Published December 1987
by Center Agricultural Pub & Document .
Written in English
|The Physical Object|
|Number of Pages||133|
The effects of low temperature on seedling growth of maize genotypes () Pagina-navigatie: Main; Save publication. Save as MODS; Export to Mendeley; Save as EndNote::wurpubs/ Seed priming with chitosan improves maize germination and seedling growth in relation to physiological changes under low temperature stress. Journal of Zheijian University 10(6), p Harris D, Rashid A, Miraj G, Arif M, Shah H. On-farm seed priming with zinc sulphate solution, a cost effective way to increase the maize yields of The Effects of Low Temperature on Seedling Growth of Maize Genotypes 著作者等 Miedema, P. シリーズ名 Agricultural research reports 出版元 Backhuys Publishers 刊行年月 ページ数 p 大きさ H x W ISBN 言語 Low temperature is the primary factor to affect maize sowing in early spring. It is, therefore, vital for maize breeding programs to improve tolerance to low temperatures at seed germination stage. However, little is known about maize QTL involved in low-temperature germination ability. lines of the intermated B73×Mo17 (IBM) Syn4 recombinant inbred line (RIL) population was used for QTL ?id=/
Several studies have investigated chilling‐stress effects on photosynthesis and other aspects The role of low soil temperature in the inhibition of growth and PSII function during dark chilling in soybean genotypes of contrasting tolerance - Strauss - - Physiologia Plantarum - Wiley Online Library Chronic effects of high temperature include effects on grain growth discussed above. Record crop yields clearly reflect the importance of season-long effects on crop yields: crops generally yield the most where temperatures are cool during growth of the harvested Interactive effects of multiple environmental stresses are predicted to have a negative effect on cotton growth and development and these effects will be exacerbated in the future climate. The objectives of this study were to test the hypothesis that cotton cultivars differ in their responses to multiple environmental factors of (CO2) [ and µmolmol–1 (+(CO2)], temperature [28/20 A greenhouse experiment was conducted to understand the seedling germination behaviour and growth of sorghum genotypes, to investigate genotypic differences between sorghum genotypes and to identify a selection method for seedling drought resistance studies in
Effects of drought stress on maize depend on the growth stage of prevalence, duration of prevalence, and intensity of stress. Information about critical growth stages is a prerequisite for After the first week, temperature influences growth less and the relative growth rates are about the same at 25, 28, and 31 °C (Yoshida, ). A temperature of 22 °C or below is considered subnormal for seedling growth. The seedling growth may be reasonably good up to 35 °C, above which it declines sharply. The seedlings will die above 40 °:// David Brand, Chathurika Wijewardana, Wei Gao, K. Raja Reddy, Interactive effects of carbon dioxide, low temperature, and ultraviolet-B radiation on cotton seedling root and shoot morphology and growth, Frontiers of Earth Science, /s, 10, 4, (), (). % of the phenotypic variance for low-temperature seed germination in maize by the use of three connected F populations with inbred lines of two low-temperature-tolerant inbred lines, and P9 –10, and two susceptible lines, Y and PH4CV . Several SNPs associated with low-temperature-tolerance traits at the seedling and seed