Biology and Fertility of Soils 40:291-299.

    OpenUrlCrossRefWeb of Science
34. 1. Quinche J.

    1995. Le cadmium des grains de cereals cultivées en Suisse romande et au Tessin. Revue suisse Agriculture 27(1):23-27.

    OpenUrl
35. Red Agrometeorológica de INIA. 2013. Agromet. http://agromet.inia.cl/estaciones.php.
36. 1. Sadzawka A.,
    2. Carrasco M.A.,
    3. Grez R.,
    4. Mora M.,
    5. Flores H.,
    6. Neaman A.

    . 2006. Métodos de análisis recomendados para los suelos de Chile. Serie Actas INIA N° 34. 164 p. Santiago, Chile: Instituto de Investigaciones Agropecuarias.
37. 1. Sánchez C.,
    2. Krieger R.

    . 2006. Survey and exposure estimates of cadmium in desert lettuce. Phoenix, AZ: Arizona Department of Agriculture. https://agriculture.az.gov/sites/default/files/06-03_Final_AILRC.pdf.
38. 1. SAS Institute

    . 1989. Usage and Reference. Version 6. 501 p. Cary, NC: SAS Institute Inc.
39. 1. Sun F.F.,
    2. Wang F.H.,
    3. Wang X.,
    4. He W.,
    5. Wen D.,
    6. Wang Q.F.,
    7. Liu X.X.

    . 2013. Soil threshold values of total and available cadmium for vegetable growing based on field data in Guangdong province, South China. Journal of the Science of Food and Agriculture 93:1967-1973.

    OpenUrl
40. 1. Tanaka K.,
    2. Fujimaki S.,
    3. Fujiwara T.,
    4. Yoneyama T.,
    5. Hayashi H.

    . 2007. Quantitative estimation of the contribution of the phloem in cadmium transport to grains in rice plants (Oryza sativa L.). Soil Science and Plant Nutrition 53:72-77.

    OpenUrlCrossRefWeb of Science
41. 1. McLaughlin M.J.,
    2. Singh B.R.

    1. Traina S.J.

    1999. The environmental chemistry of cadmium. In Cadmium in Soils and Plants, eds. McLaughlin M.J., Singh B.R.. Dordrecht: Kluwer Academic Publishers -The Netherlands.
42. 1. Tsyganov V.,
    2. Belimov A.,
    3. Borisov A.,
    4. Safronova V.,
    5. Georgi M.,
    6. Dietz K.,
    7. Tikhonovich I.

    . 2007. A chemically induced new pea (Pisum sativum L.) mutant SGECdt with increased tolerance to, and accumulation of, cadmium. Annals of Botany 99:227-237.

    OpenUrlAbstract/FREE Full Text
43. 1. Tudoreanu L.,
    2. Phillips C.

    . 2004. Empirical models of cadmium accumulation in maize, rye grass and soya bean plants. Journal of the Science of Food and Agriculture 84:845-852.

    OpenUrlCrossRefWeb of Science
44. 1. Tuma J.,
    2. Skalicky M.,
    3. Tumova L.,
    4. Flidr J.

    . 2014. Influence of cadmium dose and form on the yield of oat (Avena sativa L.) and the metal distribution in the plant. Journal of Elementology 19:795-810.

    OpenUrl
45. 1. Walker R.,
    2. Herman J.L.

    . 2000. Summary and conclusions of a joint FAO/WHO expert committee on food additives. Report 55. Geneva: World Health Organization. http://www.who.int/pcs/jecfa/.
46. 1. Wångstrand H.,
    2. Eriksoon J.,
    3. Öborn I.

    . 2007. Cadmium concentration in winter wheat as affected by nitrogen fertilization. European Journal of Agronomy 26:209-214.

    OpenUrlCrossRef
47. 1. Wang Q.,
    2. Zhang J.,
    3. Zhao B.,
    4. Xin X.,
    5. Zhang C.,
    6. Zhang H.

    . 2014. The influence of long-term fertilization on cadmium (Cd) accumulation in soil and its uptake by crops. Environmental Science and Pollution Research 21:10377-10385.

    OpenUrl
48. 1. Wei S.,
    2. Anders I.,
    3. Feller U.

    . 2014. Selective uptake, distribution, and redistribution of Cd-109, Co-57, Zn-65, Ni-63, and Cs-134 via xylem and phloem in the heavy metal hyperaccumulator Solanum nigrum L. Environmental Science and Pollution Research 21:7624-7630.

    OpenUrl
49. 1. Yang X.,
    2. Baligar V.C.,
    3. Martens D.C.,
    4. Clark R.B.

    . 1995. Influx, transport, and accumulation of cadmium in plant species grown at different Cd²⁺ activities. Journal of Environmental Science and Health Part B 30:569-583.

    OpenUrl
50. 1. Zhang C.,
    2. Sale P.,
    3. Doronila A.,
    4. Clark G.,
    5. Livesay C.,
    6. Tang C.

    . 2014. Australian native plant species Carpobrotus rossii (Haw.) Schwantes shows the potential of cadmium phytoremediation. Environmental Science and Pollution Research 21:9843-9851.

    OpenUrlCrossRef