氮、磷、钾对黄河三角洲盐碱地棉花生长的影响

Q3 Agricultural and Biological Sciences
Cheng-Song XIN, He-Zhong DONG, Zhen LUO, Wei TANG, Dong-Mei ZHANG, Wei-Jiang LI, Xiang-Qiang KONG
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引用次数: 19

摘要

本研究旨在指导山东黄河三角洲沿海盐碱地Bt棉花品种SCRC28的施肥管理。将sccr28种植在高、中、低盐土壤中,采用对照(不施肥)、NPK、NP、NK 3种施肥处理。研究了不同施肥处理对Bt棉养分同化、Na+同化、净光合速率、干物质积累和皮棉产量的影响。与对照相比,NP和NPK处理显著提高了3种盐渍土植物对养分的吸收水平,显著降低了Na+的吸收水平,其中以NPK处理最为显著。在不同盐度处理中,氮磷钾处理的棉花养分农艺利用效率最高。低、中、高盐度条件下氮素农艺利用效率分别为0.20、1.95、2.07 kg / kg−1;农艺磷利用效率分别为0.87、8.35和8.71 kg皮棉kg−1;农艺K利用效率分别为0.26、2.89和3.77 kg / kg - 1。在3种盐渍土施肥处理中,NPK处理的叶面积、叶绿素含量和Pn均保持最高水平。在低盐、中盐和高盐土壤中,NPK处理的生物量和皮棉产量最高,比对照分别提高了2.53%、28.67%和30.47%。在中、高盐碱地施肥效果明显。在本研究中,施肥量以土壤盐度水平为基础。在中等盐度土壤中施用氮磷钾165 kg ha−1 + P2O5 38.57 kg ha−1 + K2O 111.5 kg ha−1,在高盐度土壤中施用氮磷钾135 kg ha−1 + P2O5 32.14 kg ha−1 + K2O 74.35 kg ha−1。因此,应根据土壤盐分水平推荐合理的施肥方案,以缓解营养障碍,改善棉花营养,最终达到提高农艺养分利用效率和棉花产量的目的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of N, P, and K Fertilizer Application on Cotton Growing in Saline Soil in Yellow River Delta

This study aimed at guiding fertilizer management for Bt cotton cultivar SCRC28 growing in coastal saline soil in the Yellow River Delta area in Shandong Province, China. SCRC28 was planted in the soils with high, middle, and low salinity under 3 fertilizer treatments, namely control (no fertilizers), NPK, NP, and NK. The effects of different fertilization treatments on nutrient assimilation, Na+ assimilation, net photosynthetic rate (Pn), dry matter accumulation, and lint yield of Bt cotton were investigated. Compared to the corresponding controls, the NP and NPK treatments had significantly higher nutrient uptake levels in plants in the 3 types of saline soils, and significantly lower levels of Na+ uptake, especially the NPK treatment. The nutrient use efficiencies in agronomy of cotton in the NPK treatment were the highest among treatments regardless the salinity level. The N use efficiencies in agronomy were 0.20, 1.95, and 2.07 kg lint kg−1 under the low, middle, and high salinity level, respectively; the P use efficiencies in agronomy were 0.87, 8.35, and 8.71 kg lint kg−1, respectively; and the K use efficiencies in agronomy were 0.26, 2.89, and 3.77 kg lint kg−1, respectively. The NPK treatment also maintained the highest levels of leaf area, chlorophyll content, and Pn among fertilization treatments in the 3 types of saline soils. The NPK treatment obtained the highest biomass and lint yield among the treatments, and the link yields were enhanced, compared to the corresponding controls, by 2.53%, 28.67%, and 30.47% in the low, middle, and high salinity soils, respectively. The effect of fertilization was obviously in the middle or high salinity fields. In this study, the fertilization quantities were based on the salinity level of soil. The NPK treatments were applied with N 165 kg ha−1 plus P2O5 38.57 kg ha−1 plus K2O 111.5 kg ha−1 in the middle salinity soil and N 135 kg ha−1 plus P2O5 32.14 kg ha−1 plus K2O 74.35 kg ha−1 in the high salinity soil. Therefore, rational fertilization schemes are recommended according to the salinity level of soil in order to alleviate nutrition obstacles and improve cotton nutrition, which ultimately result in the increases of nutrient use efficiencies in agronomy and cotton yield.

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