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Literature DB >> 26826220

Climate and Developmental Plasticity: Interannual Variability in Grapevine Leaf Morphology.

Daniel H Chitwood¹, Susan M Rundell¹, Darren Y Li¹, Quaneisha L Woodford¹, Tommy T Yu¹, Jose R Lopez¹, Daniel Greenblatt¹, Julie Kang¹, Jason P Londo¹.

Abstract

The shapes of leaves are dynamic, changing over evolutionary time between species, within a single plant producing different shaped leaves at successive nodes, during the development of a single leaf as it allometrically expands, and in response to the environment. Notably, strong correlations between the dissection and size of leaves with temperature and precipitation exist in both the paleorecord and extant populations. Yet, a morphometric model integrating evolutionary, developmental, and environmental effects on leaf shape is lacking. Here, we continue a morphometric analysis of >5,500 leaves representing 270 grapevines of multiple Vitis species between two growing seasons. Leaves are paired one-to-one and vine-to-vine accounting for developmental context, between growing seasons. Linear discriminant analysis reveals shape features that specifically define growing season, regardless of species or developmental context. The shape feature, a more pronounced distal sinus, is associated with the colder, drier growing season, consistent with patterns observed in the paleorecord. We discuss the implications of such plasticity in a long-lived woody perennial, such as grapevine (Vitis spp.), with respect to the evolution and functionality of plant morphology and changes in climate.

Entities: Disease

Mesh：

Year: 2016 PMID： 26826220 PMCID： PMC4775139 DOI： 10.1104/pp.15.01825

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

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8. A quantitative genetic basis for leaf morphology in a set of precisely defined tomato introgression lines.

Authors: Daniel H Chitwood; Ravi Kumar; Lauren R Headland; Aashish Ranjan; Michael F Covington; Yasunori Ichihashi; Daniel Fulop; José M Jiménez-Gómez; Jie Peng; Julin N Maloof; Neelima R Sinha
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9. Climate change, wine, and conservation.

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2. Multi-dimensional leaf phenotypes reflect root system genotype in grafted grapevine over the growing season.

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Review 3. Reshaping Plant Biology: Qualitative and Quantitative Descriptors for Plant Morphology.

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Review 4. Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant Sciences.

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6. Digital Morphometrics of Two North American Grapevines (Vitis: Vitaceae) Quantifies Leaf Variation between Species, within Species, and among Individuals.

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