Some unique anatomical scaling relationships among genera in the grass subfamily Pooideae.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-22 eCollection Date: 2024-12-01 DOI:10.1093/aobpla/plae059

Daniel B Spitzer, Troy W Ocheltree, Sean M Gleason

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Abstract

Members of the grass family Poaceae have adapted to a wide range of habitats and disturbance regimes globally. The cellular structure and arrangements of leaves can help explain how plants survive in different climates, but these traits are rarely measured in grasses. Most studies are focussed on individual species or distantly related species within Poaceae. While this focus can reveal broad adaptations, it is also likely to overlook subtle adaptations within more closely related groups (subfamilies, tribes). This study, therefore, investigated the scaling relationships between leaf size, vein length area (VLA) and vessel size in five genera within the subfamily Pooideae. The scaling exponent of the relationship between leaf area and VLA was -0.46 (±0.21), which is consistent with previous studies. In Poa and Elymus, however, minor vein number and leaf length were uncorrelated, whereas in Festuca these traits were positively correlated (slope = 0.82 ± 0.8). These findings suggest there are broad-scale and fine-scale variations in leaf hydraulic traits among grasses. Future studies should consider both narrow and broad phylogenetic gradients.

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禾本科 Pooideae 亚科属间一些独特的解剖缩放关系。

禾本科植物在全球范围内适应了多种栖息地和干扰机制。叶片的细胞结构和排列有助于解释植物如何在不同的气候条件下生存，但这些特征很少在禾本科植物中进行测量。大多数研究都集中在单个物种或禾本科植物中的远缘物种上。虽然这种关注可以揭示广泛的适应性，但也有可能忽略了亲缘关系更近的群体（亚科、科）内的微妙适应性。因此，本研究调查了蒲葵亚科五个属的叶片大小、叶脉长度面积（VLA）和血管大小之间的比例关系。叶面积与叶脉长度面积之间的比例关系指数为-0.46（±0.21），与之前的研究结果一致。不过，在 Poa 和 Elymus 中，次脉数与叶长不相关，而在 Festuca 中，这些性状呈正相关（斜率 = 0.82 ± 0.8）。这些研究结果表明，禾本科植物的叶片水力特征存在宽尺度和细尺度的差异。未来的研究应同时考虑狭义和广义的系统发育梯度。

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