Turning Over a New Leaf: Experimental Investigations into the Role of Developmental Plasticity in the Domestication of Goosefoot (Chenopodium berlandieri) in Eastern North America

IF 2.7 1区 历史学 Q1 ANTHROPOLOGY
Megan E. Belcher, Daniel Williams, Natalie G. Mueller
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Abstract

In eastern North America, Indigenous peoples domesticated several crops that are now extinct. We present experimental data that alters our understanding of the domestication of one of these—goosefoot (Chenopodium berlandieri). Ancient domesticated goosefoot has been recognized on the basis of seed morphology, especially a decrease in the thickness of the seed coat (testa). Nondomesticated goosefoot also sometimes produces seeds that look similar or even identical to domesticated ones, but researchers believed that such seeds were rare (1%–3%). We conducted a common garden experiment and a series of carbonization experiments to better understand the determinants of seed polymorphism in archaeobotanical assemblages. We found that goosefoot produces much higher percentages of thin-testa seeds (mean 50% in our experiment, 15%–34% in free-living parent populations) than previously reported. We also found that cultivated plants produce more thin-testa seeds than their free-living parents, demonstrating that this trait is plastic in response to a garden environment. The carbonization experiments suggest that thin-testa seeds preserve under a larger window of conditions than thick-testa seeds, contrary to our expectations. These results suggest that (1) carbonized, phenotypically mixed assemblages should be interpreted cautiously, and (2) developmental plasticity and genetic assimilation played a role in the domestication of goosefoot.

翻开新的一页:发育可塑性在北美东部鹅足驯化中作用的实验研究
在北美东部,土著居民驯化了几种现在已经灭绝的作物。我们提出的实验数据改变了我们对其中一种鹅足(Chenopodium berlandieri)驯化的理解。根据种子形态,特别是种皮(种皮)厚度的减少,人们已经认识到古代驯化的鹅足。非驯化的鹅足有时也会产生与驯化的鹅足相似甚至完全相同的种子,但研究人员认为这样的种子很罕见(1%-3%)。为了更好地了解考古植物组合中种子多态性的决定因素,我们进行了普通花园实验和一系列碳化实验。我们发现,与之前的报道相比,鹅足产生的薄皮种子的比例要高得多(在我们的实验中平均为50%,在自由生活的亲本群体中为15%-34%)。我们还发现,人工栽培的植物比它们自由生长的亲本产生更多的薄皮种子,这表明这种特性是对花园环境的可塑性反应。炭化实验表明,薄木纹种子比厚木纹种子在更大的条件下保存,这与我们的预期相反。这些结果表明:(1)应谨慎解释碳化、表型混合组合;(2)发育可塑性和遗传同化在鹅足驯化中发挥了作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
American Antiquity
American Antiquity Multiple-
CiteScore
4.90
自引率
7.10%
发文量
95
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