| 水稻根系对非电离性农药的吸收、转移、分配与农药亲脂性的关系 |
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| 引用本文: | 陈秋方,G.G.Briggs,A.A.Evans. 水稻根系对非电离性农药的吸收、转移、分配与农药亲脂性的关系[J]. 核农学报, 1989, 3(1): 1-8 |
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| 作者姓名: | 陈秋方 G.G.Briggs A.A.Evans |
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| 作者单位: | 浙江省农业科学院原子能利用研究所,Rothamsted Experimental Station U·K·Rothamsted Experimental Station U·K· 杭州 |
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| 摘 要: | 研究了水稻根系对溶液中非电离农药的吸收、转移和在植株各部位的分配与农药亲脂性的关系。结果表明:亲脂性小的农药(Log Kow<1)在水稻根系中的浓度系数(RCF)的低限值约为1;当Log Kow>1时,RCF随LogKow值的增加而增加。亲脂性中等的农药(Log Kow 1.5—2.0)在蒸腾流中浓度系数(TSCF)最大;Log Kow值过大或过小,TSCF值都降低。不同亲脂性农药在水稻植株各部位的分配比例不同。Log Kow=1左右,农药被有效地转移并分配到叶部;Log Kow>3.5,农药几乎全部滞留于根和茎的基部。
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| 关 键 词: | 非电离性农药 亲脂性 水稻 吸收 转移 分配 |
| 收稿时间: | 2009-12-31 |
| 修稿时间: | 2009-12-31 |
RELATIONSHIPS BETWEEN LIPOPHILICITY AND ROOT UPTAKE AND TRANSLOCATION OF NON-IONISED CHEMICALS BY RICE |
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| Abstract: | The relationships between lipophilicity of non-ionised chemicals ( estimated using Octanol/Water Partition Coef f icientsKow ) and their uptake by roots from nutrition solution ( described by Root Concentration FactorsRCF ) , translocation ( described by Transpiration Stream Concentration FactorsTSCF ) and distribution(described by Percentage% ) in rice plants were studied. The results showed that the polar chemicals (Log Kow1, the RCF values-increased with increasing lipophilicity. Translocation was most effective for the chemicals with intermediate lipophilicity. The maximum TSCF value at Log Kow was 1.5-2.0. Very polar and li-pophilic chemicals were poorly translocated.The percentage distribution in different parts of rice plants varied with lipophilicities. The chemicals of Log Kow circa 1 were most effectively translocated and distributed into leaves, but the chemicals with Log Kow values higher than 3.5 almost remained in roots and base of the stem |
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| Keywords: | non-ionised chemicals lipophilicity rice uptake translocation distribution |
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