Grass pollen surface ornamentation is diverse across the phylogeny: Evidence from northern South America and the global literature

Cai‐Xia Wei, Phillip E. Jardine, Li‐Mi Mao, Luke Mander, Mao Li, William D. Gosling, Carina Hoorn
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Abstract

Abstract The grasses are one of the most diverse plant families on Earth. However, their classification and evolutionary history are obscured by their pollen stenopalynous (similar) morphology. A combination of high‐resolution imaging of pollen surface ornamentation and computational analysis has previously been proposed as a promising tool to classify grass taxonomic boundaries. In this study, we test this hypothesis by studying Poaceae pollen across the phylogeny from plants collected in northern South America and also from published literature across the globe. We assessed if morphotypes that we establish using descriptive terminology are supported by computational analysis, if they vary along six (a)biotic variables and vary across the phylogeny. Based on this analysis, we constructed a reference framework for pollen surface ornamentation morphotypes. Our results showed that there is a wide variation of grass pollen surface ornamentation. We identified nine new and confirmed six known morphotypes, establishing a data set for 223 species (243 individual plant specimens) that represent 11 subfamilies. Computational analysis showed that our morphotypes are well‐supported by two quantitative features of pollen sculptural elements (size and density). The specific data set and mapping of the phylogeny confirmed that pollen morphological sculpture is unrelated to (a)biotic variables and is diverse across the phylogeny.
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草花粉表面纹饰在整个系统发育中是多样的:来自南美洲北部和全球文献的证据
禾本科植物是地球上种类最多的植物科之一。然而,它们的分类和进化历史被花粉狭窄(相似)的形态所模糊。花粉表面纹饰的高分辨率成像和计算分析相结合已经被提出作为一种有前途的分类边界划分工具。在这项研究中,我们通过研究从南美洲北部收集的植物和全球发表的文献中收集的Poaceae花粉的系统发育来验证这一假设。我们评估了我们使用描述性术语建立的形态是否得到计算分析的支持,如果它们沿着六(a)个生物变量变化,并且在整个系统发育中变化。在此基础上,我们构建了花粉表面纹饰形态的参考框架。结果表明,草花粉表面纹饰存在广泛的变异。我们鉴定了9种新的形态,并确认了6种已知的形态,建立了223种(243个单独的植物标本)的数据集,代表11个亚科。计算分析表明,我们的形态类型很好地支持花粉雕刻元素的两个定量特征(大小和密度)。系统发育的具体数据集和制图证实花粉形态雕刻与(a)生物变量无关,并且在整个系统发育中具有多样性。
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