A. S. Arunima, R. V. Manju, M. M. Viji, S. Roy, S. Sarada, R. Beena
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引用次数: 0
摘要
该研究旨在了解不同养分和生物肥料在二氧化碳诱导高温条件下对番茄品种 Vellayani Vijai 的抗逆性的作用。盆栽研究采用了 9 种处理,包括 50 ppm B + 50 ppm Zn + 喷水(T1)、75 ppm B + 75 ppm Zn(T2)、POP 150 ppm N + 125 ppm P + 125 ppm K(T3)、Azolla(土壤施用)(T4)、 杜鹃花生物肥提取物(20%)(叶面喷施)(T5)、杜鹃花生物肥提取物(20%)(种子处理)(T6)、持久性有机污染物、KAU + PGPR1(T7)、对照(喷水)(T8)、绝对对照(T9)。研究发现,在高浓度 CO2 条件下,与 POP、KAU(喀拉拉邦农业大学一揽子实践)推荐的剂量相比,叶面喷施两种不同浓度的硼和锌以及叶面喷施杜鹃花生物肥提取物(20%)可提高相对含水量、细胞膜稳定指数和脯氨酸含量,从而有效诱导番茄植株的抗逆性。
Role of Nutrients and Biofertilizers for Improved Tolerance of Tomato under Elevated Co2 Induced High Temperature Stress
The purpose of the study was to understand the role of different nutrients and biofertilizers on the stress tolerance of the tomato variety Vellayani Vijai under elevated CO2 induced high temperature condition. A pot culture study was done with 9 treatments included 50 ppm B + 50 ppm Zn + water spray (T1), 75 ppm B + 75 ppm Zn (T2), POP 150 ppm N + 125 ppm P+ 125 ppm K (T3), Azolla (Soil application) (T4), Azolla biofertilizer extract (20 %) (foliar application) (T5), Azolla biofertilizer extract (20%) (seed treatment) (T6), POP, KAU + PGPR1(T7), Control (water spray) (T8), Absolute control(T9). The application of 50% extra N and 25% extra P and K (T3) each than the recommended doses as per POP, KAU (Package of practices, Kerala Agricultural University) as well as foliar application of B and Zn at two different concentrations and foliar application of Azolla biofertilizer extract (20%) was found to be effective in inducing stress tolerance in tomato plants under elevated CO2 condition by improving the relative water content, cell membrane stability index and proline content.
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