伊朗不同地区有前途的玉米杂交种对环境变化的适应性

H. Momeni, M. Shiri, E. Hervan, M. Khosroshahli
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引用次数: 0

摘要

导读:农业系统的可持续性在适应气候变化方面发挥着关键作用。有充分的证据表明,生物多样性可以通过改变环境条件来增加生态系统过程的稳定性。因此,育种计划的有效性需要正确认识育种品种对不同气候和土壤条件的环境的反应。因此,本研究旨在评估一些玉米新杂交种对不同环境条件的响应,并确定其产量稳定性。材料和方法:本研究采用随机完全区组设计,于2017年种植季在6个地点进行3个重复的16个玉米杂交种。考虑到杂交种与环境(GxE)相互作用的显著差异,采用AMMI和GGE-biplot方法进行稳定性分析,以确定稳定和高产杂交种。结果与讨论:AMMI模型的结果显示,只有AMMI的前两个主成分(ammi1和AMMI2)是显著的,描述了G×E相互作用方差的68.53%。根据AMMI模型(ASV和SPCA1)的统计结果,16号(SC704)和1号(klm77002 -1-1-1-1-1-3 × K18)被认为是最稳定的杂交品种。GGE双图稳定性分析解释了71.5%的粮食产量变化是由GGE两个分量引起的。此外,通过GGE双标图法鉴定了16号和1号杂交种为优良稳定杂交种。结论:总体而言,产量和稳定性分析结果表明,杂种16号和1号的产量分别为12.76 t/ hm2和11.72 t/ hm2,在产量和稳定性方面均优于其他杂交种,适应性广,可在伊朗栽培。此外,环境间相关性的双图分析显示,Kermanshah, Esfahan和Shiraz,以及Moghan和Miyandoab在排名,分组和评估稳定性方面更接近和相似。此外,克尔曼和卡拉伊地区在杂交歧视方面与其他地区不太相似。考虑到Shiraz、Miyandoab、Kerman和Karaj环境中杂交品种的辨别能力较高,为降低成本,建议今后在上述环境中进行试验。
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The adaptability of promising maize hybrids to environmental changes in different regions of Iran
Introduction: The sustainability of agricultural systems plays a key role in adapting to climate change. There is ample evidence that biodiversity can increase the stability of ecosystem processes by changing environmental conditions. Therefore, the effectiveness of breeding programs requires a correct understanding of the reaction of breeding cultivars to environments with different climatic and soil conditions. Therefore, this study was conducted to assess the response of some new maize hybrids to divergent environmental conditions and determine their grain yield stability. Material and methods: This study was conducted with 16 maize hybrids using a randomized complete block design with three replications in six locations, during the 2017 cropping season. Considering significant differences for hybrid × environment (GxE) interaction, stability analyses were performed using AMMI and GGE-biplot methods to determine stable and high-yielding hybrids. Results and discussion: The results of the AMMI model showed that only the first two principal components of AMMI (AMMI1and AMMI2) were significant and described 68.53% of the variance of G×E interaction. Based on the results of statistics of the AMMI model (ASV and SPCA1), hybrids No. 16 (SC704) and 1 (KLM77002/3-1-1-1-1-1-1-3 × K18) were recognized as the most stable hybrids. Stability analysis by GGE biplot procedure explained 71.5% of grain yield variation due to two components of GGE. In addition, hybrids No. 16 and 1 were identified as superior and stable hybrids by the GGE biplot graphical method. Conclusion: Generally, results of grain yield and stability analyses showed that hybrids No. 16 and 1 with 12.76 and 11.72 t/ha yields, respectively, were better than other hybrids across environments for yield and stability with wide adaptation and thus can be cultivated in Iran. Also, biplot analysis of correlation among environments revealed that Kermanshah, Esfahan, and Shiraz, as well as and Moghan and Miyandoab were closer and similar in ranking, grouping, and assessing stability. Also, Kerman and Karaj regions were less similar to other regions in terms of hybrids discrimination. Considering the high discriminate power of hybrids in Shiraz, Miyandoab, Kerman, and Karaj environments, and in order to decrease the costs, it is recommended to conduct future trials in the aforementioned environments.
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