Biochemical Analysis Based on Zinc Uptake of Chickpea (Cicer arietinum L.) Varieties Infected by Meloidogyne incognita

Pranaya Pradhan, D. Nayak, Manaswini Mahapatra
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Abstract

The significant constraints in Chickpea (Cicer arietinum L.) production hampers a bit more than 14% global yield loss due to plant-parasitic nematodes. Root-knot nematode (Meloidogyne sp.) is an endoparasite and a significant species affecting the chickpea plant. So, the chemical basis of management is more cost-effective, and pest resurgence building is enhanced in the pathogen. So, ecological-based nematode management is requisite, which also is got hampered due to breeding for resistance against such plant-parasitic nematodes. This was the primary reason to conduct this experiment to enhance resistance in the chickpea plants based on Zinc uptake by using bioagent, Pseudomonas fluorescens alone or in combination. where Different treatments including nematode, bacterium, and chemicals were used sustaining the enhancement of disease resistance in chickpea cultivars, RSG 974, GG 5, GNG 2144. Zinc content of chickpea variety GNG 2144 was found the highest in treatment, when only bacterium (P. fluorescens) was inoculated, i.e., 3.14 mg/100g of root followed by GG 5, i.e., 2.79 mg/100g of root and RSG 974 was, i.e., 2.35 mg/100g of root respectively in a descending order. Application of P. fluorescence combined or alone gradually increased the Zn concentration in roots of chickpea plants compared to healthy check followed by chemical treated plants.
鹰嘴豆(Cicer arietinum L.)锌吸收的生化分析被不明丝虫病感染的品种
鹰嘴豆(Cicer arietinum L.)生产受到严重限制,导致全球因植物寄生线虫造成的产量损失略高于14%。根结线虫(Meloidogyne sp.)是影响鹰嘴豆植物的一种重要内寄生虫。因此,化学基础管理更具成本效益,并在病原体中加强了害虫的复生建设。因此,基于生态的线虫管理是必要的,但由于对这种植物寄生线虫的抗性育种而受到阻碍。因此,本试验旨在通过单独或联合使用荧光假单胞菌对锌的吸收来增强鹰嘴豆植株的抗性。其中,采用线虫、细菌和化学药剂等不同处理,持续增强了鹰嘴豆品种RSG 974、GG 5、GNG 2144的抗病性。鹰嘴豆品种GNG 2144的锌含量最高,仅接种细菌(P. fluorescens)时为3.14 mg/100g,其次为GG 5,为2.79 mg/100g, RSG 974为2.35 mg/100g。与先化学处理后健康对照相比,P.荧光联合或单独施用使鹰嘴豆植株根系锌浓度逐渐升高。
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