Your search keyword '"von Brasch, Matthias"' showing total 2 results

1. Tracking Se Assimilation and Speciation through the Rice Plant - Nutrient Competition, Toxicity and Distribution

Author

Nothstein, Alexandra K., Eiche, Elisabeth, Riemann, Michael, Nick, Peter, Winkel, Lenny H.E., Göttlicher, Jörg, Steininger, Ralph, Brendel, Rita, Von Brasch, Matthias, Konrad, Gabriele, and Neumann, Thomas

Subjects

Leaves, Evolutionary Processes, Geography & travel, Speciation, lcsh:Medicine, Biological Transport, Active, Germination, Crops, Plant Science, Selenic Acid, Research and Analysis Methods, Toxicology, Pathology and Laboratory Medicine, Plant Reproduction, Selenium, Model Organisms, Hydroponics, Plant Tissues, Plant and Algal Models, Seed Germination, Medicine and Health Sciences, Humans, Micronutrients, Grasses, lcsh:Science, ddc:910, Evolutionary Biology, Toxicity, Plant Anatomy, lcsh:R, Organisms, Biology and Life Sciences, food and beverages, Oryza, Agriculture, Plants, Chemistry, Seedlings, Plant Physiology, Physical Sciences, lcsh:Q, Rice, Plant Shoots, Research Article, Crop Science, Cereal Crops, Chemical Elements

Abstract

Up to 1 billion people are affected by low intakes of the essential nutrient selenium (Se) due to low concentrations in crops. Biofortification of this micronutrient in plants is an attractive way of increasing dietary Se levels. We investigated a promising method of Se biofortification of rice seedlings, as rice is the primary staple for 3 billion people, but naturally contains low Se concentrations. We studied hydroponic Se uptake for 0–2500 ppb Se, potential phyto-toxicological effects of Se and the speciation of Se along the shoots and roots as a function of added Se species, concentrations and other nutrients supplied. We found that rice germinating directly in a Se environment increased plant-Se by factor 2–16, but that nutrient supplementation is required to prevent phyto-toxicity. XANES data showed that selenite uptake mainly resulted in the accumulation of organic Se in roots, but that selenate uptake resulted in accumulation of selenate in the higher part of the shoot, which is an essential requirement for Se to be transported to the grain. The amount of organic Se in the plant was positively correlated with applied Se concentration. Our results indicate that biofortification of seedlings with selenate is a successful method to increase Se levels in rice., PLoS ONE, 11 (4), ISSN:1932-6203

Published

2016

2. Tracking Se Assimilation and Speciation through the Rice Plant - Nutrient Competition, Toxicity and Distribution.

Author

Nothstein AK, Eiche E, Riemann M, Nick P, Winkel LH, Göttlicher J, Steininger R, Brendel R, von Brasch M, Konrad G, and Neumann T

Subjects

Biological Transport, Active, Germination, Humans, Hydroponics, Micronutrients administration & dosage, Micronutrients pharmacokinetics, Micronutrients toxicity, Oryza drug effects, Oryza growth & development, Plant Shoots metabolism, Seedlings metabolism, Selenic Acid administration & dosage, Selenic Acid pharmacokinetics, Selenic Acid toxicity, Selenium administration & dosage, Selenium toxicity, Oryza metabolism, Selenium pharmacokinetics

Abstract

Up to 1 billion people are affected by low intakes of the essential nutrient selenium (Se) due to low concentrations in crops. Biofortification of this micronutrient in plants is an attractive way of increasing dietary Se levels. We investigated a promising method of Se biofortification of rice seedlings, as rice is the primary staple for 3 billion people, but naturally contains low Se concentrations. We studied hydroponic Se uptake for 0-2500 ppb Se, potential phyto-toxicological effects of Se and the speciation of Se along the shoots and roots as a function of added Se species, concentrations and other nutrients supplied. We found that rice germinating directly in a Se environment increased plant-Se by factor 2-16, but that nutrient supplementation is required to prevent phyto-toxicity. XANES data showed that selenite uptake mainly resulted in the accumulation of organic Se in roots, but that selenate uptake resulted in accumulation of selenate in the higher part of the shoot, which is an essential requirement for Se to be transported to the grain. The amount of organic Se in the plant was positively correlated with applied Se concentration. Our results indicate that biofortification of seedlings with selenate is a successful method to increase Se levels in rice.

Published

2016