College of Natural Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China.
Key Laboratory of Plant Nutrition and the Agri-environment in Northwest China, Ministry of Agriculture, Yangling, Shaanxi, 712100, China.
Environ Sci Pollut Res Int. 2017 Mar;24(9):8315-8325. doi: 10.1007/s11356-017-8512-9. Epub 2017 Feb 4.
This study investigated the effect of selenate and selenite application on the distribution, transformation of selenium (Se) fractions in soil, as well as the accumulation and availability of Se in each part of wheat plants. A pot experiment was conducted using different concentrations of exogenous selenite or selenate (0.5, 1, 2.5, 5, and 10 mg Se kg soil). Sequential extraction was used to determine the Se fractions in soil, and different models were used to study the behavior of Se in soil and its availability to wheat. Results showed that the distribution and availability of Se in soil and its accumulation in wheat affected both by Se concentrations and forms of exogenous Se. In selenite-treated soil, the proportion of exchangeable and carbonate-bound Se (EXC-Se) (21-42%) fraction increased compared to that in control (12%), while organic matter-bound Se (OM-Se) (23-33%) and Fe-Mn oxide-bound Se (FMO-Se) (11-15%) fractions decreased compare with those in control (37 and 32%, respectively). In selenate-treated soil, soluble-Se (SOL-Se) fraction (30-54%) increased and the OM-Se (9.8-20%) and FMO-Se (4.7-14.2%) fractions decreased compared with those in control. Residual Se (RES-Se) fraction was increased for selenite (7.4-13.4%) and selenate (12-20%) treatments compared with that in control (6.5%). In comparison with control, the available Se (SOL-Se + EXC-Se) fraction increased for both selenite (32-47%) or selenate (54-72%) treatments. Moreover, at the same rate of Se application, Se availability was higher in wheat grown in selenate-treated soils than that in selenite-treated soils. The redistribution index (U ) of Se increased from 1 (in control) to 1.2-1.9 and 1.5-2 for selenite and selenate treatments, respectively; additionally, the mobility factor (MF) in selenate-treated soil was 40-90% higher than that in selenite-treated soil. Furthermore, relative bonding intensity (I ) for both selenite (0.38-0.45) and selenate treatment (0.33-0.41) decreased compared with that in control (0.55). These differences indicated that selenite and selenate varied in terms of fixation capacities in soil, in transformation and distribution of Se in soil fractions, and in their availability to plants. The results of Michaelis-Menten equation demonstrated the high affinity of leaf to selenate, and the high affinity of roots and grains to selenite. Selenate was dominant in nearly all parts of wheat plants and in each application level. However, the affinity of selenite to wheat grains suggests that selenite is a useful Se fertilizer that must be considered in biofortification programs. In-depth studies at the pot and field scales by using different wheat varieties and application methods of Se in different ecological zones must be conducted to elucidate the mechanism and biochemical properties of Se in soil-plant system and ultimately produce Se-rich staple foods.
本研究探讨了亚硒酸盐和硒酸盐施用于土壤后对硒(Se)形态分布、转化的影响,以及硒在小麦植株各部位的积累和有效性。采用不同浓度的外源硒酸盐或亚硒酸盐(0.5、1、2.5、5 和 10 mg Se kg-1 土壤)进行盆栽实验。采用连续提取法测定土壤中的硒形态,采用不同模型研究硒在土壤中的行为及其对小麦的有效性。结果表明,土壤中硒的分布和有效性及其在小麦中的积累既受硒浓度的影响,也受外源硒形态的影响。在亚硒酸盐处理的土壤中,与对照(12%)相比,可交换态和碳酸盐结合态硒(EXC-Se)(21-42%)比例增加,而有机结合态硒(OM-Se)(23-33%)和铁锰氧化物结合态硒(FMO-Se)(11-15%)比例下降(分别为 37%和 32%)。在硒酸盐处理的土壤中,与对照相比,可溶态硒(SOL-Se)(30-54%)增加,而 OM-Se(9.8-20%)和 FMO-Se(4.7-14.2%)比例下降。与对照相比,亚硒酸盐(7.4-13.4%)和硒酸盐(12-20%)处理的残渣态硒(RES-Se)比例增加。与对照相比,两种硒酸盐处理(亚硒酸盐和硒酸盐)的有效态硒(SOL-Se + EXC-Se)比例均增加(32-47%和 54-72%)。此外,在相同的硒施用量下,硒酸盐处理土壤中硒的有效性高于亚硒酸盐处理土壤。硒的再分布指数(U)从对照(1)增加到亚硒酸盐和硒酸盐处理的 1.2-1.9 和 1.5-2;此外,硒酸盐处理土壤中的迁移因子(MF)比亚硒酸盐处理土壤高 40-90%。此外,与对照相比,两种硒酸盐处理(0.38-0.45 和 0.33-0.41)的相对结合强度(I)均降低。这些差异表明,亚硒酸盐和硒酸盐在土壤中的固定能力、土壤中硒形态的转化和分布以及对植物的有效性方面存在差异。米氏方程的结果表明,叶片对硒酸盐具有高亲和力,而根和籽粒对亚硒酸盐具有高亲和力。硒酸盐在小麦植株的几乎所有部位和每种施用量下均占主导地位。然而,亚硒酸盐对小麦籽粒的亲和力表明,亚硒酸盐是一种有用的硒肥料,在生物强化计划中必须加以考虑。必须在盆栽和田间尺度上进行更深入的研究,使用不同的小麦品种和不同生态区的硒施用方法,以阐明土壤-植物系统中硒的机制和生化特性,并最终生产富含硒的主食。
