kw.\*:("Biofortificación")
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Biofortification for combating 'hidden hunger' for ironMURGIA, Irene; AROSIO, Paolo; TARANTINO, Delia et al.Trends in plant science. 2012, Vol 17, Num 1, pp 47-55, issn 1360-1385, 9 p.Article
Zinc biofortification of cereals: problems and solutionsPALMGREN, Michael G; CLEMENS, Stephan; WILLIAMS, Lorraine E et al.Trends in plant science. 2008, Vol 13, Num 9, pp 464-473, issn 1360-1385, 10 p.Article
Nutritional improvements in plants: time to bite on biofortified foodsHIRSCHI, Kendal.Trends in plant science. 2008, Vol 13, Num 9, pp 459-463, issn 1360-1385, 5 p.Article
Biofortification and phytoremediationZHAO, Fang-Jie; MCGRATH, Steve P.Current opinion in plant biology. 2009, Vol 12, Num 3, pp 373-380, issn 1369-5266, 8 p.Article
Biofortification-A Sustainable Agricultural Strategy for Reducing Micronutrient Malnutrition in the Global SouthBOUIS, Howarth E; WELCH, Ross M.Crop science. 2010, Vol 50, Num 2, issn 0011-183X, S.20-S.32, SUPConference Paper
Investigation of a His-rich arabinogalactan-protein for micronutrient biofortification of cereal grainAIZAT, Wan M; PREUSS, James M; JOHNSON, Alexander A. T et al.Physiologia Plantarum (København. 1948). 2011, Vol 143, Num 3, pp 271-286, issn 0031-9317, 16 p.Article
Selenium in higher plants: understanding mechanisms for biofortification and phytoremediationZHU, Yong-Guan; PILON-SMITS, Elizabeth A. H; ZHAO, Fang-Jie et al.Trends in plant science. 2009, Vol 14, Num 8, pp 436-442, issn 1360-1385, 7 p.Article
Biomass Effects and Selenium Accumulation in Sprouts of Three Vegetable Species Grown in Selenium-enriched ConditionsARSCOTT, Sara; GOLDMAN, Irwin.HortScience. 2012, Vol 47, Num 4, pp 497-502, issn 0018-5345, 6 p.Article
Biofortification of Trace Elements in Food Crops for Human HealthFAGERIA, N. K; MORAES, M. F; FERREIRA, E. P. B et al.Communications in soil science and plant analysis. 2012, Vol 43, Num 1-4, pp 556-570, issn 0010-3624, 15 p.Article
The Phytomanagement of Trace Elements in SoilROBINSON, Brett H; BANUELOS, Gary; CONESA, Héctor M et al.Critical reviews in plant sciences. 2009, Vol 28, Num 4, pp 240-266, issn 0735-2689, 27 p.Article
Endophytic bacteria from selenium-supplemented wheat plants could be useful for plant-growth promotion, biofortification and Gaeumannomyces graminis biocontrol in wheat productionDURAN, Paola; ACUNA, Jacquelinne J; JORQUERA, Milko A et al.Biology and fertility of soils. 2014, Vol 50, Num 6, pp 983-990, issn 0178-2762, 8 p.Article
Mineral bioavailability in grains of Pakistani bread wheat declines from old to current cultivarsHUSSAIN, Shahid; AAMER MAQSOOD, Muhammad; RENGEL, Zed et al.Euphytica. 2012, Vol 186, Num 1, pp 153-163, issn 0014-2336, 11 p.Article
Zinc deficiency and human health: etiology, health consequences, and future solutionsGIBSON, Rosalind S.Plant and soil. 2012, Vol 361, Num 1-2, pp 291-299, issn 0032-079X, 9 p.Article
Moving micronutrients from the soil to the seeds: Genes and physiological processes from a biofortification perspectiveWATERS, Brian M; SANKARAN, Renuka P.Plant science (Limerick). 2011, Vol 180, Num 4, pp 562-574, issn 0168-9452, 13 p.Article
Transfer of iodine from soil to vegetables by applying exogenous iodineHONG, Chun-Lai; WENG, Huan-Xin; QIN, Ya-Chao et al.Agronomy for sustainable development. 2008, Vol 28, Num 4, pp 575-583, issn 1774-0746, 9 p.Article
Long-term phytomanagement of metal-contaminated land with field crops: Integrated remediation and biofortificationVAMERALI, Teofilo; BANDIERA, Marianna; LUCCHINI, Paola et al.European journal of agronomy. 2014, Vol 53, pp 56-66, issn 1161-0301, 11 p.Article
Development of Zn-related necrosis in tobacco is enhanced by expressing AtHMA4 and depends on the apoplastic Zn levelsSIEMIANOWSKI, Oskar; BARABASZ, Anna; WEREMCZUK, Aleksandra et al.Plant, cell and environment (Print). 2013, Vol 36, Num 6, pp 1093-1104, issn 0140-7791, 12 p.Article
Pattern of iron distribution in maternal and filial tissues in wheat grains with contrasting levels of ironSINGH, Sudhir P; VOGEL-MIKUS, Katarina; ARCON, Iztok et al.Journal of experimental botany. 2013, Vol 64, Num 11, pp 3249-3260, issn 0022-0957, 12 p.Article
Influence of iodine form and application method on the effectiveness of iodine biofortification, nitrogen metabolism as well as the content of mineral nutrients and heavy metals in spinach plants (Spinacia oleracea L.)SMOLEN, Sylwester; SADY, Włodzimierz.Scientia horticulturae. 2012, Vol 143, pp 176-183, issn 0304-4238, 8 p.Article
Biofortification of wheat with zinc through zinc fertilization in seven countriesZOU, C. Q; ZHANG, Y. Q; HASSAN, M et al.Plant and soil. 2012, Vol 361, Num 1-2, pp 119-130, issn 0032-079X, 12 p.Conference Paper
Evaluation of Dry Matter, Protein, Starch, Sucrose, β-carotene, Iron, Zinc, Calcium, and Magnesium in East African Sweetpotato [Ipomoea batatas (L.) Lam] GermplasmTUMWEGAMIRE, Silver; KAPINGA, Regina; RUBAIHAYO, Patrick R et al.HortScience. 2011, Vol 46, Num 3, pp 348-357, issn 0018-5345, 10 p.Article
Arbuscular mycorrhizal influence on zinc nutrition in crop plants ― A meta-analysisLEHMANN, Anika; VERESOGLOU, Stavros D; LEIFHEIT, Eva F et al.Soil biology & biochemistry. 2014, Vol 69, pp 123-131, issn 0038-0717, 9 p.Article
Comparative Evaluation of Ground and Unground Pearl Millet and Sorghum Grain Samples for Determining Total Iron and ZincSAHRAWAT, Kanwar L; HANGULA, Magdalena N; UMA DEVI, M et al.Communications in soil science and plant analysis. 2014, Vol 45, Num 8-11, pp 1259-1268, issn 0010-3624, 10 p.Article
Zinc-deficiency resistance and biofortification in plantsAHMAD HUMAYAN KABIR; SWARAZ, A. M; STANGOULIS, James et al.Journal of plant nutrition and soil science (1999). 2014, Vol 177, Num 3, pp 311-319, issn 1436-8730, 9 p.Article
Biofortification of taro (Colocasia esculenta) through breeding for increased contents in carotenoids and anthocyaninsCHAMPAGNE, A; LEGENDRE, L; LEBOT, V et al.Euphytica. 2013, Vol 194, Num 1, pp 125-136, issn 0014-2336, 12 p.Article