Varietal differences in the absorption and partitioning of cadmium in common wheat (Triticum aestivum L.)

•We studied cadmium (Cd) adsorption and partitioning in wheat varieties (Triticum aestivum).•In a pot experiment, Cd absorption was lower in varieties with low grain Cd.•Wheat varieties differed in Cd sequestration at various plant parts.•Remobilization from shoots and direct transport from roots af...

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Published in:Environmental and experimental botany 2016-04, Vol.124, p.79-88
Main Authors: Kubo, Katashi, Kobayashi, Hiroyuki, Fujita, Masaya, Ota, Takeshi, Minamiyama, Yasuhiro, Watanabe, Yoshiaki, Nakajima, Takashi, Shinano, Takuro
Format: Article
Language:English
Subjects:
absorption
Cadmium
crops
cultivars
field experimentation
filling period
flowering
Grain
humans
ICP-MS
leaves
low-Cd/G varieties
MAFF
maturity stage
NARO
NARO/ARC
NARO/KARC
NARO/TARC
Partition
phloem
roots
seedlings
shoots
soil
toxicity
Triticum aestivum
UNEP
Uptake
Varietal difference
Wheat
xylem
ZGS
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Summary:•We studied cadmium (Cd) adsorption and partitioning in wheat varieties (Triticum aestivum).•In a pot experiment, Cd absorption was lower in varieties with low grain Cd.•Wheat varieties differed in Cd sequestration at various plant parts.•Remobilization from shoots and direct transport from roots affect grain Cd levels.•Xylem and phloem transport both affect Cd accumulation. Low cadmium (Cd) transfer from the soil to edible parts of crop plants is important to minimize toxicity to humans and animals. We previously showed that Cd accumulation in grains differs substantially among varieties of common wheat (Triticum aestivum L.). In this study, we investigated the factors responsible for these differences by comparing the absorption and partitioning of Cd among wheat varieties with distinct grain Cd concentrations. Three varieties with low grain Cd concentrations (low-Cd/G varieties) and one standard variety were cultivated in a field (under natural conditions) and in pots with Cd application at four growth stages (emergence, jointing, flowering, and grain-filling). The Cd concentration and content in the whole plant and grains were determined at the seedling, flowering, grain-filling, and maturity stages in the field experiment. Cd concentration, content, and partitioning in different plant segments were determined at the maturity stage in the pot experiment. In the field experiment, there were significant differences in Cd partitioning to grains between low-Cd/G varieties and the standard variety. Cd application at different growth stages in the pot experiment indicated the remobilization of Cd from shoots to grains and direct transport of Cd from roots to grains. In the pot experiment, lower Cd absorption was detected in low-Cd/G varieties than in the standard variety and the low-Cd/G varieties exhibited differences in Cd sequestration among plant parts, including the root, leaf, lower stem, first internode, rachis, and/or glume. These results suggest that several factors related to Cd absorption and translocation, such as root traits and xylem and phloem transport, affect the accumulation of Cd in grains in common wheat. Understanding and elucidating the contribution of each of these factors might facilitate the development of common wheat varieties with minimal grain Cd accumulation.
ISSN:0098-8472
1873-7307
DOI:10.1016/j.envexpbot.2015.12.007