Chemical Constituents and Seedlings Growth of Dalbergia Sissoo Roxb. as Affected by Magnetic Diluted Seawater and Bio fertilization Treatments

A. Sakran, A. Soliman, Essam N. Alatrash
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Abstract

This trial was conducted to investigate the effect of magnetized diluted seawater and bio fertilization on seedlings growth and chemical constituent of Dalbergia sissoo . during the two successive seasons of 2016 /2017 and 2017/2018 at the experimental farm of El-qanater El Khairia Horticultural Research Station, Egypt. Three diluted seawater at concentrations of (2000, 4000 and 5000 mg1) as well as control (Nile Water) have taken and four treatments were used namely magnetized diluted seawater alone, biofertilizer with mixtures of Cyanobacteria (algae of Anabaena sp. and Nostoc sp.), biofertilizer plus magnetized technique and the control which nonmagnetic and nonbiofertilizer. The obtained results demonstrated that different salinity levels significantly reduced increment of seedling height, stem diameter, leaf area, root length and fresh and dry biomass, whereas the high levels of 5000 mg1salinity neither the seedlings irrigated with separately saline water nor were treated with magnetization or bio fertilization survived, also salinity caused a reduction in total chlorophylls and total carbohydrates in contrast proline content increased, mineral nutrition's N, P and K % decreased whereas Na increased consequently K/ Na ratio decreased. Treatment of exposure the seedlings to magnetized diluted seawater or non-saline significantly increased all parameters of plant height, stem diameter, leaf area, root length and fresh and dry weight biomass compared to control, also bio fertilization as alone or as a mixture with magnetic device resulted in an increase in total chlorophylls , total carbohydrates in the stem, proline content in leaves and the absorption elements of N, P and K % raised while, Na+ content decreased consequently K/ Na ratio increased. Therefore, the current study cleared that seedlings of Dalbergia sissoo tolerated salinity level up to 4000 mg1 and the magnetization or bio fertilization ameliorated most of the growth parameters and enhanced the status of chemical constituents producing healthy seedlings.
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黄檀的化学成分与幼苗生长磁性稀释海水和生物施肥处理对土壤水分的影响
本试验研究了磁化稀释海水和生物施肥对黄檀幼苗生长和化学成分的影响。在2016 /2017和2017/2018两个连续的季节,在埃及El-qanater El Khairia园艺研究站的实验农场。采用浓度分别为(2000、4000和5000mg / 1)的三种稀释海水和对照(尼罗河水),并采用四种处理方法,即单独磁化稀释海水、混合蓝藻(Anabaena sp.和Nostoc sp.的藻类)的生物肥料、生物肥料加磁化技术以及非磁性和非生物肥料的对照。结果表明,不同盐度水平显著降低了幼苗高、茎粗、叶面积、根长和鲜干生物量的增量,而在5000 mg / l高盐度条件下,分别用盐水灌溉、磁化或生物施肥处理的幼苗均无法存活,且盐度降低了总叶绿素和总碳水化合物含量,脯氨酸含量升高,矿质营养氮含量升高。P、K %降低,Na升高,K/ Na比值降低。与对照相比,磁化稀释海水和不含盐水处理显著提高了幼苗株高、茎粗、叶面积、根长和鲜干重生物量的各项参数,单独或与磁化装置混合生物施肥使总叶绿素、茎中总碳水化合物、叶片脯氨酸含量和N、P、K吸收元素含量增加;Na+含量降低,K/ Na比值增大。因此,本研究明确了黄檗幼苗耐受高达4000 mg / 1的盐度,磁化或生物施肥改善了大部分生长参数,提高了化学成分的状态,使幼苗健康。
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