Janzen Garrett M, Aguilar-Rangel María Rocío, Cíntora-Martínez Carolina, Blöcher-Juárez Karla Azucena, González-Segovia Eric, Studer Anthony J, Runcie Daniel E, Flint-Garcia Sherry A, Rellán-Álvarez Rubén, Sawers Ruairidh J H, Hufford Matthew B
Department of Ecology, Evolution, and Organismal Biology Iowa State University Ames Iowa USA.
Present address: Department of Plant Biology University of Georgia Athens Georgia 30602 USA.
Evol Appl. 2022 Apr 14;15(5):817-837. doi: 10.1111/eva.13372. eCollection 2022 May.
Populations are locally adapted when they exhibit higher fitness than foreign populations in their native habitat. Maize landrace adaptations to highland and lowland conditions are of interest to researchers and breeders. To determine the prevalence and strength of local adaptation in maize landraces, we performed a reciprocal transplant experiment across an elevational gradient in Mexico. We grew 120 landraces, grouped into four populations (Mexican Highland, Mexican Lowland, South American Highland, South American Lowland), in Mexican highland and lowland common gardens and collected phenotypes relevant to fitness and known highland-adaptive traits such as anthocyanin pigmentation and macrohair density. 67k DArTseq markers were generated from field specimens to allow comparisons between phenotypic patterns and population genetic structure. We found phenotypic patterns consistent with local adaptation, though these patterns differ between the Mexican and South American populations. Quantitative trait differentiation ( ) was greater than neutral allele frequency differentiation ( ) for many traits, signaling directional selection between pairs of populations. All populations exhibited higher fitness metric values when grown at their native elevation, and Mexican landraces had higher fitness than South American landraces when grown in these Mexican sites. As environmental distance between landraces' native collection sites and common garden sites increased, fitness values dropped, suggesting landraces are adapted to environmental conditions at their natal sites. Correlations between fitness and anthocyanin pigmentation and macrohair traits were stronger in the highland site than the lowland site, supporting their status as highland-adaptive. These results give substance to the long-held presumption of local adaptation of New World maize landraces to elevation and other environmental variables across North and South America.
当种群在其原生栖息地表现出比外来种群更高的适应性时,就表明它们发生了本地适应性进化。玉米地方品种对高地和低地环境的适应性是研究人员和育种者感兴趣的课题。为了确定玉米地方品种中本地适应性进化的普遍性和强度,我们在墨西哥的一个海拔梯度上进行了一项 reciprocal transplant 实验。我们种植了120个地方品种,分为四个种群(墨西哥高地、墨西哥低地、南美高地、南美低地),分别种植在墨西哥高地和低地的普通园地里,并收集了与适应性以及已知的高地适应性性状相关的表型,如花色苷色素沉着和大毛密度。从田间样本中生成了67k DArTseq标记,以便比较表型模式和种群遗传结构。我们发现了与本地适应性进化一致的表型模式,尽管这些模式在墨西哥和南美种群之间有所不同。许多性状的数量性状分化()大于中性等位基因频率分化(),这表明种群对之间存在定向选择。所有种群在其原生海拔高度种植时,适应性指标值都更高,并且在这些墨西哥地点种植时,墨西哥地方品种的适应性高于南美地方品种。随着地方品种原生采集地点与普通园地之间环境距离的增加,适应性值下降,这表明地方品种适应其出生地的环境条件。在高海拔地点,适应性与花色苷色素沉着和大毛性状之间的相关性比低海拔地点更强,这支持了它们作为高地适应性性状的地位。这些结果证实了长期以来关于新大陆玉米地方品种对北美和南美海拔高度及其他环境变量具有本地适应性的推测。
