Genotypic variation in cardinal temperatures and thermal time for germination and seedling emergence of pigeonpea (Cajanus cajan [L.] Millsp.)

Experimental Results Pub Date : 2021-12-09 DOI:10.1017/exp.2021.31

S. Mahendraraj, Marisa J Collins, Y. Chauhan, V. Mellor, R. Rachaputi

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Abstract

Abstract In this study, we define the cardinal temperatures and thermal time for germination and emergence of pigeonpea genotypes. Seeds of six genotypes were subjected to constant temperatures ranging between 5 and 50°C in petri dishes with filter paper (germination) and with media (emergence) were placed in a thermal gradient plate. A nonlinear bent-stick model fitted to the rate of development to germination and emergence resulted in parameters predicting cardinal temperatures including base (Tb), optimum (To), maximum (Tm), and thermal time. Estimated Tb for 50% germination and emergence were 8.4 and 10.8°C, respectively, with no significant differences between genotypes. Optimum temperatures were 33.8 and 37.9°C for germination and emergence, respectively, with genotypes differing significantly. Thermal time for 50% germination and emergence varied significantly among genotypes. The results suggest that genotypic responses to the temperature are typical for their tropical origin and hence their suitability for cropping in summer dominant rainfall regions insubtropical Australia.

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鸽豆萌发和出苗基本温度和热时间的基因型变异[j]。] Millsp。)

摘要在本研究中，我们确定了鸽豌豆基因型萌发和出苗的基本温度和热时间。将6种基因型的种子置于5 - 50°C的恒温培养皿中，滤纸(发芽)和培养基(出苗)放置在热梯度板上。利用非线性弯棒模型拟合发芽和出苗期的生长速率，得到基本温度(Tb)、最适温度(to)、最大温度(Tm)和加热时间等参数。估计萌发和出芽50%的Tb分别为8.4°C和10.8°C，基因型之间无显著差异。发芽和出芽的最适温度分别为33.8℃和37.9℃，基因型差异显著。50%萌发和出苗的热时间在不同基因型间差异显著。结果表明，对温度的基因型反应在其热带原产地是典型的，因此它们适合在澳大利亚亚热带夏季降雨优势区种植。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Experimental Results

CiteScore

1.50

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0.00%

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