DIVERSIDAD DEL MAÍZ EN TRES ZONAS GEOMORFOLÓGICAS DE YUCATÁN, MÉXICO

Q3 Agricultural and Biological Sciences
Elia María Ku-Pech, J. O. Mijangos-Cortés, Ignacio Islas-Flores, Enrique Sauri-Duch, L. Latournerie-Moreno, Yaritza Rodriguez-Llanes, José Luis Simá-Gómez
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引用次数: 0

Abstract

Background: Maize (Zea mays L.) is the main sustenance in the daily diet of Mexican families. As a crop, it is one of the most important in the country of Mexico, and in Yucatan state, it is grown under rainfed conditions in milpas with no mechanizable lands. In this study, an analysis of the phenotypic variability from cob collects of native maize from Yucatan state was carried out, with ethnobotanical information collected within passport data. Objectives: To introduce the genetic diversity of maize into a germplasm bank, to know the genetic diversity of native populations based on the characteristics of cob, to know its distribution, to find the potential populations in each collection area for its use in genetic improvement programs. Methodology: 66 Tuxpeños, 13 Dzit bacal, 6 Nal tel, 13 Xmejen nal, and 2 Nal xoy were collected in the southern, central, and eastern regions of the state, from January to March 2020, by sampling the four cardinal points in each community visited. A vector map of collections in Yucatan was developed and quantitative data of 13 biometric cob variables were recorded in 100 populations (crop cycles: late n=68; intermediate n=26; early n=6), a general data analysis of variance (ANOVA) and by crop cycles were made, principal component analysis (PCA), hierarchically clustered with the average linkage method and discriminant analysis were made. Qualitative data from ethnobotanical surveys with mixed questions applied to milperos at the time of collection are presented. Results: The diversity of native maize in Yucatan is made up of three main groups based on the crop cycle: late, intermediate, and early. The southern and eastern regions of Yucatan preserve greater diversity, representing 44 and 40% of the total collections, respectively. There were significant differences in all ear variables; in a late growth cycle, only the grain thickness did not show differences between populations, and in the early growth cycle the grain thickness, width, and length variables were not significant. The PCA explained 80% of the total variation, seven different groups were formed, with greater differentiation in early maize Nal tel, intermediate Xmejen nal and Dzit bacal, contrary to the Tuxpeños late maize. Ten promising populations were identified for selection in each geomorphological region: eight correspond to the southern, two to the eastern, and one to the center of Yucatan state. The main factors to select for sowing corn in the region are: white and yellow maize for yield, the resistance to weevil attack for red maize, and the perception of color and palatability in purple maize. Implications: A complete phenotypic characterization in the field is required with a special interest in red-pigmented maize. Conclusions: The interest of the milperos in conserving and sowing the different native maize are based on the color of the grain, the benefits and uses that they can obtain from them, which determine the planting area in the milpas of the different races/varieties of maize. Red grain maize is being planted in a lower area in relation to other colors. The southern and eastern geomorphological regions showed a genetic flow between them.
墨西哥尤卡坦三个地貌区玉米的多样性
背景:玉米(Zea mays L.)是墨西哥家庭日常饮食中的主要食物。作为一种作物,它是墨西哥最重要的作物之一,在尤卡坦州,它生长在没有机械化土地的米尔帕斯州的降雨条件下。在这项研究中,利用护照数据中收集的民族植物学信息,对尤卡坦州本地玉米的玉米芯采集的表型变异进行了分析。目的:将玉米的遗传多样性引入种质库,根据玉米芯的特征了解本地群体的遗传多样度,了解其分布,在每个采集区寻找潜在的群体,用于遗传改良计划。方法:2020年1月至3月,在该州南部、中部和东部地区收集了66个Tuxpeños、13个Dzit-bacal、6个Nal-tel、13个Xmejen-Nal和2个Nal-xoy,方法是对每个访问社区的四个基点进行采样。开发了尤卡坦采集的矢量图,并在100个种群中记录了13个生物特征玉米芯变量的定量数据(作物周期:后期n=68;中期n=26;早期n=6),进行了一般方差分析(ANOVA)和按作物周期分析,进行了主成分分析(PCA)、平均连锁法分层聚类和判别分析。介绍了收集时应用于米尔佩罗斯的民族植物学调查的定性数据和混合问题。结果:尤卡坦半岛本地玉米的多样性根据作物周期由三个主要群体组成:后期、中期和早期。尤卡坦半岛的南部和东部地区保存着更大的多样性,分别占总藏品的44%和40%。所有耳部变量均存在显著差异;在生长后期,只有谷粒厚度没有表现出种群之间的差异,而在生长早期,谷粒厚度、宽度和长度变量没有显著差异。主成分分析解释了80%的总变异,形成了七个不同的组,与Tuxpeños晚玉米相反,早玉米Nal-tel、中间玉米Xmejen-Nal和Dzit-bacal的分化更大。在每个地貌区确定了10个有前景的种群供选择:8个对应于尤卡坦州南部,2个对应于东部,1个对应于中部。在该地区播种玉米的主要因素是:白色和黄色玉米的产量,红色玉米对象甲攻击的抵抗力,以及紫色玉米对颜色和适口性的感知。含义:对红色色素玉米特别感兴趣,需要在田间进行完整的表型表征。结论:农民对保存和播种不同的本地玉米的兴趣是基于谷物的颜色、他们可以从中获得的利益和用途,这决定了不同种族/品种的玉米在milpas的种植面积。与其他颜色相比,红粒玉米种植在较低的地区。南部和东部地貌区之间存在成因流。
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来源期刊
Tropical and Subtropical Agroecosystems
Tropical and Subtropical Agroecosystems Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.00
自引率
0.00%
发文量
49
审稿时长
24 weeks
期刊介绍: The journal is an international peer-reviewed publication devoted to disseminate original information contributing to the understanding and development of agroecosystems in tropical and subtropical areas. The Journal recognizes the multidisciplinary nature of its scope and encourages the submission of original manuscripts from all of the disciplines involved in this area. Original contributions are welcomed in relation to the study of particular components of the agroecosystems (i.e. plant, animal, soil) as well as the resulting interactions and their relationship/impact on society and environment. The journal does not received manuscripts based solely on economic acpects o food technology.
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