豆科植物茎部光合结构的形态和解剖变化

IF 1.7 4区生物学 Q3 ECOLOGY

Flora Pub Date : 2025-02-19 DOI:10.1016/j.flora.2025.152693

Veit M. Dörken , Philip G. Ladd , Robert F. Parsons

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引用次数: 0

摘要

叶子是大多数植物的光合器官。然而，一些物种除了有叶片外，还有其他的光合作用结构，或者已经失去了产生绿叶的能力，进化出了固定碳的替代器官。豆科是陆地植物中光合作用结构范围最广的一个物种科。我们研究了五种豌豆，它们的叶子往往是短暂的，或者已经完全减少到不进行光合作用的苞片，以了解替代结构形成的方式。利用茎进行光合作用的进化动机可能与光照和季节性水分供应有关。猪猪草在干燥条件下脱落叶子，光合作用被限制在脊状茎上，其中脊状茎来自高度修饰的托生组织。矢箭草一年生芽有叶，但茎由叶基延伸而来，叶基沿茎向外扩展形成连续的叶状翅膀，增加了光合作用面积。在解剖学上，Cytisus和Genista是相对中形的，通过失去叶子（Cytisus）或有一年生茎（Genista）来避免水分胁迫。其他三种生长在地中海型气候中，夏季干旱明显。叶片退化为棕色苞片，但叶基在茎节之间延伸形成光合作用的脊茎或枝。由于其光合面积有限，在群落中处于从属地位。葡萄钩体和毛毛钩体具有更宽的枝，是较大的灌木。这三个物种的茎和枝具有致密的解剖结构和丰富的厚壁组织，使它们能够利用冬春降雨，但也使它们能够度过炎热干旱的夏季。这五个物种强调，不同的结构可以被修改以达到相似的结果。

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Morphological and anatomical variations in stem-related photosynthetic structures of the Fabaceae

Leaves are the photosynthetic organs of most plants. However some species have other photosynthetic structures as well as leaves or have lost the ability to produce green leaves and have evolved alternative organs for carbon fixation. The Fabaceae is a speciose family that has species with probably the widest range of photosynthetic structures in land plants. We examined five pea species where leaves are often ephemeral or have been entirely reduced to nonphotosynthetic bracts to understand the ways in which alternative structures have been formed. The evolutionary incentive to use stems for photosynthesis is likely related to light and seasonal water availability. Cytisus scoparius sheds leaves under dry conditions and photosynthesis is then restricted to ridged stems where the ridges are derived from highly modified stipular tissues. In Genista sagittalis the annual shoots do have leaves but the stems form extensions derived from leaf bases that laterally expand to form continuous leaf-like wings down the stem increasing photosynthetic area. Anatomically Cytisus and Genista are relatively mesomorphic and avoid water stress by losing leaves (Cytisus) or having annual stems (Genista). The other three species grow in a mediterranean-type climate with pronounced summer drought. Leaf blades are reduced to brown bracts but the leaf bases extend between the stem nodes to form photosynthetic ridged stems or cladodes. Jacksonia alata is a diminutive species with limited photosynthetic area which may contribute to its subordinate position in its community. Leptosema aphyllum and L. tomentosum have much broader cladodes and are larger shrubs. These three species have stems and cladodes with a dense anatomical structure and abundant sclerenchyma that allow the species to take advantage of the winter-spring rainfall but enable their survival through the hot and arid summer. The five species emphasise that different structures can be modified to achieve a similar outcome.

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来源期刊

Flora 生物-植物科学

CiteScore

3.30

自引率

10.50%

发文量

130

审稿时长

54 days

期刊介绍： FLORA publishes original contributions and review articles on plant structure (morphology and anatomy), plant distribution (incl. phylogeography) and plant functional ecology (ecophysiology, population ecology and population genetics, organismic interactions, community ecology, ecosystem ecology). Manuscripts (both original and review articles) on a single topic can be compiled in Special Issues, for which suggestions are welcome. FLORA, the scientific botanical journal with the longest uninterrupted publication sequence (since 1818), considers manuscripts in the above areas which appeal a broad scientific and international readership. Manuscripts focused on floristics and vegetation science will only be considered if they exceed the pure descriptive approach and have relevance for interpreting plant morphology, distribution or ecology. Manuscripts whose content is restricted to purely systematic and nomenclature matters, to geobotanical aspects of only local interest, to pure applications in agri-, horti- or silviculture and pharmacology, and experimental studies dealing exclusively with investigations at the cellular and subcellular level will not be accepted. Manuscripts dealing with comparative and evolutionary aspects of morphology, anatomy and development are welcome.