Two cultivars of switchgrass, ‘Alamo’ (lowland type) and ‘Cave‐in‐Rock’ (upland type), were used to examine the morph‐physiological responses of plants to different cadmium (Cd) levels under hydroponic condition treated with 0, 10, 20 and 40 μmol L−1 CdCl2 for 2 weeks. The main results showed that both seedlings of ‘Alamo’ and ‘Cave‐in‐Rock’ can survive even in 40 μmol L−1 CdCl2 treatment. However, the growth of the two cultivars was significantly (at least P < 0.05) inhibited by Cd stress. The plant biomass, water content, photosynthetic pigments content, total root length (RL), root surface area (RA), root volume (RV) and number of root tips of two tested cultivars were significantly decreased after treatment with Cd. ‘Alamo’ showed higher capability of Cd translocation from root to shoot than ‘Cave‐in‐Rock’, but ‘Cave‐in‐Rock’ had higher capability of Cd uptake and accumulation than ‘Alamo’. ‘Cave‐in‐Rock’ accumulated higher Cd in root than ‘Alamo’, the root average diameter, RL, RA and RV at the root segment in 0.3–0.9 mm diameter in ‘Cave‐in‐Rock’ were dramatically higher than those of ‘Alamo’, which indicates that a well‐developed root system may contribute to higher Cd accumulation in ‘Cave‐in‐Rock’. Above all, both ‘Alamo’ and ‘Cave‐in‐Rock’ could be cultivated in Cd polluted area. At the same time, they have bioremediation function, especially, this function of seedling in ‘Cave‐in‐Rock’ should be greater than ‘Alamo’, since the amount of Cd absorption and accumulation in ‘Cave‐in‐Rock’ was significant higher than ‘Alamo’.
Hydroponic cultures were conducted to compare the aluminum (Al) tolerance among different rice (Oryza sativa L.) varieties, including indica, japonica and their hybrids. The results showed that the root growth of rice plant was inhibited in different degrees among Al treated varieties. The Al tolerance observed through relative root elongation indicated that five japonica varieties including Longjing 9, Dharial, LGC 1, Ribenyou and Koshihikari were relatively more tolerant than indica varieties. Most indica varieties in this study, such as Aus 373 and 9311 (awnless), were sensitive to Al toxicity. The Al tolerance of most progenies from japonica × indica or indica × japonica crosses was constantly consistent with indica parents. The differences of Al tolerance among Longjing 9 (japonica), Yangdao 6 (indica) and Wuyunjing 7 (japonica) were studied. Biomass and the malondial-dehyde content of Yangdao 6 under Al exposure decreased and increased, respectively, while there was no significant effect on those of Longjing 9 and Wuyunjing 7. Remarkable reduction of root activities was observed in all these three rice varieties. Significantly higher Al content in roots was found in Yangdao 6 compared to Longjing 9 or Wuyunjing 7.
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