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引用次数: 1
摘要
氧化锌纳米颗粒(ZnO-NP)对酸性沙质土壤作物生理和锌恢复的影响研究甚少。为了解决这一问题,在为期60天的温室盆栽(塑料盆栽,6 kg土壤,玉米)试验中,通过不同的方法(土壤淋施,种子包衣和叶喷)施用ZnO-NP (50, 100, 150, 200 mg kg - 1)。结果表明,通过种子包衣(100 mg kg−1)和土壤淋施(150 mg kg−1)施用ZnO-NP能提高玉米茎部和总磷的吸收,而通过叶面施用(50 mg kg−1)ZnO-NP能提高玉米生长(6-11%),最终提高玉米生物量(16-20%)、锌农艺效率和吸收。与ZnSO4处理和对照相比,100 mg kg - 1 ZnO-NP包衣使叶片叶绿素和色素含量提高了12-127%。主成分分析表明,ZnO-NPs对植株生长性状、植物色素、荧光参数、总锌、总磷浓度和总生物量的影响密切相关。因此,与传统的ZnSO4和更高剂量的ZnO-NPs相比,施用50mg kg - 1的ZnO-NP叶面喷施、100mg kg - 1的种子包衣或150mg kg - 1的土壤淋施能提高玉米的生化特性、生长、生物量和Zn农艺效率。这说明了在酸性沙质土壤中施用ZnO-NP对促进植物发育和锌的生物强化具有重要意义。
Agronomic Zn biofortification through nano ZnO application enhanced growth, photosystem efficiency, Zn and P nutrition in maize
ABSTRACT Zinc-oxide nanoparticles (ZnO-NP) effect on crop physiology and zinc recovery remains poorly studied for acidic-sandy soils. To address this, greenhouse pot (plastic-pots, 6 kg soil, maize) experiments with ZnO-NP (50, 100, 150, 200 mg kg−1) applied via different methods (soil-drench, seed-coating and foliar-spray) was conducted in a 60 days study. Results revealed that ZnO-NP via seed-coating (100 mg kg−1) and soil-drench (150 mg kg−1) enhanced shoot and total P uptake, while ZnO-NPs (foliar) (50 mg kg−1) enhanced maize growth (6–11%), with agronomic and physiological improvements ultimately resulted in greater biomass (16–20%), Zn agronomic efficiency and uptake. Compared to ZnSO4 treatment and the control, seed-coating with 100 mg kg−1 ZnO-NP increased leaf chlorophyll and pigment content by 12–127%. Principal component analysis revealed a close association among growth traits, plant pigments, fluorescence parameters, total Zn and P concentration, and uptake with total biomass as influenced by ZnO-NPs. Thus, compared to conventional ZnSO4 and higher dosages of ZnO-NPs, foliar-spray of ZnO-NP at 50 mg kg−1, seed-coating at 100 mg kg−1, or soil-drench at 150 mg kg−1 increased maize biochemical characteristics, growth, biomass, and Zn agronomic efficiency. These elucidate important implications of ZnO-NP application for increasing plant development and Zn biofortification in acidic-sandy soils.
期刊介绍:
rchives of Agronomy and Soil Science is a well-established journal that has been in publication for over fifty years. The Journal publishes papers over the entire range of agronomy and soil science. Manuscripts involved in developing and testing hypotheses to understand casual relationships in the following areas:
plant nutrition
fertilizers
manure
soil tillage
soil biotechnology and ecophysiology
amelioration
irrigation and drainage
plant production on arable and grass land
agroclimatology
landscape formation and environmental management in rural regions
management of natural and created wetland ecosystems
bio-geochemical processes
soil-plant-microbe interactions and rhizosphere processes
soil morphology, classification, monitoring, heterogeneity and scales
reuse of waste waters and biosolids of agri-industrial origin in soil are especially encouraged.
As well as original contributions, the Journal also publishes current reviews.
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