利用亚热带气候下甘蔗产量和质量的多变量稳定性模型揭示甘蔗克隆的稳定性

IF 1.8 3区农林科学 Q2 AGRONOMY

Sugar Tech Pub Date : 2024-08-07 DOI:10.1007/s12355-024-01442-9

Mintu Ram Meena, Ravinder Kumar, R. Karuppaiyan, Neeraj Kulshreshtha, Manohar Lal Chhabra, Amaresh, Gopalareddy Krishnappa, Aswini Nunavath, K. Mohanraj, Perumal Govindaraj, Govind Hemaprabha

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引用次数: 0

摘要

甘蔗（Saccharum spp.）是一种重要的经济作物，可提供全球 40% 的乙醇和约 80% 的蔗糖。在不断变化的气候条件下，鉴定经济性状稳定的克隆对于甘蔗改良非常重要。在 2021-22 年、2022-23 年和 2023-24 年这 3 年中，采用扩增区组设计对 120 个克隆品种和 4 个标准品种进行了产量和质量性状评估。在甘蔗产量和质量性状方面，基因型、环境和基因型×环境交互作用（GEI）都很明显。根据 PCA 分析，基因型 Co 1148、CoPb 9181、CoLk 94,184 和 CoP 2061 在产量性状方面表现最好，而 CoJ 85、CoJ 88 和 BO 110 在质量性状方面表现最好。通过聚类分析，基因型被分为四个聚类。AMMI 分析确定了 9 个共同的基因型，即 CoPb 9181、Co 1148、CoPant 03220、BO 91、CoPant 90,223、CoBln 9105、CoH 128、CoH 119 和 CoH 160，它们在甘蔗产量和 CCS 产量方面均表现出较高的主效应。同样，BO 101、BO 147、CoP 2061 对甘蔗产量的主效应较高，而 CoSe 95,436、BO 110、CoH 160、CoPant 84,212 对 CCS 产量的主效应较高。政府专家小组将 E1 和 E2 作为特大环境对甘蔗产量进行了分析，将 E1 和 E3 作为特大环境对 CCS 产量进行了分析。在 CCS 产量和甘蔗产量方面，Co 1148 和 CoPb 9181 都是可靠的高效基因型。因此，PCA、AMMI 和 GGE 分析表明，基因型 Co 1148（G20）和 CoPb 9181（G58）稳定、高产，在甘蔗产量和 CCS 产量方面优于其他试验基因型和对照品种。这可能是甘蔗和 CCS 高产的潜在遗传资源，可作为积极育种计划的优良供体，以培育甘蔗和 CCS 高产的甘蔗改良品种。

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Unraveling the Stability of Sugarcane Clones Using Multivariate Stability Models for Cane Yield and Quality Under Subtropical Climates

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Unraveling the Stability of Sugarcane Clones Using Multivariate Stability Models for Cane Yield and Quality Under Subtropical Climates

Sugarcane (Saccharum spp.) is an important commercial crop, which provides 40% of the world’s ethanol and around 80% of the world’s sugar. The identification of stable clones for economic traits is very important for sugarcane improvement under changing climatic conditions. A set of 120 clones along with four standards were evaluated for yield and quality traits during 3 years 2021–22, 2022–23, and 2023–24 in an augmented block design. There was a significant genotype, environment, and genotype × environment interaction (GEI) for cane yield and quality traits. The genotypes Co 1148, CoPb 9181, CoLk 94,184, and CoP 2061 performed best for yield traits, while CoJ 85, CoJ 88, and BO 110 performed best for quality traits, according to the PCA analysis. The genotypes were divided into four clusters by the agglomerative cluster analysis. AMMI analysis pinpointed a set of nine common genotypes, i.e., CoPb 9181, Co 1148, CoPant 03220, BO 91, CoPant 90,223, CoBln 9105, CoH 128, CoH 119, and CoH 160 that expressed higher main effects for both cane yield and CCS yield. Similarly, BO 101, BO 147, CoP 2061 expressed higher main effects for cane yield, whereas, CoSe 95,436, BO 110, CoH 160, CoPant 84,212 expressed higher main effects for the CCS yield. GGE analyzed E1 and E2 as a mega-environment for cane yield and E1 and E3 for CCS yield. Co 1148 and CoPb 9181 were reliable and high performing genotypes for both CCS yield and cane yield. Thus, PCA, AMMI, and GGE analysis unraveled that the genotype Co 1148 (G20) and CoPb 9181 (G58) were stable, high yielding, and superior compared to other test genotypes and check varieties for cane yield and CCS yield. This could be potential genetic resources for high cane and CCS yield and serve as an excellent donor in active breeding programs to develop improved sugarcane varieties with high cane and CCS yield.

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来源期刊

Sugar Tech AGRONOMY-

CiteScore

3.90

自引率

21.10%

发文量

145

期刊介绍： The journal Sugar Tech is planned with every aim and objectives to provide a high-profile and updated research publications, comments and reviews on the most innovative, original and rigorous development in agriculture technologies for better crop improvement and production of sugar crops (sugarcane, sugar beet, sweet sorghum, Stevia, palm sugar, etc), sugar processing, bioethanol production, bioenergy, value addition and by-products. Inter-disciplinary studies of fundamental problems on the subjects are also given high priority. Thus, in addition to its full length and short papers on original research, the journal also covers regular feature articles, reviews, comments, scientific correspondence, etc.