东北农业大学学报
東北農業大學學報
동북농업대학학보
JOURNAL OF NORTHEAST AGRICULTURAL UNIVERSITY
2013年
2期
12-16
,共5页
赵立琴%龚振平*%马春梅
趙立琴%龔振平*%馬春梅
조립금%공진평*%마춘매
干旱%大量营养元素%微量营养元素%大豆
榦旱%大量營養元素%微量營養元素%大豆
간한%대량영양원소%미량영양원소%대두
drought%macronutrients%micronutrients%soybean
采用沙培和淋浇PEG6000不同含量的营养液进行干旱胁迫处理方法,研究干旱胁迫对大豆叶片矿质元素含量和累积量的影响.设对照(CK)、轻度胁迫(MIS)、中度胁迫(MOS)和重度胁迫(SES)四个处理,营养液中PEG6000浓度分别为0、5%、10%和15%.结果表明,干旱胁迫对大豆叶片矿质元素含量和累积量有显著影响,干旱使叶片N、P含量降低,K、Cu、Zn含量无明显变化,Ca含量略有提高,Mg、Mn含量显著升高,Fe无明显规律性;干旱条件下大量元素和Fe、Cu累积量均降低,而Zn和Mn累积量保持稳定.
採用沙培和淋澆PEG6000不同含量的營養液進行榦旱脅迫處理方法,研究榦旱脅迫對大豆葉片礦質元素含量和纍積量的影響.設對照(CK)、輕度脅迫(MIS)、中度脅迫(MOS)和重度脅迫(SES)四箇處理,營養液中PEG6000濃度分彆為0、5%、10%和15%.結果錶明,榦旱脅迫對大豆葉片礦質元素含量和纍積量有顯著影響,榦旱使葉片N、P含量降低,K、Cu、Zn含量無明顯變化,Ca含量略有提高,Mg、Mn含量顯著升高,Fe無明顯規律性;榦旱條件下大量元素和Fe、Cu纍積量均降低,而Zn和Mn纍積量保持穩定.
채용사배화림요PEG6000불동함량적영양액진행간한협박처리방법,연구간한협박대대두협편광질원소함량화루적량적영향.설대조(CK)、경도협박(MIS)、중도협박(MOS)화중도협박(SES)사개처리,영양액중PEG6000농도분별위0、5%、10%화15%.결과표명,간한협박대대두협편광질원소함량화루적량유현저영향,간한사협편N、P함량강저,K、Cu、Zn함량무명현변화,Ca함량략유제고,Mg、Mn함량현저승고,Fe무명현규률성;간한조건하대량원소화Fe、Cu루적량균강저,이Zn화Mn루적량보지은정.
This study was carried out to investigate the effects of drought stress on the concentration and accumulation of macronutrients (N, P, K, Ca, and Mg) and micronutrients (Cu, Zn, Fe, and Mn) in leaves of soybean cultures (Suinong14) by sand culture. A factorial experiment was arranged in a completely randomized design with four replications. Water stress was applied by polyethylene glycol (PEG) 6000 at specified concentrations (W/V) into a nutrient solution. The experimental design consisted of four treatments: control (CK), mild stress (MIS), moderate stress (MOS), and severe stress (SES). Concentrations of PEG-6000 were 0, 5%, 10%, and 15%. The results showed that drought stress significantly impacts mineral nutrient uptake and accumulation. The concentration of N and P decreased, K, Cu, Zn content remained stable, Ca content slightly improved, Mg and Mn content increased significantly. whereas Fe content did not show any clear tendency under water-deficiency stress conditions. The accumulation of mineral macronutrients and Fe, Cu declined, Zn and Mn accumulation hold steady.